SBA TechnologySBA TechnologySBA TechnologySBA TechnologySBA Technology byby ZEMANZEMAN

ZEMAN

ZEMAN

ZEMANZEMAN –– Steel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling Technology

1

Steel Beam Assembling Technology

1

Steel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling Technology – SBASBA –– BuildBuild toto Leadeadead

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TheThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

SBA Technology

ZEMAN-on parts.

The SBA systemThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

SBA Technology

ZEMAN has developed aon parts.

SBA systemThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

SBA Technology

has developed aon parts.

SBA systemThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

SBA Technology

has developed aon parts.

Old fashioned beam assembly

SBA systemThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

SBA Technology by

has developed a

Old fashioned beam assembly

SBA systemThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

by ZEMAN

has developed a

Old fashioned beam assembly

SBA system is a trueThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

ZEMAN

has developed a

Old fashioned beam assembly

is a trueThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural

ZEMAN

ZEMAN

has developed a fully automated

Old fashioned beam assembly

is a trueThe only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural-

ZEMAN

fully automated

Old fashioned beam assembly

is a true “game changer”The only way fabricators could put their steel beams

Assembled by manual welding of the headbe needed to meet structural-design requirements.

ZEMAN –

fully automated

Old fashioned beam assembly

“game changer”The only way fabricators could put their steel beams

Possible combinations of add parts and beams

Assembled by manual welding of the headdesign requirements.

– Steel Beam Assembling Technology

fully automated

Old fashioned beam assembly

“game changer”The only way fabricators could put their steel beams

Possible combinations of add parts and beams

Assembled by manual welding of the headdesign requirements.

Steel Beam Assembling Technology

fully automated

Old fashioned beam assembly

“game changer”The only way fabricators could put their steel beams

Possible combinations of add parts and beams

Assembled by manual welding of the headdesign requirements.

Steel Beam Assembling Technology

fully automated production line

Old fashioned beam assembly

“game changer”The only way fabricators could put their steel beams

Possible combinations of add parts and beams

Assembled by manual welding of the head-design requirements.

Steel Beam Assembling Technology

production line

“game changer” with the conventional way of doing things:The only way fabricators could put their steel beams

Possible combinations of add parts and beams

-plates, basedesign requirements.

Steel Beam Assembling Technology

production line

with the conventional way of doing things:The only way fabricators could put their steel beams

Possible combinations of add parts and beams

plates, basedesign requirements.

Steel Beam Assembling Technology

production line

with the conventional way of doing things:The only way fabricators could put their steel beams

Possible combinations of add parts and beams

plates, basedesign requirements.

Steel Beam Assembling Technology

2

production line

with the conventional way of doing things:The only way fabricators could put their steel beams together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, base

Steel Beam Assembling Technology

2

production line

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, base-plates, connection plates

Steel Beam Assembling Technology

production line for practically any type of steel

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

Steel Beam Assembling Technology

for practically any type of steel

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

Steel Beam Assembling Technology – SBA

for practically any type of steel

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

SBA –

for practically any type of steel

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

– Build

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

Build to

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

to Lead

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates

ead

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

plates, connection plates and whatever stiffeners may

ead

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

Possible combinations of add parts and beams

and whatever stiffeners may

for practically any type of steel

Future of beam assembly

with the conventional way of doing things:together, anywhere in the world, was by hand.

and whatever stiffeners may

for practically any type of steel beam tha

Future of beam assembly

together, anywhere in the world, was by hand.

and whatever stiffeners may

beam tha

Future of beam assembly

together, anywhere in the world, was by hand.

and whatever stiffeners may

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SBA TechnologySBA TechnologySBA TechnologySBA TechnologySBA Technology byby ZEMANZEMAN

ZEMAN

ZEMAN

ZEMANZEMAN –– Steel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling Technology

3

Steel Beam Assembling Technology

3

Steel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling Technology – SBASBA –– BuildBuild toto Leadeadead

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s s

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

steel beam.

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

SBA Technology

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s s

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

steel beam.

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

SBA Technology

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s s

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

steel beam.

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

SBA Technology

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s s

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

steel beam.

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

SBA Technology

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s s

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

steel beam.

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

SBA Technology by

The individual components

simultaneously compares the gathered data with the CAD

into the SBA’s software. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

by ZEMAN

The individual components

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

ZEMAN

The individual components

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

ZEMAN

ZEMAN

The individual components

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

ZEMAN

The individual components

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

ZEMAN –

The individual components are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

– Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Handling & Welding Robots in Action

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

reported to the operator, who can decide, whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

4

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

oftware. Any deviation from allowed tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

4

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

simultaneously compares the gathered data with the CAD drawings

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology

are being automatically scanned by a 3D laser/camera system, which

drawings

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief

Steel Beam Assembling Technology – SBA

are being automatically scanned by a 3D laser/camera system, which

drawings

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

the beam (according to CAD drawing) and mounted within a brief span of time

SBA –

are being automatically scanned by a 3D laser/camera system, which

drawings,

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

span of time

– Build

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

span of time

Build to

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

span of time

to Lead

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

span of time (approx. 1 min/piece)

ead

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

faulty add parts shall be replaced. This methodology helps to guarantee the error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

ead

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

whether to proceed with the fabrication of the beam, or if the

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

(approx. 1 min/piece)

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

or if the

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

or if the

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

are being automatically scanned by a 3D laser/camera system, which

which have previously been imported

tolerances for the scanned parts will be immediately

or if the

error free assembly of each

With the help of a handling robot and a welding robot, add parts are being placed at the exact position of

SBA Technology

SBA Technology

Omit manual measuring and line marking

Automatic recognition of welding location

No standstill

Automatic in

Minimization of labo

Lack of skilled labo

Project

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental

SBA Technology

Omit manual measuring and line marking

Automatic recognition of welding location

No standstill

Automatic in

Minimization of labo

Lack of skilled labo

Project

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental

SBA Technology

Omit manual measuring and line marking

Automatic recognition of welding location

No standstill

Automatic in

Minimization of labo

Lack of skilled labo

Project-related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental

SBA Technology by

Omit manual measuring and line marking

Automatic recognition of welding location

No standstill

Automatic in

Minimization of labo

Lack of skilled labo

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental

by ZEMAN

Omit manual measuring and line marking

Automatic recognition of welding location

No standstill time of r

Automatic in- and outfeed

Minimization of labo

Lack of skilled labo

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental

ZEMAN

Omit manual measuring and line marking

Automatic recognition of welding location

time of r

and outfeed

Minimization of labo

Lack of skilled labo

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

Environmental friendly by saving energy with

ZEMAN

ZEMAN

Omit manual measuring and line marking

Automatic recognition of welding location

time of r

and outfeed

Minimization of labou

Lack of skilled labour can be easily overcome

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

ZEMAN

Omit manual measuring and line marking

Automatic recognition of welding location

time of robots through simultaneous work

and outfeed

ur force and labo

r can be easily overcome

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

ZEMAN –

Omit manual measuring and line marking

Automatic recognition of welding location

obots through simultaneous work

and outfeed of beams

r force and labo

r can be easily overcome

related information

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

– Steel Beam Assembling Technology

Omit manual measuring and line marking

Automatic recognition of welding location

obots through simultaneous work

of beams

r force and labo

r can be easily overcome

will be

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

Omit manual measuring and line marking

Automatic recognition of welding location

obots through simultaneous work

of beams

r force and labo

r can be easily overcome

will be

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

Omit manual measuring and line marking

Automatic recognition of welding location

obots through simultaneous work

of beams

r force and labo

r can be easily overcome

will be saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

Omit manual measuring and line marking

Automatic recognition of welding location

obots through simultaneous work

r force and labour costs

r can be easily overcome

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

Omit manual measuring and line marking (scribing)

Automatic recognition of welding location

obots through simultaneous work

r costs

r can be easily overcome

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

(scribing)

obots through simultaneous work

r costs

r can be easily overcome

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

friendly by saving energy with

Steel Beam Assembling Technology

5

(scribing)

obots through simultaneous work

r can be easily overcome

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

perfectly tuned software

Steel Beam Assembling Technology

5

(scribing)

obots through simultaneous work

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

No assembly or welding mistakes caused by SBA

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high

perfectly tuned software

Steel Beam Assembling Technology

(scribing) of welding location

obots through simultaneous work

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

Easy assembly of complete construction due to high precision of fabricated beams

perfectly tuned software

Steel Beam Assembling Technology

of welding location

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

Delivery of perfectly assembled beams to construction site

Reliable quality at highest standards for all fabricated beams

precision of fabricated beams

perfectly tuned software

Steel Beam Assembling Technology – SBA

of welding location

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same

Delivery of perfectly assembled beams to construction site, shorter “time to market”

Reliable quality at highest standards for all fabricated beams

precision of fabricated beams

perfectly tuned software

SBA –

of welding location

saved by the software and used for future tasks

Shorter fabrication times facilitate increase in capacity at same expenditure

, shorter “time to market”

precision of fabricated beams

perfectly tuned software

– Build

of welding location

saved by the software and used for future tasks

expenditure

, shorter “time to market”

precision of fabricated beams

perfectly tuned software

Build to

of welding location

saved by the software and used for future tasks

expenditure

, shorter “time to market”

precision of fabricated beams

perfectly tuned software

to Lead

of welding location

saved by the software and used for future tasks

expenditure

, shorter “time to market”

precision of fabricated beams

ead

saved by the software and used for future tasks

expenditure

, shorter “time to market”

precision of fabricated beams

ead

saved by the software and used for future tasks

, shorter “time to market”

precision of fabricated beams

saved by the software and used for future tasks

, shorter “time to market”

precision of fabricated beams

, shorter “time to market”

precision of fabricated beams

SBA Technology

Scanning table for add parts

ZEMAN’s

1)

2)

SBA Technology

Scanning table for add parts

ZEMAN’s

1) Implementing CAD Drawing into

2) Placing add parts on scanning table

SBA Technology

Scanning table for add parts

ZEMAN’s

Implementing CAD Drawing into

Placing add parts on scanning table

SBA Technology

Scanning table for add parts

ZEMAN’s user

Implementing CAD Drawing into

Placing add parts on scanning table

SBA Technology by

Scanning table for add parts

user-friendly

Implementing CAD Drawing into

Placing add parts on scanning table

by ZEMAN

Scanning table for add parts

friendly

Implementing CAD Drawing into

Placing add parts on scanning table

ZEMAN

Scanning table for add parts

friendly

Implementing CAD Drawing into

Placing add parts on scanning table

ZEMAN

ZEMAN

Scanning table for add parts

friendly “Pro

Implementing CAD Drawing into

Placing add parts on scanning table

ZEMAN

Scanning table for add parts

“Pro-fit” Software

Implementing CAD Drawing into

Placing add parts on scanning table

ZEMAN –

fit” Software

Implementing CAD Drawing into

Placing add parts on scanning table

– Steel Beam Assembling Technology

fit” Software

Implementing CAD Drawing into

Placing add parts on scanning table

Steel Beam Assembling Technology

fit” Software

Implementing CAD Drawing into

Placing add parts on scanning table

Steel Beam Assembling Technology

fit” Software

Implementing CAD Drawing into

Placing add parts on scanning table

Steel Beam Assembling Technology

Implementing CAD Drawing into

Placing add parts on scanning table

Steel Beam Assembling Technology

Implementing CAD Drawing into

Placing add parts on scanning table

Steel Beam Assembling Technology

Implementing CAD Drawing into ZEMAN

Placing add parts on scanning table

Steel Beam Assembling Technology

6

ZEMAN

Placing add parts on scanning table

Steel Beam Assembling Technology

6

ZEMAN

Steel Beam Assembling Technology

ZEMAN’s Pro

Steel Beam Assembling Technology

’s Pro

Steel Beam Assembling Technology – SBA

’s Pro-

SBA –

-FIT software

– Build

FIT software

Build to

FIT software

to Lead

FIT software

ead

FIT software

ead

FIT software

SBA Technology

Auto feed

3)

4)

Auto 3D scanner

SBA Technology

Auto feed

3) Automatic feed

4) Automatic

Auto 3D scanner

SBA Technology

Auto feed

Automatic feed

Automatic

Auto 3D scanner

SBA Technology

Auto feed-in

Automatic feed

Automatic

Auto 3D scanner

SBA Technology by

in

Automatic feed

Automatic

Auto 3D scanner

by ZEMAN

Automatic feed

Automatic feed in and scan of add parts with 3D laser and camera system

Auto 3D scanner

ZEMAN

Automatic feed

feed in and scan of add parts with 3D laser and camera system

ZEMAN

ZEMAN

Automatic feed-

feed in and scan of add parts with 3D laser and camera system

ZEMAN

-in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

ZEMAN –

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

– Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

7

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

7

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Steel Beam Assembling Technology – SBA

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

SBA –

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

– Build

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

Build to

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

to Lead

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

ead

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

ead

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera system

in of beams with the help of cross and length conveyors

feed in and scan of add parts with 3D laser and camera systemfeed in and scan of add parts with 3D laser and camera system

SBA Technology

5)

Assembly process

6)

Two welding robots in Action

SBA Technology

5) Assembly starts by tack welding parts to the beam

Assembly process

6) Full welding process starts (multi pass

Two welding robots in Action

SBA Technology

Assembly starts by tack welding parts to the beam

Assembly process

Full welding process starts (multi pass

Two welding robots in Action

SBA Technology

Assembly starts by tack welding parts to the beam

Assembly process

Full welding process starts (multi pass

Two welding robots in Action

SBA Technology by

Assembly starts by tack welding parts to the beam

Assembly process

Full welding process starts (multi pass

Two welding robots in Action

by ZEMAN

Assembly starts by tack welding parts to the beam

Assembly process

Full welding process starts (multi pass

Two welding robots in Action

ZEMAN

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Two welding robots in Action

ZEMAN

ZEMAN

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Two welding robots in Action

ZEMAN

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Two welding robots in Action

ZEMAN –

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Two welding robots in Action

– Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

8

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

8

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

Full welding process starts (multi pass welding possible)

Steel Beam Assembling Technology

Assembly starts by tack welding parts to the beam

welding possible)

Steel Beam Assembling Technology – SBA

Assembly starts by tack welding parts to the beam

welding possible)

SBA –

Assembly starts by tack welding parts to the beam

welding possible)

– Build

Assembly starts by tack welding parts to the beam

welding possible)

Build to

welding possible)

to Lead

welding possible)

ead

welding possible)

ead

SBA Technology

7)

SBA Technology

7) Automatic feed

SBA Technology

Automatic feed

SBA Technology

Automatic feed

SBA Technology by

Automatic feed

SINGLE PASS

by ZEMAN

Automatic feed

SINGLE PASS

ZEMAN

Automatic feed

SINGLE PASS

ZEMAN

ZEMAN

The beam has been completely assembled

Automatic feed-

SINGLE PASS

ZEMAN

The beam has been completely assembled

-out of beam with the help of conveyors and lifting system

SINGLE PASS

ZEMAN –

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

SINGLE PASS

– Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

SINGLE PASS / MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

9

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

9

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology

The beam has been completely assembled and

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING

Steel Beam Assembling Technology – SBA

and

out of beam with the help of conveyors and lifting system

/ MULTI PASS WELDING IN PERFECT QUALITY

SBA –

and is ready for

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

– Build

is ready for

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

Build to

is ready for

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

to Lead

is ready for painting!

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

ead

painting!

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

ead

painting!

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

painting!

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

out of beam with the help of conveyors and lifting system

IN PERFECT QUALITY

out of beam with the help of conveyors and lifting systemout of beam with the help of conveyors and lifting systemout of beam with the help of conveyors and lifting system

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world ofassembly.

SBA Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world ofassembly.

SBA Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world ofassembly.

SBA Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world ofassembly.

SBA Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world ofassembly.

SBA Technology by

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

by ZEMAN

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

ZEMAN

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

ZEMAN

ZEMAN

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

ZEMAN

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

ZEMAN –

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

– Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and weldingcapacity by using a minimum of space.

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

10

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

10

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Steel Beam Assembling Technology – SBA

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

SBA –

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

– Build

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

Build to

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

to Lead

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of

ead

The SBA Compact model has been designed to increase beam assembly and welding

SBA Compact is the first choice of fabricators to enter the world of automated steel beam

ead

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

The SBA Compact model has been designed to increase beam assembly and welding

automated steel beam

SBA Conti offers the full package of automation:

Automatic Inpossible beam processing!

SBA Technology

SBA Conti offers the full package of automation:

Automatic Inpossible beam processing!

SBA Technology

SBA Conti offers the full package of automation:

Automatic Inpossible beam processing!

SBA Technology

SBA Conti offers the full package of automation:

Automatic Inpossible beam processing!

SBA Technology

SBA Conti offers the full package of automation:

Automatic Inpossible beam processing!

SBA Technology by

SBA Conti offers the full package of automation:

Automatic In- & Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

by ZEMAN

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

ZEMAN

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

ZEMAN

ZEMAN

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

ZEMAN

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

ZEMAN –

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickestpossible beam processing!

– Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

11

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

11

SBA Conti offers the full package of automation:

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology

& Outfeed of beams and add parts, for reduced handling time and quickest

Steel Beam Assembling Technology – SBA

& Outfeed of beams and add parts, for reduced handling time and quickest

SBA –

& Outfeed of beams and add parts, for reduced handling time and quickest

– Build

& Outfeed of beams and add parts, for reduced handling time and quickest

Build to

& Outfeed of beams and add parts, for reduced handling time and quickest

to Lead

& Outfeed of beams and add parts, for reduced handling time and quickest

ead

& Outfeed of beams and add parts, for reduced handling time and quickest

ead

& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest& Outfeed of beams and add parts, for reduced handling time and quickest

SBA Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

SBA Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

SBA Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

SBA Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

SBA Technology by

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

by ZEMAN

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

ZEMAN

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

ZEMAN

ZEMAN

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

ZEMAN

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

ZEMAN –

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

– Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

according to CAD drawings.

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

12

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

12

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Steel Beam Assembling Technology – SBA

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

SBA –

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

– Build

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

Build to

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

to Lead

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

ead

SBA Eco boosts fabricator’s capacity output, by fully automatic welding

ead

SBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic weldingSBA Eco boosts fabricator’s capacity output, by fully automatic welding

SBA Technology

Pro

SBA Technology

Pro

SBA Technology

Pro-fit is an easy to use software for processing of CAD drawings with SBA:

-

-

-

SBA Technology

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

SBA Technology by

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

by ZEMAN

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

ZEMAN

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

ZEMAN

ZEMAN

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

ZEMAN

fit is an easy to use software for processing of CAD drawings with SBA:

User friendly

Only 5min work

Compatible with all CAD

ZEMAN –

fit is an easy to use software for processing of CAD drawings with SBA:

Only 5min work

Compatible with all CAD

– Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

Only 5min work preparation

Compatible with all CAD

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

preparation

Compatible with all CAD

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

preparation

Compatible with all CAD

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

preparation

Compatible with all CAD-Programs

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

preparation

Programs

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

Programs

Steel Beam Assembling Technology

13

fit is an easy to use software for processing of CAD drawings with SBA:

Programs

Steel Beam Assembling Technology

13

fit is an easy to use software for processing of CAD drawings with SBA:

Programs

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

Steel Beam Assembling Technology

fit is an easy to use software for processing of CAD drawings with SBA:

Steel Beam Assembling Technology – SBA

fit is an easy to use software for processing of CAD drawings with SBA:

SBA –

fit is an easy to use software for processing of CAD drawings with SBA:

– Build

fit is an easy to use software for processing of CAD drawings with SBA:

Build to

fit is an easy to use software for processing of CAD drawings with SBA:

to Lead

fit is an easy to use software for processing of CAD drawings with SBA:

ead

fit is an easy to use software for processing of CAD drawings with SBA:

ead

fit is an easy to use software for processing of CAD drawings with SBA:fit is an easy to use software for processing of CAD drawings with SBA:fit is an easy to use software for processing of CAD drawings with SBA:fit is an easy to use software for processing of CAD drawings with SBA:fit is an easy to use software for processing of CAD drawings with SBA:fit is an easy to use software for processing of CAD drawings with SBA:

Heavy

SBA Technology

Heavy

SBA Technology

3D Scanning

Heavy Duty Handling Robot

SBA Technology

3D Scanning

Duty Handling Robot

SBA Technology

3D Scanning

Duty Handling Robot

SBA Technology by

3D Scanning

Duty Handling Robot

Multilayer Welding

by ZEMAN

3D Scanning

Duty Handling Robot

Multilayer Welding

ZEMAN

3D Scanning

Duty Handling Robot

Multilayer Welding

ZEMAN

ZEMAN

Duty Handling Robot

Multilayer Welding

ZEMAN

Duty Handling Robot

Multilayer Welding

ZEMAN –

Multilayer Welding

– Steel Beam Assembling Technology

Multilayer Welding

Steel Beam Assembling TechnologySteel Beam Assembling TechnologySteel Beam Assembling Technology

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

14

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

14

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology

Heavy Beam Rotators

Auto Turning Station

Steel Beam Assembling Technology – SBA

Heavy Beam Rotators

Auto Turning Station

SBA –– Build

Preheating & Plasma Cutting

Build to

Preheating & Plasma Cutting

to Lead

Preheating & Plasma Cutting

ead

Self

Preheating & Plasma Cutting

ead

Self

Preheating & Plasma Cutting

Swift Assembly

Self-Calibration

Preheating & Plasma Cutting

Swift Assembly

Calibration

Preheating & Plasma Cutting

Swift Assembly

Calibration

Preheating & Plasma Cutting

Swift Assembly

Calibration

Preheating & Plasma Cutting

Swift Assembly

Calibration & Cleaning

Preheating & Plasma Cutting

Swift Assembly

& Cleaning& Cleaning& Cleaning

SBA Technology

Beam sizes

Beam types

Weight limits in kg

Dimensions of ADDparts

Other available ADDparts (

Welding seams

Plasma cuts

Pre-

Auto measurements andtolerance compensation

Others

SBA Technology

Beam sizes

Beam types

Weight limits in kg

Dimensions of ADDparts

Other available ADDparts (in mm

Welding seams

Plasma cuts

-heating

Auto measurements andtolerance compensation

Others

SBA Technology

Beam sizes

Beam types

Weight limits in kg

Dimensions of ADD

Other available ADDin mm

Welding seams

Plasma cuts

heating

Auto measurements andtolerance compensation

SBA Technology

Beam sizes

Beam types

Weight limits in kg

Dimensions of ADD

Other available ADDin mm)

Welding seams

Plasma cuts

heating

Auto measurements andtolerance compensation

SBA Technology by

Weight limits in kg

Dimensions of ADD

Other available ADD

Welding seams

Auto measurements andtolerance compensation

by ZEMAN

Dimensions of ADD

Other available ADD

Auto measurements andtolerance compensation

ZEMAN

FUNCTIONS/CAPABILITI

Auto measurements andtolerance compensation

ZEMAN

ZEMAN

FUNCTIONS/CAPABILITI

Hight of beam

Width of beam

Length of beam

H -beams

Welded H

Corrugated SIN beams

Rectangular /square tubes

U -

Others

ADD parts

max. beam weight

Plates

Corner frame application

Angle beams (L

Rectangular/square

U -

Cleats (H

Timbering style structure

T -

Automatic tack weld generating (programming)

Close

Curved welding (radi)

Automatic re

Fillet welds single layer

Fillet welds multi layer

V -

V -

Full penetration welds

Gap detection/

Automatic seam tracking system (AWC)

Part2Part welding

Vertical welds (up

Copying

Beam holes

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Head

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V

Holes at

Auto pushing method in different directions

Assembly

Zeroif needed)Master/Slave job splitter

Free definition of gripper tool positions on accessoriesneeded)Turning devices

Clamping

Number of different sizes of gripper tools

Work preparation software (programming of production)

ZEMAN

FUNCTIONS/CAPABILITI

Hight of beam

Width of beam

Length of beam

beams

Welded H

Corrugated SIN beams

Rectangular /square tubes

profiles

Others

ADD parts

max. beam weight

Plates

Corner frame application

Angle beams (L

Rectangular/square

profile

Cleats (H

Timbering style structure

parts (pre

Automatic tack weld generating (programming)

Close-up welds (spot welds)

Curved welding (radi)

Automatic re

Fillet welds single layer

Fillet welds multi layer

welds single layer

welds multi layer

Full penetration welds

Gap detection/

Automatic seam tracking system (AWC)

Part2Part welding

Vertical welds (up

Copying

Beam holes

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Head-/footplate

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V

Holes at

Auto pushing method in different directions

Assembly

Zero-point offset of main beamif needed)Master/Slave job splitter

Free definition of gripper tool positions on accessoriesneeded)Turning devices

Clamping

Number of different sizes of gripper tools

Work preparation software (programming of production)

ZEMAN –

FUNCTIONS/CAPABILITI

Hight of beam

Width of beam

Length of beam

beams

Welded H - beams

Corrugated SIN beams

Rectangular /square tubes

profiles

ADD parts

max. beam weight

Corner frame application

Angle beams (L

Rectangular/square

profile

Cleats (H - beam)

Timbering style structure

parts (pre

Automatic tack weld generating (programming)

up welds (spot welds)

Curved welding (radi)

Automatic re

Fillet welds single layer

Fillet welds multi layer

welds single layer

welds multi layer

Full penetration welds

Gap detection/

Automatic seam tracking system (AWC)

Part2Part welding

Vertical welds (up

Copying

Beam holes

Bevel cut at the rear side of beam

Chamfer located cross in the beam

/footplate

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V

Holes at accessories as reference for assembly

Auto pushing method in different directions

Assembly-/ production tolerances

point offset of main beamif needed)Master/Slave job splitter

Free definition of gripper tool positions on accessoriesneeded)Turning devices

Clamping

Number of different sizes of gripper tools

Work preparation software (programming of production)

– Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

Hight of beam

Width of beam

Length of beam

beams

Corrugated SIN beams

Rectangular /square tubes

max. beam weight

Corner frame application

Angle beams (L -

Rectangular/square

beam)

Timbering style structure

parts (pre-welded parts)

Automatic tack weld generating (programming)

up welds (spot welds)

Curved welding (radi)

Automatic re-orientation of the weld gun

Fillet welds single layer

Fillet welds multi layer

welds single layer

welds multi layer

Full penetration welds

Gap detection/- compensation

Automatic seam tracking system (AWC)

Part2Part welding

Vertical welds (up

Bevel cut at the rear side of beam

Chamfer located cross in the beam

/footplate

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V

accessories as reference for assembly

Auto pushing method in different directions

/ production tolerances

point offset of main beam

Master/Slave job splitter

Free definition of gripper tool positions on accessories

Turning devices

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

beams

Corrugated SIN beams

Rectangular /square tubes

max. beam weight

Corner frame application

profiles)

Rectangular/square tubes

beam)

Timbering style structure

welded parts)

Automatic tack weld generating (programming)

up welds (spot welds)

Curved welding (radi)

orientation of the weld gun

Fillet welds single layer

Fillet welds multi layer

welds single layer

welds multi layer

Full penetration welds

compensation

Automatic seam tracking system (AWC)

Part2Part welding

Vertical welds (up - welding) only tackwelding

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V

accessories as reference for assembly

Auto pushing method in different directions

/ production tolerances

point offset of main beam

Master/Slave job splitter

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

Corrugated SIN beams

Rectangular /square tubes

Corner frame application

profiles)

tubes

Timbering style structure

welded parts)

Automatic tack weld generating (programming)

up welds (spot welds)

orientation of the weld gun

Fillet welds single layer

Fillet welds multi layer

Full penetration welds

compensation

Automatic seam tracking system (AWC)

welding) only tackwelding

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto centring/averaging

Auto fillet detecting (fillet welds)

Auto groove dedecting V -

accessories as reference for assembly

Auto pushing method in different directions

/ production tolerances

point offset of main beam

Master/Slave job splitter

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

welded parts)

Automatic tack weld generating (programming)

up welds (spot welds)

orientation of the weld gun

compensation

Automatic seam tracking system (AWC)

welding) only tackwelding

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Other accessories (assembly parts)

heat against bending of accessories

heat against bending of beam

Auto fillet detecting (fillet welds)

type welds

accessories as reference for assembly

Auto pushing method in different directions

/ production tolerances

point offset of main beam

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

Automatic tack weld generating (programming)

orientation of the weld gun

Automatic seam tracking system (AWC)

welding) only tackwelding

Bevel cut at the rear side of beam

Chamfer located cross in the beam

Other accessories (assembly parts)

heat against bending of accessories

Auto fillet detecting (fillet welds)

type welds

accessories as reference for assembly

Auto pushing method in different directions

/ production tolerances

(changeable by

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

FUNCTIONS/CAPABILITI

Automatic tack weld generating (programming)

orientation of the weld gun

Automatic seam tracking system (AWC)

welding) only tackwelding

heat against bending of accessories

type welds

accessories as reference for assembly

Auto pushing method in different directions

(changeable by

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

15

FUNCTIONS/CAPABILITI

Automatic tack weld generating (programming)

welding) only tackwelding

accessories as reference for assembly

Auto pushing method in different directions

(changeable by

Free definition of gripper tool positions on accessories

Number of different sizes of gripper tools

Work preparation software (programming of production)

Steel Beam Assembling Technology

15

FUNCTIONS/CAPABILITIES AND LIMITS OF SBA

Automatic tack weld generating (programming)

welding) only tackwelding

accessories as reference for assembly

(changeable by operator

Free definition of gripper tool positions on accessories

Work preparation software (programming of production)

Steel Beam Assembling Technology

ES AND LIMITS OF SBA

operator

Free definition of gripper tool positions on accessories

Work preparation software (programming of production)

Steel Beam Assembling Technology

ES AND LIMITS OF SBA

operator

(if

Work preparation software (programming of production)

Steel Beam Assembling Technology – SBA

ES AND LIMITS OF SBA

all necessary parameters and options; change

SBA –

ES AND LIMITS OF SBA

automatic set by proFIT but changeable by operator

all necessary parameters and options; change

– Build

ES AND LIMITS OF SBA

min.150 (200)

80 (100)

150 (200)

80x80

50x100x5

60x60x60

80x80x60

automatic set by proFIT but changeable by operator

Beam always measured at assembly pos

all necessary parameters and options; change

Build to

ES AND LIMITS OF SBA

min.150 (200)

80 (100)

3000

150 (200)

80x80

0

-

50x100x5

60x60x60

80x80x60

automatic set by proFIT but changeable by operator

a3

a8

a4

a8

Beam always measured at assembly pos

yes (in case of 2 Robot version)

beam clamped in all

all necessary parameters and options; change

to Lead

ES AND LIMITS OF SBA

min.150 (200)

80 (100)

3000

150 (200)

80x80

50x100x5

60x60x60

80x80x60

not available at the moment

automatic set by proFIT but changeable by operator

not available at the moment

Beam always measured at assembly pos

yes (in case of 2 Robot version)

automatic and flexible

open

beam clamped in all

all necessary parameters and options; change

ead

ES AND LIMITS OF SBA

not available at the moment

automatic set by proFIT but changeable by operator

not available at the moment

Beam always measured at assembly pos

yes (in case of 2 Robot version)

automatic and flexible

open-top (free of barriers)

beam clamped in all

all necessary parameters and options; change

ead

ES AND LIMITS OF SBA

yes

yes

yes

no

yes

yes

yes

not available at the moment

yes

automatic set by proFIT but changeable by operator

yes

yes

yes

no

yes

yes

yes

yes

yes

not available at the moment

yes

no

yes

no

partially

no

Beam always measured at assembly pos

yes

yes

yes

yes

+/-

yes

yes (in case of 2 Robot version)

automatic and flexible

top (free of barriers)

beam clamped in all

all necessary parameters and options; change

ES AND LIMITS OF SBA

yes

yes

yes

no

yes

yes

yes

not available at the moment

yes

automatic set by proFIT but changeable by operator

yes

yes

yes

no

yes

yes

yes

yes

yes

not available at the moment

yes

no

yes

no

partially

no

Beam always measured at assembly pos

yes

yes

yes

yes

1mm

yes

yes (in case of 2 Robot version)

automatic and flexible

top (free of barriers)

beam clamped in all

3

all necessary parameters and options; change

12000 (16000/18000)

800 x 1400 (1800) x 60

not available at the moment

automatic set by proFIT but changeable by operator

not available at the moment

partially

Beam always measured at assembly pos

1mm

yes (in case of 2 Robot version)

automatic and flexible

top (free of barriers)

beam clamped in all directions

all necessary parameters and options; change

1100 (1500)

12000 (16000/18000)

1100 (1500)

800 x 1400 (1800) x 60

180x180x1400

200x200x1400

not available at the moment

automatic set by proFIT but changeable by operator

not available at the moment

Beam always measured at assembly pos

yes (in case of 2 Robot version)

automatic and flexible

top (free of barriers)

directions

all necessary parameters and options; change-

max.1100 (1500)

500

12000 (16000/18000)

1100 (1500)

500x500

200

6000

800 x 1400 (1800) x 60

180x180x1400

200x200x1400

not available at the moment

automatic set by proFIT but changeable by operator

a6

a15

a6

a10

not available at the moment

Beam always measured at assembly pos

yes (in case of 2 Robot version)

top (free of barriers)

directions

and programmable

max.1100 (1500)

500

12000 (16000/18000)

1100 (1500)

500x500

200

6000

800 x 1400 (1800) x 60

180x180x1400

200x200x1400

automatic set by proFIT but changeable by operator

a6

a15

a6

a10

Beam always measured at assembly pos

and programmable

1100 (1500)

12000 (16000/18000)

1100 (1500)

800 x 1400 (1800) x 60

180x180x1400

200x200x1400

automatic set by proFIT but changeable by operator

and programmable

12000 (16000/18000)

800 x 1400 (1800) x 60

and programmable