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GB/T 20306-2017 English PDF

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GB/T 20306-2017: Amusement devices terminology
Status: Valid

GB/T 20306: Historical versions

Standard IDUSDBUY PDFLead-DaysStandard Title (Description)Status
GB/T 20306-20171119 Add to Cart 6 days Amusement devices terminology Valid
GB/T 20306-2006RFQ ASK 6 days Amusement devices terminology Obsolete

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Basic data

Standard ID: GB/T 20306-2017 (GB/T20306-2017)
Description (Translated English): Amusement devices terminology
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: A20
Classification of International Standard: 01.020.01
Word Count Estimation: 56,523
Date of Issue: 2017-09-29
Date of Implementation: 2017-12-01
Older Standard (superseded by this standard): GB/T 20306-2006
Regulation (derived from): National Standard Notice 2017 No. 23
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: This standard specifies the basic terms of amusement rides and their definitions. This standard applies to the production of amusement facilities, use, inspection, testing and other fields.

GB/T 20306-2017: Amusement devices terminology

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Amusement devices terminology ICS 01.020.01 A20 National Standards of People's Republic of China Replace GB/T 20306-2006 Rides terminology Released on.2017-09-29 2017-12-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China China National Standardization Administration issued

Content

Foreword III 1 Scope 1 2 Basic concept 1 3 main parameters 4 4 category parts 7 5 transmission 22 6 safety device 24 7 Electrical Control 25 8 Inspection and testing 26 9 Management 30 Index 34

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard replaces GB/T 20306-2006 "Amusement Facilities Terminology". Compared with GB/T 20306-2006, the main changes are as follows. a) The scope of Chapter 1 adds testing. b) The original Chapter 2 rides and the basic concepts of Chapter 3 are merged into the basic concepts of Chapter 2. c) Chapter 2 Basic Concepts --- Changed the amusement machine to a ride, such as. viewing car amusement machine to view car rides, a total of 22. --- Increased the division of rides. --- Added 2.2.2 small rides. --- Added 2.3.12 slide-type rides. --- Added 2.4.1 land amusement facilities. --- Revised 2.4.2 water amusement facilities (see 2.3 of.2006 edition). --- Added 2.4.3 aerial rides. --- Added 2.4.4 modular rides. --- Revised 2.5.1 children's play facilities (see 2.2.4 in.2006). --- Added 2.5.2 adult rides. --- Added 2.5.3 family rides. --- Added 2.6.1 passive experience rides. --- Added 2.6.2 active interactive rides. --- Added 2.7.1 real experience rides. --- Added 2.7.2 virtual experiential rides. --- Added 2.7.3 dynamic cinema rides. --- Added 2.8.1 fixed rides. --- Modified 2.8.2 mobile rides (see 3.4 in.2006). --- Modified the important weld of 2.10 (see 3.7 of.2006 edition). --- Added 2.11 important axes and pins. --- Added 2.12 general components. --- Modified 2.13 embedded parts (see 3.9 of.2006 edition). --- Removed 3.1 amusement machine. --- Removed 3.22 force points. d) Chapter 3 main parameters --- Increased the number of 3.1 passengers. --- Increased the height of 3.2. --- Increased the height of the 3.3 track. --- Increased the running height of 3.4. --- Added 3.5 single side swing angle. --- Increased the diameter of 3.6 turns. --- Increased 3.7 slide length. --- Added 3.8 zip line length. --- Increased the inclination of 3.9. --- Increased the speed of 3.10. --- Modified the 3.24 lane (track, slide, road) slope. --- Increased the 3.26 trigger threshold. --- Increased the display deviation of 3.27. --- Increased 3.28 action deviation. --- Increased the maximum elongation of 3.29 elastic rope. --- Increased the breaking force of the 3.30 elastic rope. --- Increased the attenuation amplitude of the 3.31 elastic rope. --- Modified 3.32 safety distance (see 3.10 in.2006). --- Added 3.33 safe space. --- Increased the design life of 3.34. e) Chapter 4 Category Parts --- Changed the original Chapter 5 "Parts" to Chapter 4 "Category Parts". --- Added 4.1.7 civil construction design funding. --- Added 4.1.8 base load. --- Added 4.1.9 pile foundation. --- Added 4.1.10 pile caps. --- Added 4.1.11 secondary grouting. --- Modified 4.7.3 horizontal axis (see 5.7.3 in.2006). --- Modified 4.7.16 overhead track (see 5.7.16 in.2006). --- Increased the average slope of 4.7.31. --- Added 4.7.32 slide support facilities. --- Added 4.7.33 pulley lifting system. --- Increased the transition of 4.7.34. --- Added 4.7.35 jump segment. --- Increased the 4.7.36 upgrade. --- Removed 5.17 monorail (merged to 4.7.16). --- Removed 5.18 dual tracks (merged to 4.7.16). --- Increased the height of 4.9.8 bungee jumping. --- Added 4.9.9 ejection bungee. --- Increased the small bungee of 4.9.10. --- Modified the 4.10.1 water slide (see 5.8.18 of the.2006 edition). --- Added 4.10.2 water slide. --- Added 4.10.3 start. --- Added 4.10.4 taxi zone. --- Increased the end of 4.10.5. --- Added 4.10.6 water supply system. --- Added 4.10.7 departure platform. --- Increased 4.10.8 interception zone. --- Increased the 4.10.9 splash zone. --- Added 4.10.10 gliding tool. --- Added 4.10.11 water slide skin. --- Added 4.10.12 water slide pad. --- Added 4.10.13 leather hoist. --- Modified the 4.10.14 linear slide (see 5.8.21 of the.2006 edition). --- Modified the 4.10.15 curve slide (see 5.8.22 of the.2006 edition). --- Added 4.10.16 closed water slide. --- Added 4.10.17 open water slide. --- Added 4.10.18 body slides. --- Added 4.10.19 skin slides. --- Added 4.10.20 pad slide. --- Modified 4.10.21 children's water slides (see 5.8.23 of the.2006 edition). --- Added 4.10.22 medium speed slide. --- Added 4.10.23 high speed slide. --- Added 4.10.24 special type of water slide. --- Increased the average tilt rate of the 4.10.25 slide. --- Added 4.10.26 passenger departure device. --- Increased water flow of 4.10.27. --- Added 4.10.28 clearance area. --- Increased the height of 4.10.30. --- Added 4.10.31 wave making equipment. --- Added 4.10.32 pool wave. --- Increased the 4.10.33 wave. --- Added 4.10.34 interactive play facilities. --- Added 4.10.35 cruise ship. --- Added 4.10.36 catamaran. --- Increased the total length of the 4.13.37 cruise ship. --- Increased the ship width of 4.10.38. --- Increased the speed of 4.10.39. --- Added 4.10.40 outboard engine. --- Added 4.10.70 drifting raft (ship). --- Added 4.11.1 dynamic seat. --- Added 4.11.2 special effects. --- Added 4.11.3 model. --- Added 4.11.4 performance equipment. --- Added 4.11.5 show control system. --- Added 4.11.6 dynamic seat control system. --- Added 4.11.7 motion control system. --- Added 4.11.8 walking control system. --- Added 4.11.9 package/show set. --- Increased 4.11.10 freedom of movement. --- Added 4.11.11 movie park project. f) Chapter 5 Transmission --- Added 5.15 screw drive. --- Added 5.16 crankshaft crank drive. --- Added 5.17 cam drive. g) Chapter 6 Safety Devices --- Modified 6.1 safety device to safety protection device (see 7.1 of.2006 edition). --- Adjusted to classify the 6.2 safety handle (see.2006 version 7.2). --- Adjusted to classify 6.3 seat belts (see 7.3 of.2006 edition). --- Adjustments are classified as 6.4 safety ropes (see 5.10.7 for the.2006 edition). --- Adjustments are classified into 6.15 security fences (see 7.15 in.2006). --- Added 6.16 electrical safety protection device. --- Added 6.17 mechanical safety protection device. --- Added 6.18 emergency braking device. --- Added 6.19 locking device. --- Adjusted to classify the 6.20 rope protection device (see 5.4.3 in.2006). h) Chapter 7 Electrical Control --- Added 7.5 emergency button. i) Chapter 8 Inspection and Testing (New) --- Original 3.13, 3.14, 3.15, 3.16, 3.17, classified to Chapter 8 inspection and testing (8.1 no-load test, 8.2 full load test, 8.3 Offset test, 8.4 overload test, 8.5 factory inspection). --- Modified the 8.6 type test (see 3.18 in.2006). j) Chapter 9 Usage Management (New) --- The original 3.12 test run was modified to trial run and classified to 9.13. --- The original 7.8 guide passengers were classified to 9.21. This standard is proposed and managed by the National Technical Committee for Cableway and Amusement Facilities Standardization (SAC/TC250). This standard was drafted. China Special Equipment Inspection and Research Institute, Jining Luke Testing Equipment Co., Ltd., Wanda Cultural Tourism Planning Research Institute Co., Ltd., Jiangsu Special Equipment Safety Supervision and Inspection Institute, Anhui Special Equipment Inspection Institute, Hunan Province Special Equipment Inspection and Testing Research Institute, Guangxi Zhuang Autonomous Region Special Equipment Inspection and Research Institute. The main drafters of this standard. Zhang Aiwen, Pang Shuo, Xing Youxin, Li Xiangdong, Ma Jun, Fu Hengsheng, Zhang Yang, Zhang Xindong, Xiong Jiwu, Xiao Huaming, Qi Chengwei, Liu Chenyu, Liu Jian, Liu Ran, Zhang Jingmin. The previous versions of the standards replaced by this standard are. ---GB/T 20306-2006. Rides terminology

1 Scope

This standard defines the basic terms and definitions of rides. This standard applies to the production, use, inspection, testing and other fields of amusement facilities.

2 basic concepts

2.1 Amusement facility Equipment or facilities for people to play (entertainment). 2.2 by parameters 2.2.1 Large rides large-scaleamusementride A facility for carrying out passenger rides for business purposes, the scope of which is defined as a design maximum line speed greater than or equal to 2 m/s, or The manned large-scale rides with a height of 2m above or equal to the ground. 2.2.2 Small ride smal-scaleamusementride Used in public places, carrying children's play facilities, and not belonging to the large-scale amusement facilities specified in the "Special Equipment Catalogue". Slip Rides, swings, rocking horses, seesaws, climbing nets, swivel chairs, indoor softs and other rides. 2.3 by power 2.3.1 Powered rides poweramusementride It is equipped with power, such as manpower, electric power, internal combustion engine or steam, to carry passengers to play. 2.3.1.1 Horse-drawn rides merry-go-roundtypeofrides The rider rotates around the vertical axis and is accompanied by a certain stroke of ups and downs and similar rides in motion. 2.3.1.2 Gyro rides space-gyrotypeofrides The rider rotates around the axis of the variable inclination and moves in a similar form of play. 2.3.1.3 Flying tower type rides fly-towertypeofrides The passenger part is suspended by a flexible member, and is slewing around the vertical axis while moving up and moving in a similar manner. 2.3.1.4 Self-controlled aircraft type rides astrofightertypeofrides The passenger part is supported by a rigid support arm, which rotates around the central vertical axis and independently controls the lifting and movement of similar rides. 2.3.1.5 View car rides wonderwheeltypeofrides The rider partially rotates around the horizontal axis or swings and moves in a similar form of play. 2.3.1.6 Scooter class rides coasterofofrides Running along an undulating orbit, there are rides with inertial gliding characteristics and similar forms of motion. 2.3.1.7 Overhead tour bus rides overheadrailwaytypeofrides Along the overhead track, it is driven by manpower, electric power and internal combustion engines and similar in the form of sports. 2.3.1.8 Small train class rides fairytraintypeofrides Along the ground track, it is powered by electric power, internal combustion engines and other power-driven and sports-like rides. 2.3.1.9 Racing class rides racingcartypeofrides A ride that runs along the designated line on the ground and moves in a similar form. 2.3.1.10 Battery car rides battery-poweredtypeofrides Running in a defined yard or lane, with battery-powered, motor-driven and sport-like rides. 2.3.1.11 Bumper car rides bumpercartypeofrides It is operated in a fixed yard, driven by electric power, manpower and internal combustion engine, and the car body can collide with each other. 2.3.1.12 Slide type rides slidetypeofrides Made of profile or trough material, laid on a slope or erected on the ground, and operated by passengers to slide along the fixed line facility. 2.3.1.13 Photoelectric target type rides shootinggalerytypeofrides There are signal, sound, lighting, digital display, and mechanical facilities, targets, shooting and other forms of similar rides. 2.3.2 Unpowered rides nopoweramusementride A ride that is itself unpowered and operated by passengers or entertained. 2.3.2.1 Bungee bungee Relying on elastic ropes or devices that convert between potential energy and kinetic energy, passengers can play bouncing and tumbling rides in the air. 2.3.2.2 Strop Passengers rely on tools such as pulleys to rely on gravity or other traction to slide along the rope line. 2.3.2.3 Inflatable rides inflatable Made of flexible fabric as the main material, the air supply is continuously supplied by one or more air blowers to maintain its shape. The main activities of the player on their surface are bouncing, sliding, climbing or interactive play. 2.3.2.4 Flying trapeze flyingtrapeze A rider that lifts a passenger's wire rope to a certain height and swings around the suspension point by its own potential energy. 2.3.2.5 Tethered sightseeing balloon mooringsightseeingbaloon Made of composite material, double-layered bladder structure, filled with helium inside, the ball has a fixed mooring point on the ground, and the lower part of the sphere is suspended by the passenger department. Recreational rides. 2.4 by operating area 2.4.1 Land amusement facility landamusementride Built on land, mainly through mechanical transmission and other means to achieve amusement rides. 2.4.2 Water ride facility wateramusementride Water facilities built for recreational purposes with the aid of waters, currents or other carriers. 2.4.3 Aerial rides skyamusementride Pleasure facilities mainly based on aerial sightseeing. 2.4.4 Combined rides combinedamusementride Combine the above two or more types of rides. 2.5 by population 2.5.1 Children's play facilities kidsamusementride A ride designed for children's play. 2.5.2 Adult rides adultsamusementride Passengers are designed for adult rides. 2.5.3 Family ride familyamusementride A ride for children and accompanied by an adult. 2.6 by way of participation 2.6.1 Passive experiencing rides passiveexperienceride During the play, there are no interactive rides between passengers and rides, such as pirate ships, roller coasters, etc. 2.6.2 Active interactive rides activeinteractionride During the play, there are interactive rides between passengers and rides, such as bumper cars, photoelectric targets, and so on. 2.7 by experience 2.7.1 Real experience rides actualexperienceride A ride that achieves the purpose of a play experience through the mechanical movement of the ride. 2.7.2 Virtual experiencing ride virtualexperienceride A ride that achieves amusement through visual, taste, auditory and other sensory stimuli. 2.7.3 Dynamic cinema ride dynamictheater A dynamic cinema ride that utilizes the dynamic seats of the audience and echoes the sound, light, electricity and other environmental effects of the film content. 2.8 by location 2.8.1 Fixed rides fixedamusementride A ride that is installed in a fixed location. 2.8.2 Mobile rides portableamusementdevices There is no special civil engineering foundation, which is convenient for disassembly, movement and transportation. 2.9 Important component criticalcomponent Parts that are subjected to shock, vibration, alternating or other loads may cause serious personal and equipment safety accidents if they fail. 2.10 Important weld criticalwelds Welds that directly relate to personal safety. Note. such as the support support weld, lifting cylinder (cylinder) upper and lower support welds, vehicle suspension point support welds, track butt welds, vehicle connectors Welds, frame welds, etc. 2.11 Important shaft and pin criticalshafts Shafts and pins that directly relate to the safety of the person and equipment. Note. such as the main axis of the ride, the central axis, the support shaft of the ride, the suspension shaft of the ride, the important drive shaft, the wheel axle, the upper and lower pins of the lift cylinder (cylinder), multiplied The upper and lower pin shafts of the lifting arm, the shoulder pressure bar shaft, the vehicle connector shaft, the anti-reverse line, the pin of the anti-tip device, and the like. 2.12 General component commonmember Moving parts (except important drive shafts), not directly related to personal safety shafts, support arms, columns, frames, trusses, rails and other components. 2.13 Embedded parts embeddedparts A non-removable metal member that is previously embedded in a FRP member, structural casting, or other material for joining or reinforcing the strength of the component.

3 main parameters

3.1 Number of people numberofpassengers Under the rated conditions of the equipment, the maximum number of passengers at the same time during the operation, and the passengers on the bicycle (column) refer to a train connected The number of passengers accommodated at the same time. 3.2 Height height Maximum vertical distance when the device is static (excluding lightning rods). 3.3 Track height orbitheight The vertical distance between the highest point of the track walking surface and the lowest point of the mounting base of the track bracket. 3.4 Running height runningheight The maximum vertical distance of the passenger restraint bearing surface (such as the seating surface) from the lowest running reference plane. For unpowered rides, passengers The maximum vertical distance between the support surface (such as the slide surface, the bottom surface of the basket, and the passenger standing surface of the inflatable ride) from the mounting base, where the height is high. The running height of the empty jumping bungee refers to the water level or ground where the jump occurs to the lowest drop. 3.5 Unilateral swing angle unilateralswingingangle The angle of the swing arm that swings about the horizontal axis is offset from the vertical line (up to 180°). 3.6 Swing diameter swingdiameter A device that swings or rotates about a horizontal axis refers to the diameter of rotation of its passenger restraint bearing surface (such as a seating surface) about a horizontal axis. Gyro Class equipment refers to the rotation of the outermost edge of the occupant's support surface (such as the seat surface). Rotating around the vertical axis Equipment refers to the diameter of the circle obtained from the outermost side of the seat or passenger restraint about the vertical axis when it is at rest. 3.7 Slide length slidelength The sum of the slope length of the slide down section and the lift section. 3.8 Strop length stroplength The theoretical oblique distance between the anchorage points of the load bearing cables. 3.9 Dip dipangle The main motion (ie, the turntable or the cockpit rotation) is a device that makes a rotational motion around the variable tilt axis. The main motion axis of rotation and the vertical direction are the largest. Angle. 3.10 Speed speed The maximum line speed reached by the passenger part during the operation of the amusement equipment. 3.11 Circumferential velocity The speed at which the passenger portion of the ride (outside of the cockpit) is tangentially swung around the central axis under rated load. 3.12 Lifting speed up-and-downspeed The passenger part of the ride is vertically up and down at a rated load. 3.13 Increase speed ramp-upspeed The maximum (constant speed) running speed of the rides that are pulled up by external forces along the slope with the slope. 3.14 Acceleration coefficient G-forceratio The ratio of instantaneous acceleration to gravitational acceleration during the operation of the ride. 3.15 Dynamic load factor The ratio of the dynamic load (true operating conditions) and the static load actually received by the ride during the operation. 3.16 Boom angle arm-swingingangle When the boom end of the ride rises to the highest point, the angle between the axis of the boom and the horizontal plane. 3.17 ......
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