Upload
others
View
5
Download
0
Embed Size (px)
Citation preview
Disclosure to Promote the Right To Information
Whereas the Parliament of India has set out to provide a practical regime of right to information for citizens to secure access to information under the control of public authorities, in order to promote transparency and accountability in the working of every public authority, and whereas the attached publication of the Bureau of Indian Standards is of particular interest to the public, particularly disadvantaged communities and those engaged in the pursuit of education and knowledge, the attached public safety standard is made available to promote the timely dissemination of this information in an accurate manner to the public.
इंटरनेट मानक
“!ान $ एक न' भारत का +नम-ण”Satyanarayan Gangaram Pitroda
“Invent a New India Using Knowledge”
“प0रा1 को छोड न' 5 तरफ”Jawaharlal Nehru
“Step Out From the Old to the New”
“जान1 का अ+धकार, जी1 का अ+धकार”Mazdoor Kisan Shakti Sangathan
“The Right to Information, The Right to Live”
“!ान एक ऐसा खजाना > जो कभी च0राया नहB जा सकता है”Bhartṛhari—Nītiśatakam
“Knowledge is such a treasure which cannot be stolen”
“Invent a New India Using Knowledge”
है”ह”ह
IS 15475-3 (2004): Code of Recommended Practice forAmusement Rides Safety, Part 3: Design, Manufacture andErection [MED 6: Continuous Bulk Conveying, Elevating,Hoisting Aerial Ropeways and Related Equipment]
IS 15475 (Part 3) :2004
W7m%rJ77m
w-llm?mJmTdmttdh@mmdT9m-r3r%l-lmd, fwJw?Rwml
Indian Standard
CODE OF RECOMMENDED PRACTICE FORAMUSEMENT RIDES SAFETY
PART 3 DESIGN, MANUFACTURE AND ERECTION
ICS 97.200.40
0 BIS 2004
BUREAU OF IN DIAN STANDARDSMANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG
NEW DELHI 110002
September 2004 Price Group 4
Continuous Bulk Conveying, Elevating, Hoisting, Aerial Ropeways and Related Equipment SectionalCommittee, ME 06
FOREWORD
This Indian Standard (Part 3) was adopted by the Bureau of Indian Standards, after the draft finalized by theContinuous Bulk Conveying, Elevating, Hoisting, Aerial Ropeways and Related Equipment SectionalCommittee had been approved by the Mechanical Engineering Division Council.
Amusement parks in India are becoming quite common and people visit these parks quite often. In order toensure their safety in amusement parks or while enjoying the rides, an attempt has been made to stipulate safetyin the form of a National Code. It is hoped that organizers of amusement parks, manufacturers of rides wouldmake use of these codes to ensure overall safety of human beings and equipment at such places.
The code of recommended practice for amusement rides safety is being brought out in six parts. This standard ~covers the requirements which needs to be considered during design, manufacture and erection of amusement t
rides. Other parts in this series are as follows: ii’1
(Part 1) General informationj
(Part 2) Safety requirements /
(Part 4) Selection, training and supervision of operators
(Part 5) Operation and maintenance procedures
(Part 6) Performance tests
In preparation of this standard, assistance has been taken from ASTM standards available on amusement ridesor devices. Considerable assistance has also been derived from the following Indian Standards:
1S7155 Code of recommended practice on conveyor safety:
(Part 1) :1986 General information
(Part 2) :1986 General safety requirements
(Part 6) :1990 Selection, training and supervision of operators
(Part 7): 1990 Inspection and maintenance
IS 15475 (Part 3): 2004
Indian Standard
CODE OF RECOMMENDED PRACTICE FORAMUSEMENT RIDES SAFETY
PART 3 DESIGN, MANUFACTURE AND ERECTlON
1 SCOPE
1.1 This standard (Part 3) covers information,
parameters, requirements and procedures for thedesign, manufacture and erection of amusement Tideand devices.
1.2 This standard does not contain rules to cover allthe details of design, construction or erection of rideor device. Where complete details are not given, it isthe intention that the designer, manufacturer, subjectto approval of the user and the inspecting authorityshall follow such details of design, construction anderection which will be safe for user and riders.
1.3 Nothing in this standard is intended to contravenethe provision of any of the existing Governmentregulation. It is the responsibility of the user of thiscode to establish appropriate safety and healthpractices and comply with regulatory and statutoryrequirements prior to use of the ride or device forcarrying passenger for amusement.
2 REFERENCES
The following standards contain provisions whichthrough reference in this text, constitute provisions ofthis standard. At the time of publication, the editionsindicated were valid. All standards are subject torevision and parties to agreements based on thisstandard are encouraged to investigate the possibilityof applying the most recent editions of the standardsindicated below:
IS NO.
732:1989
1891
(Part 1): 1994
(Part 2): 1993
(Part 3): 1988
(Part 4): 1978
(Part 5): 1993
2535:1978
IS No.
3734:1983
5037:1969
8526:1994
10143:1995
12723:1988
12725:1988
12738:1995
13086:1999
Title
Code of practice for wiring installa- ~3087 .1999tions (third revision)
Conveyor and elevator textile belting— Specification
Title
Dimensions of worm gearing (fhtrevision)
Specification for basic rack andmodules of straight bevel gears forgeneral engineering and heavy
engineering
Sizes for bores and port threads forpneumatic fluid power cylinders —Recommendations (/7rst revision)
Pneumatic fluid power — Single rodcylinders, 1000 kPa (10 bar) serieswith detachable mountings, boresfrom 32 mm to 320 mm — Mountingdimensions (/h revision)
Pneumatic fluid power — Single rodcylinders, 1 000 kPa (10 bar) series— Bores from 8 mm to 25 mm —Mounting dimensions
Guide for application and installationof pneumatic fluid power systems
Pneumatic fluid power — Single rodcylinders 1 000 kPa (10 bar) serieswith integral mountings, bores from32 mm to 250 mm — Mountingdimensions (first revision)
Pneumatic fluid power — Cylinders1000 kpa (10 bar) series Rod endspherical eyes — Mounting dimen-sions (/irsf revision)
Pneumatic fluid power —Cylinders 1000 kPa (10 bar) series— Rod end clevis — Mountingdimensions (first revision)
General purpose belting ~ourth 15475 (Part 1) : Code of recommended practice forrevision) 2004 amusement rides safety: Part 1Heat resistant belting (fhird revision) General information
oi] r&Stant belting (second revision) 3 TE~~O~O~~
Hygienic belting (/h-st revision)
Fire resistant belting for surface3.1 For the purpose of this standard, the followingdefinitions, in addition to those given in IS 15475
application (Part 1) shall apply.Basic rack and modules of cylindricalgears for general engineering and 3.1.1 Inspector — A person who, through education,heavy engineering (second revision) experience and training is able to properl y evaluate an
1
IS “15475 (Part 3): 2004
amusement ride or device to determineconformance with related codes/specifications.
its
3.1.2 Inspecting Authority — Duly authorizedrepresentative of the purchaser or any other competentauthority recognized by the statutory regulations toinspect the amusement ride or device and determineits acceptability or otherwise on the basis ofappropriate Indian Standards or accepted safetyrequirements.
3.1.3 Statutory Requirements
The measures that must be taken to comply with anyGovernmental codes, regulations, ordinances or rulesthat are applicable to amusement ride, amusementdevice or joy park,
4 ‘DESIGN
4.1 Design Parameters
4.1.1 Passenger weights
For design purposes weight of passengers may beconsidered as follows:
Adult = 75 kg or 5.4 kg125 mm of hipwidth at the seat
12 year child = 40 kg or 4.1 kg/25 mm of hipwidth at the seat (Height 140 cmfor adult ride)
4.1.2 Metal structures
For design of metal structures, the various loads andstresses that can occur during operation of ride shallbe considered but not limited to the following.
4.1.2.1 Deadload
Load forces of all fixed and movable constructionparts, always present in operation of the mechanicaland electrical plants as well of the support structures.
4.1.2.2 Passenger load
Load of passengers and devices (seat and support)depending on the capacity of ride and direction oftravel.
4.1.2.3 Permanent dynamic effects
Dynamic effect of falling load at transfer points androtating parts of the ride.
4.1.2.4 Load due to inclination
Loads due to inclination of working level andmachines/passengers.
4.1.2.5 Wind load
Aerodynamic pressure depending on the localconditions and wind speed.
4.1.2.6 ‘Temperature
Temperature effect may be considered when materialswith very different expansion coefficients are usedwithin the same component.
4.1.2.7 Resistance due to friction and travel
Frictional resistances be considered if they influencethe sizes related with travel.
4.1.2.8 Failure of safety devices
Additional load due to failure of safety devicesprovided to limit the useful load may be taken intoconsideration.
4.1.2.9 Forces of ride
Belt tensions, chain tensions, etc. shall be taken intoconsideration for the calculation as far as they have aneffect on the structure.
4.1.2.10 Wind load on non-operating element
Wind speed and aerodynamic pressures with referenceto the above ground height of the structural element.
4.1.2.11 Bujler eflects
Reaction of the structure to collision with buffers athigher speeds.
4.1.2.12 Locking of traveling devices
Rail mounted equipment may be blocked byderailment or rail fracture. Maximum drive effect maybe taken into consideration.
4.1.2.13 Loads due to earthquakes
Effects due to earthquakes may be considered incalculation as special load.
4.1.2.14 Erection loads
In certain cases, it may be necessary to check somestructural parts under dead loads in particularmandatory situations.
4.1.2.15 Forces on passengers due to action of the ridebased on designing.
4.2 Design of Structural Parts for General StressAnalysis
4.2.1 General
The stresses arising in the structural parts shall bedetermined and checks shall be made to ensureadequate safety margin exists with respect to thefollowing:
a) Straining beyond the yield point or the permis-sible stress,
b) Straining beyond the permissible crippling orbuckling stress, and
c) Exceeding the permissible fatigue strength.
4.2.1.1 Conventional strength of materials
calculation procedures shall be used to calculate thestrength and suitable material shall be selected on thebasis of their characteristic values. Allowable loadsor stresses shall be reduced as deemed adequate by the
2
designer/manufacturer to allow for specialcombinations of conditions which may include but arenot limited to stress concentrations, shocks, dynamics,load cycles, degree of risk and environment.
4.2.2 Design of Joints
4.2.2.1 Welded joints
In case of combined stresses in one plane acomparative value shall be established for all types ofwelds and compared with allowable stresses. The weldjoint shall have at least the tensile strength and yieldpoint of the steel of the welded structural members.
4.2.2.2 Bolted joints
Holes for bolted and riveted joints shall be drilled andreamed. Tolerance in the hole shall be as perrecommended engineering practices.
4.2.2.3 Rivets
The rivets shall not be subjected to tensile load.
4.2.2.4 Joints using high strength friction grip(HSFG) bolts with controlled tightening
These types of bolted joints are especiallyrecommended for the joining of members subjected todynamic loads and offers guarantee against loosening.
5 MANUFACTURING PROCEDURE ANDQUALITY CONTROL
5.1 Approval of Design
Before commencing manufacture, the manufacturer,if so desired shall submit for approval by the statutoryauthority a fully dimensioned drawing with all therelevant information including calculation of loadsand stresses.
5.2 Drawing ControlProcedure
A procedure shall be in effect so that appropriatemanufacturing drawings, their engineering machinedesign calculation and related documents are arrangedin proper manner and utilized for each project.
5.3 Material and Component Control Procedure
A procedure shall be in effect so that materials, processand components, including raw materials, are inaccordance with the recommended engineeringspecifications.
5.3.1 This procedure shall provide the purchasedepartment/section with all the information requiredto order appropriate/specified material.
5.3.2 A receiving procedure shall be in effect so thatincoming material and components are checkedagainst the desired specifications and non-conformingcomponents shaIl be identified and disposed off toavoid accidental use.
IS 15475 (Part 3): 2004
5.3.3 A procedure shall be in effect so that material instock can be properly identified for use as and whenrequired in future.
5.4 Inspection Procedure
A procedure shall be in effect so that stage inspectionsare made on manufactured parts and subassemblies,for conformance with recommended engineeringspecifications prior to use in the next stage ofconstruction.
5.5 Welding
Welded construction of the ride or device is subjectedto the following general conditions.
5.5.1 All details of design and construction shallgenerally conform to the provisions of the relevantCode.
5.5.2 The welders shall be qualified for the type ofwelding concerned in conformity with the weldersperformance qualification.
5.5.3 The manufacturer of ride or device shall beresponsible for all the weldlng work done.
5.5.4 The manufacturer shall conduct the testsrequired to qualify the welding procedure employedand to assess the performance of the welders whoapply the recommended welding procedure.
5.5.5 The manufacturer shall maintain a record of theresults obtained in welding procedure qualificationtests. These records giving an accurate description ofall the particulars of the materials and procedure shallbe certified by him and shall be accessible to theinspecting authority who should be permitted towitness the tests if he so desires.
5.5.6 The materials shall conform to the requirementsof appropriate Indian Standards or shall be any otherapproved material. For guidance a list of IndianStandards on welding materials procedures and testsis given in Annex A.
5.6 Bolted and Rivets .Joints
All threaded fasteners and rivets used on anamusement ride or device in connecting componentsand parts shall meet the specified requirements ofappropriate Indian Standards for -each application inthe system, and grade shall be identified whereappropriate. Lock nuts may be used in order-to preventloosening of bolts during dynamic loading. IS 15475(Part 1) may be referred for bolts, nuts, rivets andfasteners.
5.7 Forgings and Casting
Forgings and castings used in ride systems shall meetthe recommendations of appropriate Indian Standardsfor each application in the system, and grade/type shall
3
IS 15475 (Part 3) :2004
be identified IS 15475 (Part 1) ‘General information’may be referred for forgings and castings.
5.8 Chain and Wire Rope
Chain and wire rope used in ride systems shall complywith the specified requirements of appropriate IndianStandards. IS 15475 (Part 1) may be referredconsidering existing industrial rating, load conditions,dynamics and potential fatigue involved.
5.9 Gears
Gear, rack and pinions used in ride systems shallcomply with the specified requirements of appropriateIndian Standards. For guidance IS 2535, IS 3734 andIS 5037 maybe referred.
5.12.4 The emergency stop switches shall bemanually reset. The resetting of stop switch shall notstart the ride.
5.13 Hydraulic Fluid Power Systems
5.13.1 Hydraulic components used in hydraulic fluidpower system shall comply with specifiedrequirements of appropriate Indian Standards. Forguidance a list of Indian Standards on hydraulic fluidpower systems and components is given in Annex C.
5.13.2 Hydraulic components used in ride system anddevice shall be suitable for higher temperatureoperation and adequate shielding shall be provided toprevent hot fluid from reaching any passenger orobserver on or near the ride or device.
5.10 Conveyor and Elevator Belts 5.13.3 Adjustments of control should not require
Conveyor and elevatorbelts used in ride systems shallaccess bet;een, over or in close proximity to mo;ing
comply with the specified requirements of appropriateparts.
Indian Standards. For guidance IS 1891 (Part 1), S.KM Emergency safety device or means shall beIS 1891 (Part 2), IS 1891 (Part 3), IS 1891 (Part 4) and provided in the proportional or servo control circuit inIS 1891 (Part 5) may be referred. order to prevent undesirable motion of ride.
5.11 Air Supported Structures
Where applicable, air supported structures shall bedesigned and manufactured with flame resistantmaterials.
5.11.1 Hold down provisions shall be made for the-structure to allow operation of the device within windconditions.
5.11.2 -Provisions shall be made to ensure that patronscannot conceal themselves from the operators view innormal ride position.
5.11.3 Enclosed structures shall have within 30 m ofthe normal point of egress adequately lightedemergency exits.
5.11,4 Power failure, of an inflation means, shall notincrease Ihe risk of injury to anyone on the device.
5.12 Electrical System
5.12.1 Unless otherwise specified, all electrical itemssuch as equipment, appliances, switchgears, controlrelays, cahJes, conductors and accessories, etc, used inconstruction, operation, testing and maintenance ofamusement ride or amusement device shall complywith the specified requirements of National ElectricalCode (Special Publication, -SP30) and relevant IndianStandards were available. A list of such IndianStandards for guidance is given in Annex B.
5.12.2 Electrical wiring shall be according to IS 732.
5.12.3 Emergency stop circuits shall be energizedsys(ems which are fail-safe in case of power failure.
5.13.5 Filters should be sized to provide a minimumof 800 h of operation under normal workingconditions.
5.13.6 Diagnostic pressure test points, when usedshould be accessibly installed in hydraulic circuits toverify system pressure and also where pressure can beadjusted from-the main system pressure.
5.13.7 Oil Sampling
Sample test points shall be made available close tohydraulic pumps and other key positions for thepurpose of checking fluid for contamination. Underfull system pressure, safe access to sample testpointsshall be ensured.
5.13.8 Position Limits
Effective provisions shall be made to prevent a linearactuator beyond the desired limits where piston andpiston rod diameter are same.
5.13.9 System Failures
Controlling mechanism shall be provided to controlthe forces acting on the passengers on account ofchange in velocity or acceleration in the event ofhydraulic system failure or malfunctioning.
5.14 Pneumatic Fluid Power Systems
5.14.1 Application and installation of pneumatic fluidpower system shall be in accordance with IS 12725.
5.14.2 Sizes for bores and port threads for pneumaticfluidpower cylinders shall be as per recommendationsof IS 8526.
4
IS 15475 (Part 3): 2004
5.14.3 Mounting dimensions of pneumatic fluidpower cylinders shall be in accordance with IS 10143,IS 12723, IS 12738, IS 13086 and IS 13087 based onbore size and type of mounting.
5.14.4 Maximum pneumatic pressure shall notexceed the component rating.
5.14.5 Pneumatic fluid power accumulators shallconform to the appropriate Indian Standards.
5.14.6 Pneumatic tubing hose and fittings shallconform to the appropriate Indian Standards.
5.14.7 Provisions shall be made to cause the systemto revert to the appropriate emergency mode in theevent of pressure drops below the minimum designpressure in critical applications.
5.14.8 The system shall include the components forlubrication and moisture extraction where deemed
~ppropriate by the designer/manufacturer.
5.15 Brakes
5.15.1 Sufficient braking capacity shall be providedto satisfy the designers recommended operationpal-ameters.
5.15.2 Provision shall be made for block system ofbraking for those rides or devices where it is necessaryto prevent independent passenger carrying units fromoccupying the same block section of the ride.
5.15.3 Where appropriate critical braking systemshall remain energized and activated even when theregular power supply fails.
5.15.4 Operator monitored braking system may beprovided which normally activated in the absence ofthe operator.
5.16 Operator Controls
Operator controls shall be located within easy reach ofthe operator when the operator is in a position toobserve the ride while the ride is in operation.
5.16.1 Operator control system shall be capable toavoid unintentional activation.
5.16.2 Operator control shall be identified in Englishor Hir Ii language with respect to their function.
5.16.3 u ‘trol access system shall be incorporated inoperator control mechanism.
5.17 Machine Guards
Suitable machine guards shall be provided to protectemployees, operators and guests from hazardsassociated with but not limited to, belts, chain andpulleys.
6 TESTING AT MANUFACTURERS END
6.1 Developmental Testing by the Manufacturer/Designer
Test procedures shall be developed by themanufacturer or designer and shall be performed on aprototype of ride or device in order to determine theappropriateness for use of parts/components andappliances. Newly designed and manufacture of rideor device shall be erected as per recommended andaccepted engineering practices. Test procedures shallalso be developed to determine the appropriateness ofentire system of new ride or device. Duringdevelopmental testing various design and safetyparameters shall be verified but shall not be limited tothe following.
6.1.1 Maximum Safe.Design hads/Forces
6.1.2 Deflections
6.1.3 Operational Limits and Restart Criteria Due toEnvironmental Conditions
6.1.4 Pe~ormance Test to Verfy Its Appropriatenessfor Intended Use
6.1.4.1 speed (rPm) of circular ride
Speed of circular ride shall be limited to ensure that nomedical or other discomfort is occurred to adult orchildren.
7 PRE-DELIVERY INSPECTION ANDACCEPTANCE TESTS
7.1 The manufacturer/designer after conductingvarious developmental and erection tests shall offerthe ride or device for final inspection. User/operatoror authorized inspecting authority will carry outinspection and also conduct various tests as specifiedby the manufacturer/designer. The inspectingauthority shall determine the appropriateness of rideor device for its intended use.
7.1.4 Any additional requirements specified by theregulatory authority shall also verified.
7.2 Authorized representative of regulatory orstatutory authority may also like to determine theappropriateness of ride or device for carryingpassengers for amusement purposes.
7.2.1 All above inspections and acceptance tests shallbe recorded and documented for further reference oninstallation and operation at users/owners site.
8 FENCING
8.1 Provisions shall be made to protect the spectator$and riders. The fences and gates shall be constructedconsidering the following minimum requirements.
5
IS 15475 (Part 3) :2004
8.1.1 Height of fences and gates shall beat least clearance of 40 mm shall be maintained in all1.1 m above the surface on which spectators and riders movements.stand.
8.1.5 The gates if opened during operation of ride or8.1.2 All openings provided shall be able to reject a devices shall have sufficient clearance in order toball of 100 mm size. avoid contact or hazard to riders/operator.
8.1.3 These shall be designed, constructed and 8.1.6 The fences and gates shall be able to avoiderected to inhibit overturning by spectators and riders. contact with ride or device and also with riders.
8.1.4 Entrance, exit and loading gates shall open away 8.1.7 Horizontal members may be used to improvefrom the ride or device or shall be equipped with construction or efficiency. However these should bepositive latching device. In case of hinged door, minimized to reduce the ease of climbing.
ANNEX A
(Clause 5.5.6)
LIST OF INDIAN STANDARD ON WELDING
IS No. Title
814:1991 Covered electrodes for manual metalarc-welding of carbon and carbonmanganese steel (fiJlh revision)
816:1969 Code of practice for use of metal arcwelding for general construction inmild steel (firstrevision)
817 Training of welders —Code of practice:
(Part 1) :1992 Manual arc welding (secondrevision)
(Part 2): 1996 Oxyfuel welding (second revision)
818:1968 Code of practice for safety and healthrequirements in electric and gaswelding and cutting operations @rstrevision)
819:1957 Code of practice for resistance spotwelding for light assemblies in mildsteel
822:1970 Code of practice for inspection ofwelds
1278:1972 Specification for filler rods and wiresfor gas welding (second revision)
1395:1982 Specification for low and mediuma!loy steel covered electrodes for
1S No.
3613:1974
4972:1968
5856:1991
5897:1985
5898:1970
6419:1996
6560:1996
Title
manual metal arc welding (thirdrevision)
Acceptance tests for wire flux com-bination for submerged arc welding@st revision)
Specification for resistance spotweldingelectrodes
Corrosion and heat resistingchromium nickel steel solid weldingrods, bare electrodes @-st revision)
Aluminium and aluminium alloywelding rods and wires and mag-nesium alloy welding rods (@wrevision)
Copper and copper alloy bare solidwelding rods and electrodes
Welding rods and bare electrodes forgas shielded arc welding of structuralsteel ~irst revision)
Molybdenum and chromium molyb-denum low alloy steel welding rodsand bare electrodes for gas shieldedarc welding @rst revision)
6
IS 15475 (Part 3): 2004
IS/SP No.
SP 30:1985
SP31 :1986
2309:1989
2551:1982
3043:1987
5216
ANNEX B
(Clause 5.12.1)
LIST OF INDIAN STANDARDS ON ELECTRICAL SYSTEM
Title
National electrical code
Chart on treatment for electricalshock
Code of practice for protection ofbuilding and allied structure againstlightning
Danger notice plates (first revision)
Code of practice for earthing (firstrevision)
Recommendations on safety proce-dures and practices in electr;cai work
(Part 1) :1982 General (first revision)
(Part 2) :1982 “Life saving techniques
7689:1989 Guide for the control of undesirablestatic electricity (@t revision)
8061:1976 Code of practice for design, installa-tion and maintenance of service linesupto and including 650V
8884:1978 Code of practice for the installationof electric bell and call system
National Electrical Code(Part 1, Chapter111)
National Electrical Code(Part 1, Chapter 120)
National Electrical Code(Part 3, Chapter 303)
National Electrical Code(Part 5, Chapter 501)
National Electrical Code(Part 5, Chapter 502)
Selection and erection ofequipment
Safety in electrical work
Electrical installation innon-industrial building —Recreational building
Public lighting installation
Temporary outdoor instal-lations
9409:1980 Classification of electrical andelectronic equipment with regard toprotection against electric shock
10028 Code of practice for selection, instal-lation and maintenance of trans-formers:
(Part 1) :1985 Selection
(Part 2): 1981
(Part 3): 1981
12065:1987
Installation
Maintenance
Permissible limits of noise level forrotating electrical machines
lS/SP No. Title
Lightning Arrestor
3070 (Part 3) : Lightning arrestors for alternating1993 current systems: Part 3 Metal oxide
surge-arrestors without gaps15086 (Part 1) : Surge arrestors: Part 1 Non-linear2001 resistor type gapped
surged arrestors for~c systems
Tools and Equipment for Live Working
13772:1993
13773:1993
13774:1993
13961:1994
Hand tools for live working up to1000 Vacand1500Vdc
Sleeves of insulating material forliveworking
Specification for gloves and mitts ofinsulating materials for live working
Insulating poles (insulating sticks)and universal tool attachments(fittings) for live working
Electrical Welding Equipment
1851:1-997
2635:1997
2641:1989
4804 (Part 1):1968
7931
Single operator type arc weldingtransformers (third revision)
dc electric welding generators (thirdrevision)
Electrical welding accessories (firstrevision)
Resistance welding equipment:
Part 1 Single phase transformers
Automatic and semi-automaticwelding equipment with selfadjusting arcs (MIG/MAG proces-ses):
(Part 1): 1975 dc welding generator power source
(Part 2): 1975 Transformer rectifier power source
(Part 3): 1975 Welding gun and ancillary equip-ment
8804:1993 Plugs, sockets and terminal amange-ments and welding cable connectorsfor manual welding equipment (@trevision)
9604:1994 Tungsten-inert gas (TIG) weldingequipment @rst revision)
9857:1990 Welding cables — Specification(Jlrst revision)
IS 15475 (Part 3) :2004
[S No.
8383:2000
9269:1990
10069:1992
10187:2002
10481:2002
11003
ANNEX C
(Clause 5.13.1)
LIST OF INDIAN STANDARDS ON FLUID POWER SYSTEMS ANDHYDRAULIC COMPONENTS
Title
Hydraulic fluid power — Filter ele-ments — Verification of fabricationintegrity and determination of thefirst bubble point @-st revision)
Evaluation of pressure drop versusflow characteristics of hydraulicfilter elements and filters — Methodof test (first revision)
Hydraulic fluid power — Positivedisplacement pumps, motors and in-tegral transmission — Determinationof steady state performance (jirstrevision)
Recommendations for mounting sur-faces for four-port directional controlvalves —-Mounting surfaces (firstrevision)
Hydraulic fluid power — Generalrules relating to system (jirstrevision)
Recommendations for mountingdimensions for hydraulic fluid power— Single rod cylinders 16 Mpa (160bar) series:
(Part 1) :1984 Medium series with bores from25 mm to 500 mm
(Part 2) :2000 Compact series
11559:1995 Hydraulic fluid— Rod endMountingrevision)
11560:1995 Hydraulic fluid
power — Cylindersspherical eyes —dimensions (first
power — Cylinders— Rod end plain eyes — Mountingdimensions first revision)
12593:2000 Hydraulic fluid power — Single rodcylinder 16 MPa (160 bar) compactseries — Tolerances (jirst revision)
IS No.
13053:1991
13085:1991
13103:1991
13251:1992
13569:1993
13570:2000
14148:1994
14150:1994
14601:1998
Title
Hydraulic fluid power systems —Commissioning and maintenance ofcomplete hydraulic system —Recommendations
Hydraulic fluid power — Single rodcylinders, 160 bar (16 MPa) mediumseries — Port dimensions
Hydraulic fluid ~wer — Single rodcylinders, 16 MPa (160 bar) — Com-pact series — Port dimensions
Hydraulic fluid power — Single rodcylinders, 160 bar (16 MPa) mediumand 250 bar (25 MPa) series—Mounting dimensions foraccessories
Hydraulic fluid power — Fluidsample containers — Qualifying andcontrolling cleaning methods
Hydraulic fluid power — Particulatecontamination analysis — Extractionof fluid samples from lines of anoperating system (first revision)
Hydraulic fluid power — Pressurecontrol valves (excluding pressurerelief valves), sequence valves, un-loading valves, throttle valves andcheck valves — Mounting surfaces
Hydraulic fluid power — Pressurerelief valves — Mounting surfaces
Method for presenting performancedata for hydraulic pumps
14604:1998 Proforma for purchase specificationfor positive-displacement pumps andmotors used in oil hydraulic systems
8
Bureau of Indian ”Standards
BIS is a statutory institution established under the Bureau of Indian Standards Act, 1986 to promoteharmonious development of the activities of standardization, marking and quality certification of goodsand attending to connected matters in the country.
Copyright
BIS has the copyright of all its publications. No part of these publications may be reproduced in any formwithout the prior permission in writing of BIS. This does not preclude the free’ use, in the course ofimplementing the standard, of necessary details, such as symbols and sizes, type or grade designations.Enquiries relating to copyright be addressed to the Director (Publications), BIS.
Review of Indidn Standards
Amendments are issued to standards as the need arises on the basis of comments. Standards are also reviewed
periodically; a standard along with amendments is reaffirmed when such review indicates that no changes areneeded; if the review indicates that changes are needed, it is taken up for revision. ,Users of Indian Standardsshould ascertain that they are in possession of the latest amendments or edition by referring to the latest issue of‘BIS Catalogue’ and ‘Stmdards: Monthly Additions’.
This Indian Standard has been developed from Doc : No. MED 06 (0669).
Amendments Issued Since Publication
Amend No. Date of Issue Text Affected
BUREAU OF INDIAN STANDARDS
Headquarters :
,Manak Bhavan, 9 Bahadur Shah Zafar Marg, New Delhi 110002 Telegrams : ManaksansthaTelephones :23230131, 23233375,23239402 (Common to all offices)
Regional Offices : Telephone
Central
Eastern
Northern
Southern
Western
Branches :
: Manak J3havan, 9 Bahadur Shah Zafar Marg
{
23237617NEW DELHI 110002 23233841
: 1/14 C.I.T. Scheme VII M, V. I. P. Road, Kankurgachi
{
23378499,23378561KOLKATA 700054 23378626,23379120
: SCO 335-336, Sector 34-A, CHANDIGARH 160022
{
603843609285
: C.I.T. Campus, IV Cross Road, CHENNAI 600113
{
22541216,2254144222542519,22542315
: Manakalaya, E9 MlDC, Marol, Andheri (East)
{
28329295,28327858MUMBAI 400093 28327891,28327892
AHMEDABAD. BANGALORE. BHOPAL. BHUBANESHWAR, COIMBATORE. FARIDABAD.
GHAZIABAD. GUWAHATI. HYDERABAD. JAIPUR. KANPUR. LUCKNOW. NAGPUR.NALAGARH. PATNA. PUNE. RAJKOT. THIRUVANANTHAPURAM. VISAKHAPATNAM.
Pmted at Prabhat Offset Press, New Delhi-2