CN104709116A - Busbar connector device of subway tunnel - Google Patents

Busbar connector device of subway tunnel Download PDF

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Publication number
CN104709116A
CN104709116A CN201510108602.3A CN201510108602A CN104709116A CN 104709116 A CN104709116 A CN 104709116A CN 201510108602 A CN201510108602 A CN 201510108602A CN 104709116 A CN104709116 A CN 104709116A
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China
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fixed
section
linkage section
bus duct
steel cable
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Granted
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CN201510108602.3A
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CN104709116B (en
Inventor
高华喜
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Zhejiang Ocean University ZJOU
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Zhejiang Ocean University ZJOU
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Priority to CN201510108602.3A priority Critical patent/CN104709116B/en
Priority claimed from CN201310359635.6A external-priority patent/CN103419678B/en
Publication of CN104709116A publication Critical patent/CN104709116A/en
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Publication of CN104709116B publication Critical patent/CN104709116B/en
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Abstract

The invention provides a busbar connector device of a subway tunnel. The device solves the technical problem that a connecting section of an existing busbar connector device of the subway tunnel can not fall down smoothly. The device comprises a left busbar section, a right busbar section and a connecting section detachably arranged between the left busbar section and the right busbar section and used for connection, a flood gate is hinged to the inner wall of a tunnel body, and the connecting section is located on the closing track of the flood gate. The device has the advantages of being capable of saving time, higher in efficiency, high in stability, safer in use and the like.

Description

The bus-bar joint device of subway tunnel
Technical field
The present invention relates to a kind of subway tunnel, particularly a kind of bus-bar joint device of subway tunnel.
Background technology
Along with the fast development that urban rail transit in China is built, the form of rigid suspension catenary is widely adopted.Rigid suspension catenary embeds by contact wire the system that bus duct from beginning to end forms, and it is the visual plant of electrified railway locomotive and rail traffic vehicles power supply, and its quality good or not directly has influence on the operation of locomotive.
In urban subway tunnel construction, all devise Flood gate, run into war and seriously leak extraordinary circumstances time, need Flood gate and the Flood gate in quick closedown tunnel, to guarantee tunnel and personal security.But, under the stop of bus duct, Flood gate cannot thoroughly be closed, need to send special personnel to enter in tunnel, disassembled from whole contact net system by one of Flood gate place section of bus duct, when the situation is critical or water is larger, personnel just cannot enter into tunnel, even if can tunnel be entered, waste time and energy because existing design problem also makes dismounting compare.
In order to address this problem, (application number is: 201110361724.5) a kind of dis-connectable busbar joint device of rigid catenary to find to disclose a kind of dis-connectable busbar joint device of rigid catenary by Chinese patent through retrieval, comprise bus duct A to hold, bus duct B holds and the linkage section be between the two for being connected, it is characterized in that, described bus duct A holds and is connected with the two ends of linkage section respectively by a sliding-type bus-bar joint with bus duct B end, described sliding-type bus-bar joint comprises feeding section support, quiet joint and dynamic joint, described quiet joint is fixed on feeding section support, described dynamic joint is arranged in feeding section support, and can along feeding section bracket slide, above-mentioned dynamic joint is set on the two ends of linkage section respectively, and is formed with linkage section and be slidably connected, and above-mentioned quiet joint is held with bus duct A respectively and bus duct B holds and is connected mutually, dynamic joint is provided with joint can be made to move towards quiet joint and depart from the linkage of linkage section, described linkage section and bus duct A hold or bus duct B hold between be also provided with one and be electrically connected tape splicing, the described tape splicing one end that is electrically connected is fixed on linkage section, and the other end is fixed on bus duct A and holds or on bus duct B end, described linkage comprises at least one pulley and steel rope, and described pulley is fixed on above-mentioned quiet joint, and steel rope one end is fixed on dynamic joint, and the described steel rope other end is connected with providing the engine installation of pulling force through pulley.
Record in 7th page the 35th section in specification sheets disclosed in this patent, linkage section is in the Flood gate place in tunnel, and when linkage section is connected between bus duct A end with bus duct B end, Flood gate or closed guard gate cannot close.When needs close Flood gate or closed guard gate, Flood gate can give steel rope application force, steel rope is by pulley three, pulley five, pulley two, pulley four and pulley one, overcome the elastic force that spring produces, finally pull dynamic joint to move towards dynamic joint, be set in dynamic joint on linkage section two ends after mobile one section of process, dynamic joint and linkage section are separated from, now, linkage section is just held by bus duct A and has been dropped down between bus duct B end; Then, Flood gate or closed guard gate continue to close, and continue to steel rope application force, steel rope is pulled off under the effect of this application force, and such linkage section is suspended on bus duct A end under the effect of the tape splicing that is electrically connected, and Flood gate or closed guard gate can be closed completely.
But in actual use, the closedown strength of Flood gate possibly cannot break steel rope, and meanwhile, owing to being provided with too many pulley, steel rope easily blocks, and leading actuating armature cannot move, and causes linkage section to drop smoothly like this.
Summary of the invention
The object of the invention is to there are the problems referred to above for existing technology, propose a kind of bus-bar joint device when closing the subway tunnel of Flood gate in tunnel during water inlet in time, these piecing devices also have the feature that linkage section can be made to drop smoothly.
Object of the present invention realizes by following technical proposal: a kind of bus-bar joint device of subway tunnel, and described subway tunnel comprises tunnel body, is provided with the Flood gate closing tunnel body in described tunnel body, it is characterized in that this bus-bar joint device comprises left section of bus duct, right section of bus duct and the linkage section be between the two for being connected, described Flood gate is hinged in tunnel inner body wall, described linkage section is in the track place of closing the door of Flood gate, left section of described bus duct is fixed with locating plate, described locating plate offers perforating, described locating plate lower hinge has stay bearing plate, the described stay bearing plate other end is provided with the location structure that this end of stay bearing plate can be made to be resisted against the right pars infrasegmentalis place of bus duct, described linkage section is arranged on the supporting plate, linkage section one end contacts with left section of bus duct through described perforating, the linkage section other end contacts with right section of bus duct, the rectangular in cross-section shape of described stay bearing plate, the cross section also rectangular shape of described linkage section, the length of described linkage section is less than the length of stay bearing plate, the width of described linkage section is less than the width of stay bearing plate, described stay bearing plate is fixed with the locating piece one and locating piece two that are parallel to each other, distance between described locating piece one and locating piece two is greater than the width of described linkage section, and described linkage section is between described locating piece one and locating piece two, spring one is provided with between described locating piece one and linkage section, one end of described spring one is fixed on locating piece one, the other end of described spring one is fixed with positioning plate one, described positioning plate one can be resisted against described linkage section sidepiece place, spring two is provided with between described locating piece two and linkage section, one end of described spring two is fixed on locating piece two, the other end of described spring two is fixed with positioning plate two, described positioning plate two can be resisted against described linkage section sidepiece place, described location structure comprises knock hole, positioning rope and the coupling link offered on the supporting plate, described knock hole is opened in stay bearing plate one end near right section of bus duct, and described knock hole is in the sidepiece place of linkage section, described positioning rope one end is fixed in knock hole, described positioning rope is in tensioned state, the positioning rope other end is fixed on coupling link, and described coupling link is fixed on the roof of tunnel body, and described coupling link is in directly over knock hole, the sidewall of described tunnel body is also fixed with PLC, described PLC has the output port that can be connected with external computer, the roof of described tunnel body is also provided with the chopping up apparatus cutting off positioning rope, described chopping up apparatus comprises cuts off motor, and the described motor that cuts off is connected with described PLC by circuit, described chopping up apparatus also comprises saw blade, guide rail, slide block and cylinder, described saw blade is fixed on and cuts off on the output shaft of motor, described guide rail is fixed on the roof of tunnel body, described slide block acts on guide rail, the described motor that cuts off is fixed on slide block, and described cylinder is fixed on the roof of tunnel body, and piston rod and the described slide block of cylinder fix, and cylinder is connected with described PLC, described saw blade can contact with described location rope, right steel cable is provided with between described linkage section and right section of bus duct, described right steel cable one end is fixed on the right-hand member of linkage section, the right steel cable other end is fixed on right section of bus duct through described coupling link, described right steel cable is in tensioned state, and described right steel cable can contact with described location rope, left steel cable is provided with between described linkage section and left section of bus duct, described left steel cable one end is fixed on the left end of linkage section, the described left steel cable other end is fixed on left section of bus duct, attachment point between described left steel cable and left section of bus duct and the distance between the two of the attachment point between left steel cable and the left end of linkage section are a, and the length of described left steel cable is at least three times of distance a.
Left section of bus duct, right section of bus duct and linkage section are all used to provide electric energy to the traveling of train, and the output port of PLC is connected with the computing machine in the external world by circuit.Linkage section is in the Flood gate place in tunnel, and when linkage section is connected between left section of bus duct and right section of bus duct, Flood gate cannot be closed.When Flood gate closed by needs, by computing machine to PLC signal, PLC controls to cut off motor and starts working, and the output shaft cutting off motor starts to rotate, and saw blade is along with rotation; Give PLC signal again by computing machine, PLC control cylinder is started working, and cylinder band movable slider is along slide, and slide block drives cutting motor to move again; When saw blade touches left steel cable and positioning rope, left steel cable and positioning rope can all cut off by saw blade; After positioning rope is cut off, because stay bearing plate is hinged on locating plate, under gravity, stay bearing plate can smoothly to lower swing, linkage section is also to lower swing, and the direction of stay bearing plate is identical with gravity direction, now, linkage section and stay bearing plate be not in the track of closing the door of Flood gate, and intrinsic for tunnel space-closed can be lived by Flood gate under the effect of cylinder or motor.Linkage section can not depart from stay bearing plate under the effect of positioning plate one, spring one, positioning plate two and spring two, in order to avoid linkage section is lost; In addition, even if spring one and spring two lost efficacy, under the effect of left steel cable, linkage section is suspended on left section of bus duct, can not lose, and makes linkage section continue next time to use.
Stay bearing plate, locating plate, left steel cable and right steel cable all adopt stainless steel material to make, linkage section one end contacts with left section of bus duct, the linkage section other end contacts with right section of bus duct, makes the electricity of left section of bus duct pass to right section of bus duct by linkage section like this; The electricity that bus duct is left section passes to stay bearing plate by locating plate, linkage section is put on the supporting plate, and stay bearing plate passs linkage section fax, and the end of stay bearing plate is resisted against right section of bus duct bottom place, therefore, right section of left section of bus duct, linkage section and bus duct is all energising; In addition, under the effect of left steel cable and right steel cable, left section of bus duct, right section of bus duct and linkage section three can be energized.In sum, by the mode of retrocession, left section of bus duct, right section of bus duct and linkage section three can be energized, guarantee train by time there is enough electric energy.
Attachment point between left steel cable and left section of bus duct and the distance between the two of the attachment point between left steel cable and the left end of linkage section are a, and the length of described left steel cable is at least three times of distance a.Such benefit is the swing that left steel cable can not hinder linkage section, and left steel cable can make linkage section be energized, and can prevent again linkage section from dropping on the ground, prevent linkage section from damaging, killing three birds with one stone.
The roof of described tunnel body is fixed with positioning lock, and above-mentioned coupling link is fixed on positioning lock.
Described coupling link comprises inner ring body and outer ring body, and described inner ring body adopts high manganese steel material to make, and described outer ring body adopts elastomeric material to make, and described outer ring body is fixed on inner ring body by the mode of sulfuration.
Described locating plate lower vertical is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate is fixed with jointed shaft, described mounting hole one and mounting hole two are fixed with location bearing one and location bearing two respectively, described jointed shaft is arranged between mounting blocks one and mounting blocks two, and the two ends of described jointed shaft are separately fixed at the inner ring of location bearing one and the inner ring place of location bearing two.
Alternatively situation, described locating plate lower vertical is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate is fixed with jointed shaft, the two ends of described jointed shaft are located in mounting hole one and mounting hole two respectively, described jointed shaft two ends have and are fixed with spacing disk, and the external diameter of described spacing disk is greater than the aperture of mounting hole one and mounting hole two.
Be fixed with protecting jacket respectively outside described mounting blocks one and mounting blocks two, in described protecting jacket, shape has lubricating oil, and above-mentioned location bearing one and location bearing two are all in lubricating oil.
Compared with prior art, the present invention has the following advantages:
1, linkage section and stay bearing plate just can be made to depart from the track of closing the door of Flood gate by operation computing machine, Flood gate can be closed timely, improve safety.
2, cut off left steel cable by saw blade to compare with positioning rope and break steel rope by Flood gate in background technology, more save time, efficiency is higher, meanwhile, also there will not be and cannot break steel rope and cause the situation that Flood gate cannot be closed, improve safety performance greatly.
3, under utilizing the effect of gravity, make linkage section and stay bearing plate can to lower swing, thus depart from the track of closing the door of Flood gate, compare in background technology and eliminate many pulley structures, there will not be the jammed situation of steel rope, improve stability, linkage section and stay bearing plate are compared directly to lower swing and are slowly broken steel rope in background technology, save the much time, improve the efficiency of closing Flood gate.
4, make extraneous dust can not affect the normal use of bearing by arranging protecting jacket, meanwhile, use lubricating oil to make the result of use of bearing better, longer service life is of a specified duration, makes stay bearing plate can smoothly to lower swing.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention.
Fig. 2 is the birds-eye view of stay bearing plate.
Fig. 3 is the structural representation of chopping up apparatus.
In figure, 1, left section of bus duct; 2, right section of bus duct; 3, linkage section; 4, locating plate; 5, stay bearing plate; 6, locating piece one; 7, locating piece two; 8, spring one; 9, spring two; 10, positioning plate one; 11, positioning plate two; 12, knock hole; 13, positioning rope; 14, coupling link; 15, motor is cut off; 16, saw blade; 17, guide rail; 18, slide block; 19, cylinder; 20, left steel cable; 21, right steel cable; 22, the roof of tunnel body; 23, positioning lock.
Detailed description of the invention
Be below specific embodiments of the invention and by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiments.
Embodiment one:
As shown in Figure 1, Figure 2 and Figure 3, subway tunnel comprises tunnel body, is provided with the Flood gate closing tunnel body in described tunnel body, this bus-bar joint device comprises bus duct left section 1, bus duct right section 2 and the linkage section 3 be between the two for being connected, described Flood gate is hinged in tunnel inner body wall, described linkage section 3 is in the track place of closing the door of Flood gate, described bus duct left section 1 is fixed with locating plate 4, described locating plate 4 offers perforating, described locating plate 4 lower hinge has stay bearing plate 5, described stay bearing plate 5 other end is provided with the location structure that this end of stay bearing plate 5 can be made to be resisted against bus duct right section of 2 bottom places, described linkage section 3 is arranged on stay bearing plate 5, linkage section 3 one end contacts for left section 1 with bus duct through described perforating, linkage section 3 other end contacts for right section 2 with bus duct, the rectangular in cross-section shape of described stay bearing plate 5, the cross section also rectangular shape of described linkage section 3, the length of described linkage section 3 is less than the length of stay bearing plate 5, the width of described linkage section 3 is less than the width of stay bearing plate 5, described stay bearing plate 5 is fixed with the locating piece 1 be parallel to each other and locating piece 27, distance between described locating piece 1 and locating piece 27 is greater than the width of described linkage section 3, and described linkage section 3 is between described locating piece 1 and locating piece 27, spring 1 is provided with between described locating piece 1 and linkage section 3, one end of described spring 1 is fixed on locating piece 1, the other end of described spring 1 is fixed with positioning plate 1, described positioning plate 1 can be resisted against described linkage section 3 sidepiece place, spring 29 is provided with between described locating piece 27 and linkage section 3, one end of described spring 29 is fixed on locating piece 27, the other end of described spring 29 is fixed with positioning plate 2 11, described positioning plate 2 11 can be resisted against described linkage section 3 sidepiece place, described location structure comprises the knock hole 12 be opened on stay bearing plate 5, positioning rope 13 and coupling link 14, described knock hole 12 is opened in stay bearing plate 5 one end near bus duct right section 2, and described knock hole 12 is in the sidepiece place of linkage section 3, described positioning rope 13 one end is fixed in knock hole 12, described positioning rope 13 is in tensioned state, positioning rope 13 other end is fixed on coupling link 14, described coupling link 14 is fixed on the roof 22 of tunnel body, and described coupling link 14 is in directly over knock hole 12, the sidewall of described tunnel body is also fixed with PLC, described PLC has the output port that can be connected with external computer, the roof 22 of described tunnel body is also provided with the chopping up apparatus cutting off positioning rope 13, described chopping up apparatus comprises cuts off motor 15, and the described motor 15 that cuts off is connected with described PLC by circuit, described chopping up apparatus also comprises saw blade 16, guide rail 17, slide block 18 and cylinder 19, described saw blade 16 be fixed on cut off motor 15 output shaft on, described guide rail 17 is fixed on the roof 22 of tunnel body, described slide block 18 acts on guide rail 17, the described motor 15 that cuts off is fixed on slide block 18, described cylinder 19 is fixed on the roof 22 of tunnel body, piston rod and the described slide block 18 of cylinder 19 fix, and cylinder 19 is connected with described PLC, described saw blade 16 can contact with described positioning rope 13, right steel cable 21 is provided with between described linkage section 3 and bus duct right section 2, described right steel cable 21 one end is fixed on the right-hand member of linkage section 3, right steel cable 21 other end is fixed on bus duct right section 2 through described coupling link 14, described right steel cable 21 is in tensioned state, and described right steel cable 21 can contact with described positioning rope 13, left steel cable 20 is provided with between described linkage section 3 and bus duct left section 1, described left steel cable 20 one end is fixed on the left end of linkage section 3, described left steel cable 20 other end is fixed on bus duct left section 1, attachment point between described left steel cable 20 and bus duct left section 1 and the attachment point distance between the two between the left end of left steel cable 20 and linkage section 3 are a, the length of described left steel cable 20 is at least three times of distance a, in the present embodiment one, the length of left steel cable 20 is four times of distance a.
Bus duct left section 1, bus duct right section 2 and linkage section 3 are all used to provide electric energy to the traveling of train, and the output port of PLC is connected with the computing machine in the external world by circuit.Linkage section 3 is in the Flood gate place in tunnel, and when linkage section 3 is connected between bus duct left section 1 and bus duct right section 2, Flood gate cannot be closed.When Flood gate closed by needs, by computing machine to PLC signal, PLC controls to cut off motor 15 and starts working, and the output shaft cutting off motor 15 starts to rotate, and saw blade 16 is along with rotation; Give PLC signal again by computing machine, PLC control cylinder 19 is started working, and cylinder 19 is with movable slider 18 to slide along guide rail 17, and slide block 18 drives cutting motor to move again; When saw blade 16 touches left steel cable 20 and positioning rope 13, left steel cable 20 and positioning rope 13 can all cut off by saw blade 16; After positioning rope 13 is cut off, because stay bearing plate 5 is hinged on locating plate 4, under gravity, stay bearing plate 5 can smoothly to lower swing, linkage section 3 is also to lower swing, and the direction of stay bearing plate 5 is identical with gravity direction, now, linkage section 3 and stay bearing plate 5 be not in the track of closing the door of Flood gate, and intrinsic for tunnel space-closed can be lived by Flood gate under the effect of cylinder 19 or motor.Linkage section 3 can not depart from stay bearing plate 5 under the effect of positioning plate 1, spring 1, positioning plate 2 11 and spring 29, in order to avoid linkage section 3 is lost; In addition, even if spring 1 and spring 29 lost efficacy, under the effect of left steel cable 20, linkage section 3 is suspended on bus duct left section 1, can not lose, make linkage section 3 continue next time to use.
Stay bearing plate 5, locating plate 4, left steel cable 20 and right steel cable 21 all adopt stainless steel material to make, linkage section 3 one end contacts for left section 1 with bus duct, linkage section 3 other end contacts for right section 2 with bus duct, makes the electricity of bus duct left section 1 pass to bus duct right section 2 by linkage section 3 like this; The electricity that bus duct is left section 1 passes to stay bearing plate 5 by locating plate 4, linkage section 3 is placed on stay bearing plate 5, and stay bearing plate 5 passs linkage section 3 fax, and the end of stay bearing plate 5 is resisted against place bottom bus duct right section 2, therefore, bus duct left section 1, linkage section 3 and bus duct right section 2 are all energisings;
In addition, under the effect of left steel cable 20 and right steel cable 21, bus duct left section 1, bus duct right section 2 and linkage section 3 three can be energized.In sum, by the mode of retrocession, bus duct left section 1, bus duct right section 2 and linkage section 3 three can be energized, guarantee train by time there is enough electric energy.Attachment point between left steel cable 20 and bus duct left section 1 and the attachment point distance between the two between the left end of left steel cable 20 and linkage section 3 are a, and the length of described left steel cable 20 is at least three times of distance a.Such benefit is the swing that left steel cable 20 can not hinder linkage section 3, and left steel cable 20 can make linkage section 3 be energized, and can prevent again linkage section 3 from dropping on the ground, prevent linkage section 3 from damaging, killing three birds with one stone.
The roof 22 of tunnel body is fixed with positioning lock 23, and above-mentioned coupling link 14 is fixed on positioning lock 23.Described coupling link 14 comprises inner ring body and outer ring body, and described inner ring body adopts high manganese steel material to make, and described outer ring body adopts elastomeric material to make, and described outer ring body is fixed on inner ring body by the mode of sulfuration.
Described locating plate 4 lower vertical is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate 5 is fixed with jointed shaft, described mounting hole one and mounting hole two are fixed with location bearing one and location bearing two respectively, described jointed shaft is arranged between mounting blocks one and mounting blocks two, and the two ends of described jointed shaft are separately fixed at the inner ring of location bearing one and the inner ring place of location bearing two.Be fixed with protecting jacket respectively outside described mounting blocks one and mounting blocks two, in described protecting jacket, shape has lubricating oil, and above-mentioned location bearing one and location bearing two are all in lubricating oil.
Embodiment two:
Content in the present embodiment two is roughly identical with the content in embodiment one, difference is that described locating plate 4 lower vertical in embodiment one is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate 5 is fixed with jointed shaft, described mounting hole one and mounting hole two are fixed with location bearing one and location bearing two respectively, described jointed shaft is arranged between mounting blocks one and mounting blocks two, the two ends of described jointed shaft are separately fixed at the inner ring of location bearing one and the inner ring place of location bearing two, and in the present embodiment two, described locating plate 4 lower vertical is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate 5 is fixed with jointed shaft, the two ends of described jointed shaft are located in mounting hole one and mounting hole two respectively, described jointed shaft two ends have and are fixed with spacing disk, and the external diameter of described spacing disk is greater than the aperture of mounting hole one and mounting hole two.
Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.
Although more employ 1 herein, left section of bus duct; 2, right section of bus duct; 3, linkage section; 4, locating plate; 5, stay bearing plate; 6, locating piece one; 7, locating piece two; 8, spring one; 9, spring two; 10, positioning plate one; 11, positioning plate two; 12, knock hole; 13, positioning rope; 14, coupling link; 15, motor is cut off; 16, saw blade; 17, guide rail; 18, slide block; 19, cylinder; 20, left steel cable; 21, right steel cable; 22, the roof of tunnel body; 23, the term such as positioning lock, but do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present invention more easily; The restriction that they are construed to any one additional is all contrary with spirit of the present invention.

Claims (3)

1. the bus-bar joint device of subway tunnel, described subway tunnel comprises tunnel body, is provided with the Flood gate closing tunnel body in described tunnel body, it is characterized in that this bus-bar joint device comprises left section of bus duct, right section of bus duct and the linkage section be between the two for being connected, described Flood gate is hinged in tunnel inner body wall, described linkage section is in the track place of closing the door of Flood gate, left section of described bus duct is fixed with locating plate, described locating plate offers perforating, described locating plate lower hinge has stay bearing plate, the described stay bearing plate other end is provided with the location structure that this end of stay bearing plate can be made to be resisted against the right pars infrasegmentalis place of bus duct, described linkage section is arranged on the supporting plate, linkage section one end contacts with left section of bus duct through described perforating, the linkage section other end contacts with right section of bus duct, the rectangular in cross-section shape of described stay bearing plate, the cross section also rectangular shape of described linkage section, the length of described linkage section is less than the length of stay bearing plate, the width of described linkage section is less than the width of stay bearing plate, described stay bearing plate is fixed with the locating piece one and locating piece two that are parallel to each other, distance between described locating piece one and locating piece two is greater than the width of described linkage section, and described linkage section is between described locating piece one and locating piece two, spring one is provided with between described locating piece one and linkage section, one end of described spring one is fixed on locating piece one, the other end of described spring one is fixed with positioning plate one, described positioning plate one can be resisted against described linkage section sidepiece place, spring two is provided with between described locating piece two and linkage section, one end of described spring two is fixed on locating piece two, the other end of described spring two is fixed with positioning plate two, described positioning plate two can be resisted against described linkage section sidepiece place, described location structure comprises knock hole, positioning rope and the coupling link offered on the supporting plate, described knock hole is opened in stay bearing plate one end near right section of bus duct, and described knock hole is in the sidepiece place of linkage section, described positioning rope one end is fixed in knock hole, described positioning rope is in tensioned state, the positioning rope other end is fixed on coupling link, and described coupling link is fixed on the roof of tunnel body, and described coupling link is in directly over knock hole, the sidewall of described tunnel body is also fixed with PLC, described PLC has the output port that can be connected with external computer, the roof of described tunnel body is also provided with the chopping up apparatus cutting off positioning rope, described chopping up apparatus comprises cuts off motor, and the described motor that cuts off is connected with described PLC by circuit, described chopping up apparatus also comprises saw blade, guide rail, slide block and cylinder, described saw blade is fixed on and cuts off on the output shaft of motor, described guide rail is fixed on the roof of tunnel body, described slide block acts on guide rail, the described motor that cuts off is fixed on slide block, and described cylinder is fixed on the roof of tunnel body, and piston rod and the described slide block of cylinder fix, and cylinder is connected with described PLC, described saw blade can contact with described location rope, right steel cable is provided with between described linkage section and right section of bus duct, described right steel cable one end is fixed on the right-hand member of linkage section, the right steel cable other end is fixed on right section of bus duct through described coupling link, described right steel cable is in tensioned state, and described right steel cable can contact with described location rope, left steel cable is provided with between described linkage section and left section of bus duct, described left steel cable one end is fixed on the left end of linkage section, the described left steel cable other end is fixed on left section of bus duct, attachment point between described left steel cable and left section of bus duct and the distance between the two of the attachment point between left steel cable and the left end of linkage section are a, and the length of described left steel cable is four times of distance a, described locating plate lower vertical is fixed with mounting blocks one and mounting blocks two, described mounting blocks one and mounting blocks two offer mounting hole one and mounting hole two respectively, one end of described stay bearing plate is fixed with jointed shaft, described mounting hole one and mounting hole two are fixed with location bearing one and location bearing two respectively, described jointed shaft is arranged between mounting blocks one and mounting blocks two, and the two ends of described jointed shaft are separately fixed at the inner ring of location bearing one and the inner ring place of location bearing two, be fixed with protecting jacket respectively outside described mounting blocks one and mounting blocks two, in described protecting jacket, shape has lubricating oil, and above-mentioned location bearing one and location bearing two are all in lubricating oil.
2. the bus-bar joint device of subway tunnel according to claim 1, is characterized in that, the roof of described tunnel body is fixed with positioning lock, and above-mentioned coupling link is fixed on positioning lock.
3. the bus-bar joint device of subway tunnel according to claim 2, it is characterized in that, described coupling link comprises inner ring body and outer ring body, described inner ring body adopts high manganese steel material to make, described outer ring body adopts elastomeric material to make, and described outer ring body is fixed on inner ring body by the mode of sulfuration.
CN201510108602.3A 2013-08-16 2013-08-16 The bus-bar joint device of subway tunnel Expired - Fee Related CN104709116B (en)

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CN201510108602.3A CN104709116B (en) 2013-08-16 2013-08-16 The bus-bar joint device of subway tunnel

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Application Number Priority Date Filing Date Title
CN201310359635.6A CN103419678B (en) 2013-08-16 2013-08-16 A kind of bus-bar joint device of subway tunnel
CN201510108602.3A CN104709116B (en) 2013-08-16 2013-08-16 The bus-bar joint device of subway tunnel

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CN201310359635.6A Division CN103419678B (en) 2013-08-16 2013-08-16 A kind of bus-bar joint device of subway tunnel

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CN104709116A true CN104709116A (en) 2015-06-17
CN104709116B CN104709116B (en) 2016-12-07

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CN107344511A (en) * 2017-08-17 2017-11-14 中铁电气化局集团有限公司 A kind of tear-away formula bus-bar suspension arrangement of rigid system
CN107472084A (en) * 2017-08-17 2017-12-15 中铁电气化局集团有限公司 A kind of tear-away formula bus-bar suspension arrangement of rigid system, which is oriented to, slips mechanism
CN110920466A (en) * 2019-12-13 2020-03-27 湖南铁路科技职业技术学院 Anchor section type automatic cut-off type bus bar of flood-proof door

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CN202319968U (en) * 2011-11-15 2012-07-11 浙江旺隆轨道交通设备有限公司 Link gear in dis-connectable busbar joint device of rigid catenary
CN202319963U (en) * 2011-11-15 2012-07-11 浙江旺隆轨道交通设备有限公司 Guide mechanism in breakable bus bar joint device of rigid contact network
CN202319967U (en) * 2011-11-15 2012-07-11 浙江旺隆轨道交通设备有限公司 Limit mechanism in interruptable busbar joint device of rigid contact network

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JPH11115558A (en) * 1997-10-17 1999-04-27 Mitsubishi Cable Ind Ltd Support structure of rigid body electric traction
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CN202319964U (en) * 2011-11-15 2012-07-11 浙江旺隆轨道交通设备有限公司 Sliding mechanism in severable bus-bar piecing device of rigid contact net
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Publication number Priority date Publication date Assignee Title
CN107344511A (en) * 2017-08-17 2017-11-14 中铁电气化局集团有限公司 A kind of tear-away formula bus-bar suspension arrangement of rigid system
CN107472084A (en) * 2017-08-17 2017-12-15 中铁电气化局集团有限公司 A kind of tear-away formula bus-bar suspension arrangement of rigid system, which is oriented to, slips mechanism
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CN110920466A (en) * 2019-12-13 2020-03-27 湖南铁路科技职业技术学院 Anchor section type automatic cut-off type bus bar of flood-proof door

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