CN112779828A

CN112779828A - Automatic place operation car of insulating block and fastening fastener

Info

Publication number: CN112779828A
Application number: CN202110002872.1A
Authority: CN
Inventors: 梁超; 管新权; 沈光华; 段启楠; 陈志远; 贾炳义; 王道成; 张元贺; 杜学森; 邓建华; 杨永洲; 喻国梁; 翟长青; 陈治亚; 廖耘; 田庆
Original assignee: Zhuzhou Xuyang Electromechanic Technology Co ltd; Central South University; China Tiesiju Civil Engineering Group Co Ltd CTCE Group
Current assignee: Zhuzhou Xuyang Electromechanic Technology Co ltd; Central South University; China Tiesiju Civil Engineering Group Co Ltd CTCE Group
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2021-05-11
Anticipated expiration: 2041-01-04
Also published as: CN112779828B

Abstract

The invention discloses an operation vehicle capable of automatically placing insulating blocks and fastening fasteners, which comprises a frame body of the operation vehicle, a nail screwing device arranged below two sides of the frame body, an insulating block sorting device and a spring bar resetting device, wherein the insulating block sorting device is provided with an insulating block clamp, and the spring bar resetting device is provided with a spring bar clamping hand; during operation, the insulating block clamp inserts the insulating block between the rail bottom of the steel rail and the limiting boss of the iron base plate, the rail nail preassembled on the preassembled sleeper is unscrewed by the nail screwing device, the lower jaw at the front end of the elastic strip is pressed by the elastic strip clamping hand, and then the rail nail is screwed down by the nail screwing device. The advantages are that: the operation car is carried out the operation by oneself by control system control, except that vehicle-mounted control personnel, other operations need not artifical the participation, and insulating block cartridge, bullet strip are put in order and the spike screws up etc. all under automatic control system control, can be in order, normal, quick going on, realize high quality, efficient fastener fastening operation.

Description

Automatic place operation car of insulating block and fastening fastener

Technical Field

The invention relates to an operation vehicle capable of automatically placing insulating blocks and fastening fasteners, and belongs to the technical field of rail paving of rail transit railways.

Background

The sleeper is placed according to setting for the position in ballastless track bed both sides to high-speed railway ballastless track pavement, then fixes the rail on the sleeper, and modern high-speed railway ballastless track's sleeper has complicated attached mounting spare, including heightening backing plate, iron tie plate, gauge apron, fine setting backing plate under the rail, the backing plate under the rail, insulating fast, bullet strip and railway spike etc. the installation of rail on the sleeper is fixed, actually contains the installation of all attached mounting spare fixed. In recent years, with the integration of technology and services, most of the related production enterprises have pre-installed most of the accessory mounts on the sleepers in order to reduce the workload of the track laying work. However, some track laying construction units pre-install most of the accessory installation parts on the sleepers before the track is formally laid on roads. In the following description, we will refer to the sleeper, pre-installed with the accessory mounts, as a pre-installed sleeper.

In the above-mentioned annex, the insulating block can't carry out preinstallation, and it need just can insert it between the spacing boss of rail bottom and the iron tie plate of rail after the rail is installed in place, then the reuse bullet strip is pushed down, and this indispensable operation flow causes very big difficulty for fastener installation in the operation of spreading the rail. In the last decades of automatic track laying research and practice, the installation of steel rails on pre-installed sleepers is limited to the following ways: firstly, manually positioning the steel rail by adopting a mode of fixing one point at multiple points at equal intervals. That is, one rail is manually fixed to one pre-installed sleeper every 2-10 intervals to position the rail. Then, the operation vehicle for fastening the fastener runs on the rail which is fixed and positioned manually, and the sleeve which is arranged on the operation vehicle and used for screwing the spike is used for fastening the other preassembled sleepers which are not fixed with the rail. However, before installing the spike, the insulating block needs to be inserted between the rail bottom on the two sides of the steel rail and the iron base plate limiting table, and the elastic strip is placed at a position where the insulating block can be pressed, and the operation process still needs to be manually completed. The manual intervention is needed at present mainly because the operation is seemingly simple, and if the operation is to be automated, a series of complex coordination actions are needed to realize the operation.

The manual insertion of the insulating blocks and the arrangement of the elastic strips are slow, and the operation standard is difficult to achieve unified specification, which obviously does not meet the requirement of high-quality high-efficiency automatic track laying.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in the prior art, the insulating blocks and the elastic strips are still required to be manually placed in the mechanical operation process after the preliminary positioning of the steel rail is realized, so that the problems of low operation efficiency and difficulty in ensuring the construction quality are caused.

Aiming at the problems, the technical scheme provided by the invention is as follows:

an operation vehicle capable of automatically placing insulating blocks and fastening fasteners comprises a frame body of the operation vehicle, a nail screwing device arranged below two sides of the frame body, an insulating block sorting device and a spring bar resetting device, wherein the insulating block sorting device and the spring bar resetting device are arranged on two sides of the frame body; during operation, the insulating block clamp inserts the insulating block between the rail bottom of the steel rail and the limiting boss of the iron base plate, the rail nail preassembled on the preassembled sleeper is unscrewed by the nail screwing device, the lower jaw at the front end of the elastic strip is pressed by the elastic strip clamping hand, and then the rail nail is screwed down by the nail screwing device.

Furthermore, two sides of a frame body of the operation vehicle are provided with a common longitudinal movement mounting frame for mounting the elastic strip arranging device and the nail twisting device, and the longitudinal movement mounting frame comprises a longitudinal movement top plate, and a left side plate and a right side plate which are fixed below two ends of the longitudinal movement top plate; the longitudinal moving mounting frame can slide forwards or backwards on a longitudinal rail I arranged on the frame body through the sliding blocks at the two ends of the longitudinal moving top plate; one end of the longitudinal moving top plate is provided with a longitudinal moving motor, a driving gear driven by the longitudinal moving motor and a driving rack arranged on the first longitudinal rail.

Furthermore, a rectangular lifting frame is arranged in the longitudinal moving mounting frame, a left end plate and a right end plate are respectively arranged at the left end and the right end of the lifting frame, groove plates with right-angle notches are respectively and vertically arranged at the front and the back of the inner sides of the left side plate and the right side plate of the longitudinal moving mounting frame, a left front guide groove and a left back guide groove are formed at the inner side of the left side plate, a right front guide groove and a right back guide groove are formed at the inner side of the right side plate, the front end and the back end of the left end plate of the lifting frame are respectively positioned in the left front guide groove and the left back guide groove and can slide up and down, and the front end and the back end of the right end plate are respectively; and a first lifting propulsion cylinder is arranged on a longitudinal moving top plate of the longitudinal moving mounting frame, and a propulsion rod of the first lifting propulsion cylinder is connected with the lifting frame.

Furthermore, the elastic strip homing device also comprises a transverse pushing cylinder, a transverse sliding plate connected with the transverse pushing cylinder and transverse sliding surfaces arranged on front and rear frame beams of the lifting frame and used for transversely sliding two ends of the transverse sliding plate, and the elastic strip clamping hands are fixedly arranged on the lower bottom surface of the transverse sliding plate; one lifting frame is provided with two sets of elastic strip placing devices which are respectively arranged at two ends of the lifting frame, and the transverse propelling cylinders of the lifting frame are respectively arranged on a left end plate and a right end plate of the lifting frame.

Further, the elastic strip clamping hand comprises a horizontal cylinder module and two clamping jaws in an L shape, telescopic parts are arranged at two ends of the horizontal cylinder module, the two clamping jaws are respectively installed on the telescopic parts at two ends of the horizontal cylinder module, and elastic clamping pieces are respectively arranged on the inner sides, opposite to the lower portions, of the two clamping jaws.

Furthermore, the screw twisting device is a screw twisting sleeve with a polygonal inner wall section and driven by a motor; two left and right screw-tightening sleeves are arranged between two elastic strip clamping hands below one lifting frame.

Furthermore, the insulating block sorting and loading device is also provided with a transverse moving guide rail module and a vertical guide rail module, the two ends of the transverse moving guide rail module are walked on a longitudinal rail II arranged on the frame body, the vertical guide rail module can transversely slide on the transverse moving guide rail module, and the insulating block clamp is downwards installed on the vertical guide rail module through the installation body and can vertically slide on the vertical guide rail module.

The mounting body is composed of two connecting plates which are connected in a right angle. The insulating block clamp is a horizontal pneumatic claw.

Furthermore, the operation vehicle also comprises an insulating block and insulating block separating and supplying device, wherein the insulating block and insulating block separating and supplying device comprises a vibration disk, the vibration disk is provided with a vibration channel I and a vibration channel II, and the two vibration channels are in a double-spiral shape in a clockwise or anticlockwise rotation direction in the vibration disk; the vibration channel I and the vibration channel II are provided with anisotropic block eliminating plates positioned above the two vibration channels in the vibration disc; the first vibration channel and the second vibration channel are respectively provided with a first output port and a second output port outside the vibration disc.

Further, the insulating block and insulating block supply device also comprises a supply board capable of sliding transversely; the branch supply plate is provided with a branch supply pushing cylinder which pushes the branch supply plate to transversely move towards the upper part of the steel rail; the supply dividing plate is divided into a supply dividing section and a supply blocking section, the supply dividing section is provided with a supply dividing groove I and a supply dividing groove II, and the supply dividing groove I and the supply dividing groove II can be in butt joint with a first output port and a second output port of the two vibration channels outside the vibration disk; after the first branch supply groove and the second branch supply groove are connected with the insulating block, the branch supply plate transversely slides to the upper part of the steel rail, and the edge of the supply blocking section can block the first output port and the second output port.

Further, the operation vehicle further comprises a vehicle body centering device arranged at two ends of the operation vehicle and used for centering and aligning a vehicle body, the vehicle body centering device comprises a lifting type installation mechanism, the lifting type installation mechanism comprises a first left sleeve column and a first right sleeve column, a first left lifting column and a first right lifting column, a first left slide rail seat and a second right slide rail seat, a second left lifting propulsion cylinder and a second right lifting propulsion cylinder, the upper ends of the first left lifting propulsion cylinder and the second right lifting propulsion cylinder are respectively installed on the frame body, the first left sleeve column and the first right sleeve column are fixed on the frame body of the operation vehicle, the first left lifting column and the first right lifting column are respectively located in the first left sleeve column and the first right sleeve column, the second left lifting column and the first right lifting column are respectively fixed at the lower ends of the first left lifting column and the first.

Furthermore, the left slide rail seat and the right slide rail seat are respectively provided with a front side plate and a rear side plate which are symmetrically arranged in front and rear; a distance is reserved between the front side plate and the rear side plate to form a push arm groove, and the front side plate and the rear side plate are fixedly connected at the upper edges of the front side plate and the rear side plate through an upper connecting plate; the lower bottom edges of the front side plate and the rear side plate are provided with lower connecting plates, the lower connecting plates extend forwards at the lower bottom edges of the front side plate to form front sliding rail edges, and the lower connecting plates extend backwards at the lower bottom edges of the rear side plate to form rear sliding rail edges.

Furthermore, the vehicle body centering device also comprises an inner supporting mechanism which pushes the left steel rail or the right steel rail from inside to outside; the inner support mechanism comprises a front support column and a rear support column, a fulcrum shaft, a rotating arm, a centering propulsion cylinder, a left propulsion arm, a right propulsion arm, a left slider, a right slider, a left support wheel and a right support wheel, wherein the upper ends of the front support column and the rear support column are symmetrically fixed on a frame body of the operation vehicle; the left supporting wheel and the right supporting wheel are respectively arranged on the parts at the lower ends of the left slider and the right slider;

the maximum distance from the outer peripheral surface of the left side of the left support wheel to the outer peripheral surface of the right side of the right support wheel is equal to the distance from the inner side surface of the rail head of the left steel rail to the inner side surface of the rail head of the left steel rail.

Furthermore, the upper ends of the left slider and the right slider are respectively provided with a transverse sliding plate, the front side of the top surface of the transverse sliding plate is provided with a sliding groove with a backward opening, the rear side of the top surface of the transverse sliding plate is provided with a sliding groove with a forward opening, the front sliding rail edge of the front side plate is positioned in the sliding groove on the front side of the top surface of the transverse sliding plate, and the rear sliding rail edge of the rear side plate is positioned in the sliding groove on the rear side of the top surface of the transverse sliding plate.

Furthermore, the operation vehicle also comprises a steel rail micro-moving device for forcing the rail to generate recoverable elastic deformation, wherein the steel rail micro-moving device comprises a lifting beam frame, the lifting beam frame comprises a left sleeve column II and a right sleeve column II, the upper ends of which are fixed on two sides of the operation vehicle frame body, a left lifting column II and a right lifting column II, the upper ends of which are respectively positioned in the left sleeve column II and the right sleeve column II, a cross beam, the two ends of which are fixed on the lower ends of the left lifting column II and the right lifting column II, and a lifting propulsion cylinder III, the upper end of which is arranged on the operation vehicle frame body, and the lower end of which is connected with the middle part of the.

The steel rail micro-moving device further comprises a transverse rail pushing mechanism, the transverse rail pushing mechanism comprises a left sliding seat, a left pushing cylinder, a right sliding seat and a right pushing cylinder, the left sliding seat and the right sliding seat are respectively installed at the left end and the right end of the lower bottom surface of the cross beam and can slide left and right on the lower bottom surface of the cross beam, and the left pushing cylinder and the right pushing cylinder are installed on the cross beam and respectively control the lower left sliding seat and the lower right sliding seat; the lower bottom surfaces of the left sliding seat and the right sliding seat are respectively provided with an inner pushing pulley and an outer pushing pulley, and the distance between the inner pushing pulley and the outer pushing pulley is larger than the width of the rail head of the steel rail.

The invention has the advantages that: after the steel rail is preliminarily fixed, the operation vehicle runs on the preliminarily fixed steel rail on two sides of the ballast bed and is controlled by the control system to carry out operation by itself, other operations do not need manual participation except vehicle-mounted monitoring personnel, and the insulating block insertion, the elastic strip arrangement, the rail nail tightening and the like can be orderly, normatively and quickly carried out under the control of the automatic control system, so that the high-quality and efficient fastener fastening operation is realized.

Drawings

FIG. 1 is a schematic perspective view of a work vehicle for automatically placing an insulation block and a fastening fastener according to the present invention;

FIG. 2 is a schematic perspective view of the iron shim plate;

FIG. 3 is a perspective view of the insulating block;

FIG. 4 is a schematic view of a rail, a spring bar, an insulator block, etc. before being installed on a pre-installed sleeper, wherein the insulator block is not yet installed, and a lower jaw at the front end of the spring bar is pre-pressed on a limit boss of an iron tie plate;

FIG. 5 is a schematic view of a rail, spring bar, insulator block, etc. installed on a pre-installed sleeper, wherein the insulator block has been installed between the rail bottom and the limiting boss of the iron tie plate, on the jaw insulator block at the front end of the spring bar;

fig. 6 is a perspective view of the work vehicle as viewed from the bottom;

fig. 7 is a perspective view of the longitudinally movable mounting frame, mainly illustrating the assembly relationship of the elastic strip homing device on the longitudinally movable mounting frame;

FIG. 8 is a perspective view of the longitudinal movement mounting frame, which mainly shows the assembly relationship of the screw driving device on the longitudinal movement mounting frame;

fig. 9 is a partial perspective view of the work vehicle, which mainly shows the sliding components and the structural relationship of the insulation block picking device and the elastic strip homing device;

FIG. 10 is a perspective view of the insulation block clamp on a vertical rail module;

fig. 11 is a schematic top view of the insulation block supply device, mainly showing that the first output port and the second output port are respectively butted with the first supply groove and the second supply groove.

FIG. 12 is a schematic top view of the insulation block feeding device, which mainly shows that the first outlet and the second outlet are blocked by the side edge of the blocking section of the feeding plate, and the insulation blocks in the first feeding groove and the second feeding groove are pushed above the steel rail for being clamped by the insulation block clamp;

FIG. 13 is a schematic view of the anisotropic block removing plate blocking the first vibration channel to pass through the first vibration channel in an unqualified anisotropic posture;

FIG. 14 is a perspective view of the vehicle body centering device;

FIG. 15 is a partial perspective view of the vehicle body centering device as viewed from the bottom of the work vehicle;

FIG. 16 is a schematic perspective view of the rail micro-moving device;

fig. 17 is a schematic perspective view of the rail micro-moving device, which mainly shows a propulsion mechanism of the rail micro-moving device.

In the figure: 1. a frame body; 2. insulating block clamping; 3. a spring bar clamping hand; 4. longitudinally moving the mounting rack; 5. longitudinally moving the top plate; 6. a left side plate; 7. a right side plate; 8. a slider; 9. a first longitudinal rail; 11. a longitudinal movement motor; 12. a drive gear; 13. a drive rack; 14. a lifting frame; 15. a left end plate; 16. a right end plate; 17. a groove plate; 18. a left front guide groove; 19. a left rear guide groove; 21. a right front guide groove; 22. a right rear guide groove; 23. lifting the first pushing cylinder; 24. transversely moving the sliding plate; 25. a transverse sliding surface; 26. a transverse propulsion cylinder; 27. a horizontal cylinder module; 28. a clamping jaw; 29. an elastic clip; 31. screwing the nail sleeve; 32. transversely moving the guide rail module; 33. a vertical guide rail module; 34. a second longitudinal rail; 35. an installation body; 36. a vibrating pan; 37. vibrating a first channel; 38. vibrating a second channel; 39. a different-direction block eliminating plate; 41. an output port I; 42. an output port II; 43. a plug slot; a branch 44 and a supply plate; 45. a separate supply propulsion cylinder; 46. dividing into supply sections; 47. a supply-blocking section; 48. a first supply groove; 49. a second supply groove; 51. a first left sleeve column; 52. a first right sleeve column; 53. a first left lifting column; 54. a first right lifting column; 55. a left slide rail seat; 56. and a right slide rail seat; 57. a second left lifting propulsion cylinder; 58. a second right lifting propulsion cylinder; 59. a front side plate; 61. a rear side plate; 62. a push arm groove; an upper 63, a connecting plate; 64. a front slide rail edge; 65. a rear slide rail edge; 66. a front mount column; 67. a rear mount post; 68. a fulcrum; 69. a rotating arm; 71. a centering propulsion cylinder; 72. a left push arm; 73. a right push arm; 74, left slider; 75. a right slider; 76. a left support wheel; 77. a right support wheel; 78. a first rotating shaft; 79. a second rotating shaft; 81. a rotating shaft III; 82. transversely moving the sliding plate; 83. a chute; 84. a second left sleeve column; 85. a second right sleeve column; 86. a second left lifting column; 87. a second right lifting column; 88. a cross beam; 89. a third lifting propulsion cylinder; 91. a left slide carriage; 92. a left propulsion cylinder; 93. a right slide base; 94. a right propulsion cylinder; 95. pushing the pulley inwards; 96. pushing a pulley outwards; 101. pre-installing a sleeper; 102. an iron backing plate; 103. a limiting boss; 104. a steel rail; 105. rail bottom; 106. a spring bar; 107. a front chin; 108. a spike; 109. an insulating block; 111. inserting a block; 112. briquetting; 110. screwing the nail device; 120. an insulating block sorting device; 130. a spring strip arranging device; 140. an insulation block supply device; 150. a vehicle body centering device; 160. a rail micro-moving device.

Detailed Description

As shown in fig. 2-5, the last operation flow of the automatic track laying is to place the insulating blocks and the fastening fasteners, and the work that has been done before is: the pre-installed sleepers 101 on both sides of the track bed are installed in place; the steel rail is already placed on a rail lower base plate (insulating material) between two limit bosses 103 of an iron base plate 102 in a pre-installed sleeper 101, elastic strips 106 positioned on two sides of the steel rail 104 are in a retreating state, and lower jaws 107 at the front ends of the elastic strips are temporarily placed on the limit bosses 103 on the respective sides and are pre-tightened by spikes 108 to wait for moving forward and returning to the place; in all the pre-installed sleepers 101, a pre-installed sleeper 101 is selected at every interval of N (generally 2 to 6), and the rails and the pre-installed sleeper 101 are manually placed with insulating blocks and fasteners to initially fix the rails 104 on both sides.

The invention aims to develop a working vehicle which can quickly and normally complete the placement and fastener fastening of the insulating blocks 109 of the preassembled sleepers 101 which are not placed and fastened with the insulating blocks 109 between the steel rails. The method comprises the following steps: inserting an insulating block 109 between the rail bottoms 105 at two sides of the steel rail 104 and the limiting lug boss 103 of the iron base plate 102 according to the standard; unscrewing the spike, moving the elastic strip 106 forward, and pressing the lower jaw 107 at the front end of the elastic strip 106 against the insulating block 109; and screwing the spike to finish the operation of placing the insulating block and fastening the fastener.

The invention is further described with reference to the accompanying drawings in which:

as shown in fig. 1-5, a work vehicle for automatically placing an insulation block and a fastening clip has wheels capable of running on a rail that is preliminarily fixed. The device mainly comprises a frame body 1 of the operation vehicle, nail screwing devices 110 arranged below two sides of the frame body 1, insulating block sorting devices 120 arranged on two sides of the frame body 1, elastic strip placing devices 130 and an intelligent control system. The insulation block sorting device 120 is provided with an insulation block clamp 2, and the elastic strip homing device 130 is provided with an elastic strip clamp 3; the section of the insulating block 109 is approximate to L shape and is composed of an inserting block 111 and a pressing block 112 which are mutually vertical and integrally formed, when in operation, the insulating block clamp 2 clamps two ends of the insulating block 109, the inserting block 111 is inserted between the rail bottom 105 of the rail 104 and the limiting boss 103 of the iron base plate 102, the pressing block 112 is pressed on the upper top surface of the rail bottom 105, a nail screwing device 110 unscrews a rail nail 108 preassembled on the preassembled sleeper 101, the elastic strip clamp 3 clamps two sides of the elastic strip 106 to move forwards, a lower jaw 107 at the front end of the elastic strip 106 presses the pressing block 112 of the insulating block 109 to finish the arrangement of the elastic strip, the nail screwing device 110 screws the rail nail 108 to press the pressing block 112 of the insulating block 109, and the rail bottom of the rail 104 is pressed by pressing the pressing block 112 of the insulating block 109 to realize the fastening of the rail and the insulating block 109.

The inside and outside of the rail 104 are provided with the insulation block placement positions, which require the insulation blocks 109 to be placed, and correspondingly, the elastic bars 106 and the spikes 108 are also provided, and the actuators are required to perform corresponding actions.

The above-mentioned operations of placing the insulating blocks 109 and fastening the fasteners (the elastic strips 106 and the spikes 108) are performed simultaneously by the same devices provided on both sides of the operation vehicle on both sides of the track bed, and of course, controlled by the intelligent control system, the simultaneous operations do not necessarily require that the same mechanisms on both sides are performed completely in synchronization.

Through the above setting, obtain preliminary fixed back at rail 104, the operation is carried by control system control and is carried out the operation by oneself to the operation car is walked on the preliminary fixed rail of railway roadbed both sides, except that vehicle-mounted monitoring personnel, other operations need not artifical the participation, insulating block cartridge, bullet strip are put in order and railway spike screws up etc. and all under automatic control system control, can be orderly, normal, quick going on, realize high quality, efficient fastener fastening operation.

The following are further improvements of the present invention.

As shown in fig. 6 to 9, a common longitudinal movement mounting rack 4 for mounting the elastic strip homing device 130 and the screw device 110 is arranged on both sides of the frame body 1 of the working vehicle, and the longitudinal movement mounting rack 4 comprises a longitudinal movement top plate 5, and a left side plate 6 and a right side plate 7 fixed below both ends of the longitudinal movement top plate 5; the lower parts of the end parts of the two ends of the longitudinal moving top plate 5 are provided with slide blocks 8, and the longitudinal moving mounting frame 4 can slide forwards or backwards on a longitudinal rail I9 arranged on the frame body 1 through the slide blocks 8 at the two ends of the longitudinal moving top plate 5; one end of the longitudinal moving top plate 5 is provided with a longitudinal moving motor 11, a driving gear 12 driven by the longitudinal moving motor 11 and a driving rack 13 arranged on the longitudinal rail I9. The arrangement is that the mounting positions of the elastic strips 106, the spikes 108 and the insulating blocks 109 on the two sides of the steel rail 104 are all on the same transverse central line, a longitudinal moving mounting frame 4 is arranged, and the elastic strip arranging device 130 and the nail screwing device 110 are arranged in the longitudinal moving mounting frame 4, and the longitudinal moving mounting frame 4 can be always positioned above a working area when seen from the transverse position, so that the transverse moving is not needed during the working, and the design, the manufacture and the application of the elastic strip arranging device 130 and the nail screwing device 110 are all convenient.

A rectangular lifting frame 14 is arranged in the longitudinal moving mounting frame 4, a left end plate 15 and a right end plate 16 are respectively arranged at the left end and the right end of the lifting frame 14, groove plates 17 with right-angle notches are respectively vertically arranged at the front and the back of the inner sides of the left side plate 6 and the right side plate of the longitudinal moving mounting frame 4, a left front guide groove 18 and a left back guide groove 19 are formed at the inner side of the left side plate 6, a right front guide groove 21 and a right back guide groove 22 are formed at the inner side of the right side plate 7, the front end and the back end of the left end plate 15 of the lifting frame 14 are respectively positioned in the left front guide groove 18 and the left back guide groove 19 and can slide up and down, and the front end and the back end of the right end plate 16 are respectively positioned; a first lifting propulsion cylinder 23 is arranged on the longitudinal moving top plate 5 of the longitudinal moving mounting frame 4, and a propulsion rod of the first lifting propulsion cylinder 23 is connected with the lifting frame 14. The crane 14 is arranged such that, in addition to the specific actions that require the actuators to perform lifting, all the actuators are required to be at a height above the running surface of the rail 104 to pass when the working vehicle passes through a switch.

The elastic strip homing device 130 further comprises a transverse pushing cylinder 26, a transverse sliding plate 24 connected with the transverse pushing cylinder and a transverse sliding surface 25 arranged on the front and rear frame beams of the lifting frame 14 for transverse sliding of two ends of the transverse sliding plate 24, and the elastic strip clamping hand 3 is fixedly arranged on the lower bottom surface of the transverse sliding plate 24. This is so because the elastic strip gripper 3 has an action of moving the elastic strip laterally forward after gripping the elastic strip 106.

One lifting frame 14 is provided with two sets of elastic strip homing devices 130 which are respectively arranged at the left end and the right end in the lifting frame 14, and the transverse propelling cylinders 26 thereof are respectively arranged on the left end plate 15 and the right end plate 16 of the lifting frame 14. This is arranged to simultaneously advance and position the elastic strips 106 on both sides of the rail by using two sets of elastic strip homing devices 130.

The elastic strip clamping hand 3 comprises a horizontal cylinder module 27 and two clamping jaws 28 in an L shape, telescopic parts are arranged at two ends of the horizontal cylinder module 27, the two clamping jaws 28 are respectively installed on the telescopic parts at two ends of the horizontal cylinder module 27, clamping friction force of the two clamping jaws 28 is increased, clamping of the elastic strip 106 is facilitated, and elastic clamping pieces 29 are respectively arranged on the inner sides, opposite to the lower portions, of the two clamping jaws 28. The L-shaped configuration of the jaws 28 is intended to extend the transverse length of the lower portion of the jaws 28 and to fully grip the front and rear sides of the spring 106.

The screw-driving device 110 is a screw-driving sleeve 31 with a polygonal inner wall section and driven by a motor; a left screw-driving sleeve 31 and a right screw-driving sleeve 31 are arranged between the two elastic strip clamping hands 3 under one lifting frame 14. As with the design of the two sets of elastic strip homing devices 130 on the lifting frame 14, the arrangement is that the left and right nail screwing sleeves 31 are used for simultaneously unscrewing or screwing the spikes 108 on the two sides of the steel rail respectively.

As shown in fig. 1, 9, 10; the insulation block picking and loading device 120 further comprises a transverse moving guide rail module 32 and a vertical guide rail module 33, the two ends of the transverse moving guide rail module 32 are arranged on two longitudinal rails 34 arranged on the frame body 1, the vertical guide rail module 33 can slide transversely on the transverse moving guide rail module 32, and the insulation block clamp 2 is downwards installed on the vertical guide rail module 33 through an installation body 35 and can slide vertically on the vertical guide rail module 33. This arrangement enables the insulation block clamp 2 to be moved to any position within the operating area.

As shown in fig. 4-10; the mounting body 35 is formed by two connecting plates connected at right angles. The insulating block clamp 2 is a horizontal pneumatic claw.

The second longitudinal rail 34 and the first longitudinal rail 9 may be designed as one rail.

Two insulation block picking devices 120 are arranged at the front and the back of the same side of the working vehicle, so that the operation of picking the insulation blocks 109 can be simultaneously carried out on two front and back adjacent preassembled sleepers 101.

Two longitudinal moving mounting frames 4 are arranged at the front and the back of the same side of the working vehicle, so that the operation of loosening and tightening the spikes 108 and the resetting elastic strips 106 can be simultaneously carried out on two front and back adjacent preassembled sleepers 101.

As shown in fig. 9-13; the working vehicle further comprises an insulating block and insulating block supply device 140140, the insulating block supply device 140 comprises a vibration disk 36, the vibration disk 36 is provided with a vibration channel I37 and a vibration channel II 38, and the two vibration channels are in a double-spiral shape in a clockwise or anticlockwise rotation direction in the vibration disk 36; the first vibration channel 37 and the second vibration channel 38 are provided with a different-direction block rejecting plate 39 positioned above the two vibration channels in the vibration disk 36; the first vibration channel 37 and the second vibration channel 38 respectively have a first output port 41 and a second output port 42 outside the vibration disk 36.

The principle of the arrangement is that the insertion block grooves 43 for accommodating the insertion blocks 111 are formed in the bottom sides of the first vibration channel 37 and the second vibration channel 38, in the continuous vibration process of the plurality of insulation blocks 109 stacked in the vibration disc 36, the insertion blocks 111 of a part of the insulation blocks 109 always fall into the insertion block grooves 43 of the first vibration channel 37 and the second vibration channel 38 when the insulation blocks are shaken and turned over, and the insulation blocks can continuously move forwards in the first vibration channel 37 and the second vibration channel 38 in a clockwise or counterclockwise direction to finally reach the first output port 41 and the second output port 42 in a qualified posture when the vibration disc 36 vibrates in the clockwise or counterclockwise direction. However, a part of the insert blocks 111 of the insulation blocks 109 falling into the first vibration channel 37 and the second vibration channel 38 will not fall into the insert block groove 43, and they will also move forward with the clockwise or counterclockwise vibration of the vibration plate 36 in an unqualified different-direction posture, because the insert blocks 111 of the insulation blocks 109 in different-direction posture do not fall into the insert block grooves 43 of the first vibration channel 37 and the second vibration channel 38, the insulation blocks 109 are higher than the first vibration channel 37 or the second vibration channel 38 in the first vibration channel 37 or the second vibration channel 38, and they will touch the different-direction block eliminating plate 39 to be kicked out when moving forward, and the kicked insulation blocks 109 participate in the vibration plate 36.

The insulation block distribution device 140 further comprises a distribution plate 44 capable of sliding transversely, and the distribution plate 44 is provided with a distribution pushing cylinder 45 for pushing the distribution plate 44 to move transversely above the steel rail; the supply dividing plate 44 is divided into a supply dividing section 46 and a supply blocking section 47, the supply dividing section 46 is provided with a supply dividing groove I48 and a supply dividing groove II 49, and the supply dividing groove I48 and the supply dividing groove II 49 can be in butt joint with a first output port 41 and a second output port 42 of two vibration channels outside the vibration disk 36; after the first sub-supply groove 48 and the second sub-supply groove 49 are connected to the insulation blocks 109, the sub-supply plate 44 transversely slides upwards the steel rail so as to facilitate the insulation block clamp 2 to clamp the insulation blocks 109 in the first sub-supply groove 48 and the second sub-supply groove 49. At this time, the blocking section 47 moves to the positions of the first outlet 41 and the second outlet 42, and the edge thereof can block the first outlet 41 and the second outlet 42.

As shown in fig. 6, 14 and 15, the working vehicle further includes a vehicle body centering device 150 disposed at two ends of the working vehicle for centering and aligning the vehicle body, the vehicle body centering device 150 includes a lifting and lowering type mounting mechanism, the lifting and lowering type mounting mechanism includes a first left sleeve column 51 and a first right sleeve column 52 fixed at the upper end thereof on the frame body 1 of the working vehicle, a first left lifting column 53 and a first right lifting column 54 respectively located in the first left sleeve column 51 and the first right sleeve column 52, a first left slide rail seat 55 and a second right slide rail seat 56 respectively fixed at the lower end of the first left lifting column 53 and the first right lifting column 54, a second left lifting and pushing cylinder 57 and a second right lifting and pushing cylinder 58 respectively connected with the left end of the first left slide rail seat 55 and the right end 56 of the right slide rail seat, and the upper ends of the second left lifting and pushing cylinder 57 and the second right lifting and pushing cylinder 58 are respectively mounted on the. Because the steel rail for the operation vehicle to run is only preliminarily fixed, and the track gauge precision of the steel rails on the two sides of the steel rail is not very high in the curve position, when the wheel of the operation vehicle is designed, the tread of the wheel is designed to be wider, so that the wheel can run on the steel rail when the operation vehicle runs. However, the vehicle body is easy to deviate due to the wide tread of the wheels, and after the vehicle body deviates, the elastic strip clamping hand 3 and the screw sleeve 31 deviate from the corresponding positions, so that the centering correction needs to be continuously carried out on the working vehicle. The function of the mounting mechanism is not described in archives, and the lifting function is still considered to be suitable for the turnout traffic.

The left slide rail seat 55 and the right slide rail seat 56 are respectively provided with a front side plate 59 and a rear side plate 61 which are arranged in a front-rear symmetrical mode; a distance is reserved between the front side plate 59 and the rear side plate 61 to form a push arm groove 62, and the front side plate 59 and the rear side plate 61 are fixedly connected on the upper sides of the front side plate 59 and the rear side plate 61 through an upper connecting plate 63; the lower bottom edges of the front side plate 59 and the rear side plate 61 are provided with lower connecting plates, the lower connecting plates extend forwards at the lower bottom edge of the front side plate 59 to form a front slide rail edge 64, and the lower connecting plates extend backwards at the lower bottom edge of the rear side plate 61 to form a rear slide rail edge 65.

The left and right rail seats 55 and 56 are also mounting seats for the components described later, and the components mounted on the left and right rail seats 55 and 56 are also capable of sliding laterally on the left and right rail seats 55 and 56.

The vehicle body centering device 150 further comprises an inner supporting mechanism for pushing the left side steel rail 104 or the right side steel rail 104 from inside to outside; the inner supporting mechanism comprises a front supporting column 66 and a rear supporting column 67, the upper ends of which are symmetrically fixed on the frame body 1 of the operation vehicle, a fulcrum 68 which is longitudinally arranged on coaxial axle holes at the lower ends of the front supporting column 66 and the rear supporting column 67, a rotating arm 69 which is arranged on the fulcrum 68 between the front supporting column 66 and the rear supporting column 67 through the axle holes, a centering propulsion cylinder 71, a left propulsion arm 72, a right propulsion arm 73, a left sliding piece 74, a right sliding piece 75, a left supporting wheel 76 and a right supporting wheel 77, the centering and pushing cylinder 71 is connected with the upper end of the rotating arm 69 through a first rotating shaft 78, the right end of the left pushing arm 72 is connected with the rotating arm 69 between the first rotating shaft 78 and the fulcrum 68 through a second rotating shaft 79, the left end of the left push arm 73 is connected with the left slider 74 through a rotating shaft seat and a rotating shaft arranged on the left slider 74, the left end of the right push arm 73 is connected with the lower end of the rotating arm 69 below the fulcrum 68 through a rotating shaft III 81, the right end of the right slider 75 is connected with the right slider 75 through a rotating shaft seat and a rotating shaft arranged on the right slider 75; the left supporting wheel 76 and the right supporting wheel 77 are respectively arranged on the components at the lower ends of the left slider 74 and the right slider 75;

the maximum distance from the left outer peripheral surface of the left support wheel 76 to the right outer peripheral surface of the right support wheel 77 is equal to the distance from the inner side surface of the rail head of the left rail to the inner side surface of the rail head of the left rail.

The upper ends of the left slider 74 and the right slider 75 are respectively provided with a transverse sliding plate 24, the front side of the top surface of the transverse sliding plate 24 is provided with a sliding groove 83 with a backward opening, the rear side of the top surface is provided with a sliding groove 83 with a forward opening, the front sliding rail edge 64 of the front side plate 59 is positioned in the sliding groove 83 at the front side of the top surface of the transverse sliding plate 24, and the rear sliding rail edge 65 of the rear side plate 61 is positioned in the sliding groove 83 at the rear side of the top surface of the transverse sliding plate 24.

The function principle of the internal supporting mechanism is that when the working vehicle runs, the left supporting wheel 76 and the right supporting wheel 77 are in a relative contraction state so as not to interfere with the normal running of the working vehicle, when the working vehicle stops and starts to work, if the vehicle body deviates at the moment, the left supporting wheel 76 and the right supporting wheel 77 respectively move towards two sides under the action of thrust exerted by the centering propulsion cylinder 71, one of the left supporting wheel 76 and the right supporting wheel 77 always touches the inner side of one steel rail firstly, the vehicle body is forced to move towards the other side, when the vehicle body moves to the middle position, the other left supporting wheel 76 or the right supporting wheel 77 also touches the inner side of the other steel rail, and at the moment, the centering operation is completed. The front and rear ends of the work vehicle are provided with various devices that are operated simultaneously by the front and rear body centering devices 150.

As shown in fig. 1, 6, 16, 17; the working vehicle further comprises a steel rail micro-moving device 160 for forcing the rail to generate recoverable elastic deformation, wherein the steel rail micro-moving device 160 comprises a lifting beam frame, the lifting beam frame comprises a left sleeve column II 84 and a right sleeve column II 85, the upper ends of which are fixed on two sides of the working vehicle frame body 1, a left lifting column II 86 and a right lifting column II 87, the upper ends of which are respectively positioned in the left sleeve column II 84 and the right sleeve column II 85, a cross beam 88, the two ends of which are fixed on the lower ends of the left lifting column II 86 and the right lifting column II 87, and a lifting propulsion cylinder III 89, the upper end of which is arranged on the working vehicle frame body 1, and the lower end of which is connected with the.

The rail micro-moving device 160 further comprises a transverse rail pushing mechanism, the transverse rail pushing mechanism comprises a left sliding seat 91, a left pushing cylinder 92, a right sliding seat 93 and a right pushing cylinder 94, the left sliding seat 91 and the right sliding seat 93 are respectively installed at the left end and the right end of the lower bottom surface of the cross beam 88 and can slide left and right on the lower bottom surface of the cross beam 88, and the left pushing cylinder 92 and the right pushing cylinder 94 are installed on the cross beam 88 and respectively control the lower left sliding seat 91 and the lower right sliding seat 93; the lower bottom surfaces of the left sliding seat 91 and the right sliding seat 93 are respectively provided with an inner pushing pulley 95 and an outer pushing pulley 96, and the distance between the inner pushing pulley 95 and the outer pushing pulley 96 is larger than the width of the rail head of the steel rail.

The purpose of the upper setting is to transversely push the steel rail 104 to enable the steel rail 104 to generate tiny recoverable elastic deformation, increase the distance between the rail bottom 105 on one side of the steel rail 104 and the limiting lug boss 103 and facilitate the insertion of the insertion block 111 of the insulating block. This increase in spacing, while minimal, is necessary, particularly on the trajectory curve.

The function principle of the above arrangement is that when the left and

right push cylinders

92 and 94 push the left and

right sliders

91 and 93 to the left and right, respectively, the inner push pulleys 95 of the left and

right sliders

91 and 93 push the inner sides of the left and

right rails

104 and 104 from the inside to the outside, respectively, to force the rails 104 to be shifted from the inside to the outside. When the left and

right push cylinders

92 and 94 push the left and

right sliders

91 and 93 to the right and left, respectively, the outward-pushing pulleys 96 of the left and

right sliders

91 and 93 push the outer side of the left rail 104 and the outer side of the right rail 104 to the outside and the inside, respectively, to force the rails 104 to be shifted from the outside to the inside.

The various propulsion cylinders described herein may be oil, gas, or electromagnetic propulsion cylinders.

The above-described embodiments are intended to illustrate the invention more clearly and should not be construed as limiting the scope of the invention covered thereby, any modification of the equivalent should be considered as falling within the scope of the invention covered thereby.

Claims

1. The utility model provides an automatic place insulating block and fastening fastener's operation car, includes support body (1) of operation car and sets up wrong nail device (110) in support body (1) both sides below, its characterized in that: the insulating block sorting device (120) and the elastic strip homing device (130) are arranged on two sides of the frame body (1), the insulating block sorting device (120) is provided with an insulating block clamp (2), and the elastic strip homing device (130) is provided with an elastic strip clamping hand (3); during operation, the insulating block clamp (2) inserts the insulating block (109) between the rail bottom (105) of the steel rail and the limiting boss (103) of the iron base plate (102), the spike (108) pre-installed on the pre-installed sleeper (101) is unscrewed through the spike screwing device (110), the elastic strip clamp (3) presses the lower jaw (107) at the front end of the elastic strip (106) against the insulating block (109), and then the spike (108) is screwed through the spike screwing device (110).

2. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 1, wherein: the two sides of the frame body (1) of the operation vehicle are provided with a common longitudinal movement mounting frame (4) for mounting a homing device (130) of an elastic strip and a nail screwing device (110), and the longitudinal movement mounting frame (4) comprises a longitudinal movement top plate (5), a left side plate (6) and a right side plate (7) which are fixed below the two ends of the longitudinal movement top plate (5); the lower parts of the end parts of the two ends of the longitudinal moving top plate (5) are provided with sliding blocks (8), and the longitudinal moving mounting frame (4) can slide forwards or backwards on a longitudinal rail I (9) arranged on the frame body (1) through the sliding blocks (8) at the two ends of the longitudinal moving top plate (5); one end of the longitudinal moving top plate (5) is provided with a longitudinal moving motor (11), a driving gear (12) driven by the longitudinal moving motor (11) and a driving rack (13) arranged on the longitudinal rail I (9).

3. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 2, wherein: a rectangular lifting frame (14) is arranged in the longitudinal moving mounting frame (4), a left end plate (15) and a right end plate (16) are respectively arranged at the left end and the right end of the lifting frame (14), a groove plate (17) with a right-angle notch is respectively and vertically arranged at the front and the back of the inner sides of a left side plate (6) and a right side plate of the longitudinal moving mounting frame (4), a left front guide groove (18) and a left back guide groove (19) are formed in the inner side of the left side plate (6), a right front guide groove (21) and a right back guide groove (22) are formed in the inner side of the right side plate (7), the front end and the back end of the left end plate (15) of the lifting frame (14) are respectively positioned in the left front guide groove (18) and the left back guide groove (19) and can slide up and down, and the front end and back end of the right end plate (16) are respectively positioned in the; a first lifting propulsion cylinder (23) is arranged on a longitudinal moving top plate (5) of the longitudinal moving mounting frame (4), and a propulsion rod of the first lifting propulsion cylinder (23) is connected with the lifting frame (14).

4. The work vehicle for automatically placing the insulation blocks and fastening fasteners as claimed in claim 3, wherein: the elastic strip arranging device (130) further comprises a transverse pushing cylinder (26), a transverse sliding plate (24) connected with the transverse pushing cylinder and transverse sliding surfaces (25) which are arranged on front and rear frame beams of the lifting frame (14) and used for transversely sliding two ends of the transverse sliding plate (24), and the elastic strip clamping hands (3) are fixedly arranged on the lower bottom surface of the transverse sliding plate (24); the lifting frame (14) is provided with two sets of elastic strip homing devices (130) which are respectively arranged at two ends of the lifting frame (14), and the transverse propulsion cylinders (26) of the lifting frame are respectively arranged on a left end plate (15) and a right end plate (16) of the lifting frame (14).

5. The work vehicle for automatically placing the insulation blocks and fastening fasteners as claimed in claim 4, wherein: the elastic strip clamping hand (3) comprises a horizontal cylinder module (27) and two clamping jaws (28) which are L-shaped, telescopic parts are arranged at two ends of the horizontal cylinder module (27), the two clamping jaws (28) are respectively installed on the telescopic parts at two ends of the horizontal cylinder module (27), and elastic adding pieces are respectively arranged on the opposite inner sides of the lower parts of the two clamping jaws (28).

6. The work vehicle for automatically placing the insulation blocks and fastening fasteners as claimed in claim 4, wherein: the screw twisting device (110) is a screw twisting sleeve (31) with a polygonal inner wall section and driven by a motor; two left and right screw-on sleeves (31) are arranged between the two elastic strip clamping hands (3) below one lifting frame (14).

7. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 1, wherein: insulating block is picked dress device (120) and is had still by sideslip guide rail module (32) and vertical guide rail module (33), sideslip guide rail module (32) both ends are walked and are being set up on vertical track two (34) on support body (1), vertical guide rail module (33) can transversely slide on sideslip guide rail module (32), insulating block clamp (2) are installed down on vertical guide rail module (33) and can do vertical slip on vertical guide rail module (33) through installation body (35).

8. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 7, wherein: the working vehicle further comprises an insulating block and insulating block separating and supplying device (140) (140), wherein the insulating block and insulating block separating and supplying device (140) comprises a vibrating disc (36), the vibrating disc (36) is provided with a vibrating channel I (37) and a vibrating channel II (38), and the two vibrating channels are in a double-spiral shape in a clockwise or anticlockwise rotation direction in the vibrating disc (36); the vibration channel I (37) and the vibration channel II (38) are provided with a different-direction block rejecting plate (39) positioned above the two vibration channels in the vibration disc (36); the first vibration channel (37) and the second vibration channel (38) are respectively provided with a first output port (41) and a second output port (42) outside the vibration disk (36).

9. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 8, wherein: the insulating block and insulating block supply device (140) (140) further comprises a supply board (44) capable of sliding transversely; the branch supply plate (44) is provided with a branch supply pushing cylinder (45) for pushing the branch supply plate (44) to transversely move upwards the steel rail; the supply dividing plate (44) is divided into a supply dividing section (46) and a supply blocking section (47), the supply dividing section (46) is provided with a supply dividing groove I (48) and a supply dividing groove II (49), and the supply dividing groove I (48) and the supply dividing groove II (49) can be in butt joint with a first output port (41) and a second output port (42) of the two vibration channels outside the vibration disc (36); after the first supply groove (48) and the second supply groove (49) are connected to the insulating block (109), the supply plate (44) slides upwards the steel rail transversely, and the edge of the supply blocking section (47) can block the first output port (41) and the second output port (42).

10. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 1, wherein: the working vehicle also comprises a vehicle body centering device (150) which is arranged at the two ends of the working vehicle and is used for centering and centering the vehicle body, the vehicle body centering device (150) comprises a lifting type installation mechanism, wherein the lifting type installation mechanism comprises a first left sleeve column (51) and a first right sleeve column (52) with the upper ends fixed on the frame body (1) of the operation vehicle, a first left lifting column (53) and a first right lifting column (54) which are respectively positioned in the first left sleeve column (51) and the first right sleeve column (52), a first left slide rail seat (55) and a first right slide rail seat (56) which are respectively fixed at the lower ends of the first left lifting column (53) and the first right lifting column (54), and a second left lifting propulsion cylinder (57) and a second right lifting propulsion cylinder (58) which are respectively connected with the left end of the first left slide rail seat (55) and the right end of the right slide rail seat (56), wherein the upper ends of the second left lifting propulsion cylinder (57) and the second right lifting propulsion cylinder (58) are respectively installed on the frame body (1).

11. The work vehicle for automatically placing an insulating block and fastening a fastener according to claim 10, wherein: the left slide rail seat (55) and the right slide rail seat (56) are respectively provided with a front side plate (59) and a rear side plate (61) which are symmetrically arranged in front and back; a distance is reserved between the front side plate (59) and the rear side plate (61) to form a push arm groove (62), and the front side plate (59) and the rear side plate (61) are fixedly connected at the upper edges of the front side plate (59) and the rear side plate (61) through an upper connecting plate (63); the lower bottom edges of the front side plate (59) and the rear side plate (61) are provided with lower connecting plates, the lower connecting plates extend forwards from the lower bottom edge of the front side plate (59) to form a front sliding rail edge (64), and the lower connecting plates extend backwards from the lower bottom edge of the rear side plate (61) to form a rear sliding rail edge (65).

12. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 11, wherein: the vehicle body centering device (150) further comprises an inner supporting mechanism for pushing the left side steel rail (104) or the right side steel rail (104) from inside to outside; the inner supporting mechanism comprises a front supporting column (66) and a rear supporting column (67) of which the upper ends are symmetrically fixed on a frame body (1) of the operation vehicle, a fulcrum shaft (68) longitudinally arranged at the lower ends of the front supporting column (66) and the rear supporting column (67) and coaxial mandrel holes, a rotating arm (69) arranged on the fulcrum shaft (68) between the front supporting column (66) and the rear supporting column (67) through the mandrel holes, a centering propulsion cylinder (71), a left propulsion arm (72), a right propulsion arm (73), a left slider (74), a right slider (75), a left supporting wheel (76) and a right supporting wheel (77), wherein the centering propulsion cylinder (71) is connected with the upper end of the rotating arm (69) through a rotating shaft I (78), the right end of the left propulsion arm (72) is connected with the rotating arm (69) between the rotating shaft I (78) and the rotating shaft (68) through a rotating shaft II (79), and the left end of the left supporting arm is connected with the left slider (74) through a rotating shaft seat and a rotating, the left end of the right push arm (73) is connected with the lower end of a rotating arm (69) below the fulcrum (68) through a rotating shaft III (81), and the right end of the right push arm is connected with a right slider (75) through a rotating shaft seat and a rotating shaft which are arranged on the right slider (75); the left supporting wheel (76) and the right supporting wheel (77) are respectively arranged on the parts at the lower ends of the left slider (74) and the right slider (75);

the maximum distance from the left outer peripheral surface of the left support wheel (76) to the right outer peripheral surface of the right support wheel (77) is equal to the distance from the inner side surface of the rail head of the left steel rail to the inner side surface of the rail head of the left steel rail.

13. The work vehicle for automatically placing an insulating block and fastening a fastener according to claim 12, wherein: the upper ends of the left slider (74) and the right slider (75) are respectively provided with a transverse sliding plate (24), the front side of the top surface of the transverse sliding plate (24) is provided with a sliding groove (83) with a backward opening, the rear side of the top surface is provided with a sliding groove (83) with a forward opening, the front sliding rail edge (64) of the front side plate (59) is positioned in the sliding groove (83) on the front side of the top surface of the transverse sliding plate (24), and the rear sliding rail edge (65) of the rear side plate (61) is positioned in the sliding groove (83) on the rear side of the top surface of the transverse sliding plate (24).

14. The work vehicle for automatically placing the insulation blocks and fastening the fasteners as claimed in claim 1, wherein: the operation vehicle further comprises a steel rail micro-moving device (160) for forcing the rail to generate recoverable elastic deformation, wherein the steel rail micro-moving device (160) comprises a lifting beam frame, the lifting beam frame comprises a left sleeve column II (84) and a right sleeve column II (85) with the upper ends fixed on two sides of the operation vehicle frame body (1), a left lifting column II (86) and a right lifting column II (87) with the upper ends respectively positioned in the left sleeve column II (84) and the right sleeve column II (85), a cross beam (88) with two ends fixed at the lower ends of the left lifting column II (86) and the right lifting column II (87), and a lifting propulsion cylinder III (89) with the upper ends installed on the operation vehicle frame body (1) and the lower ends connected with the middle part of the cross beam (88).

15. The work vehicle for automatically placing an insulating block and fastening a fastener according to claim 14, wherein: the steel rail micro-moving device (160) further comprises a transverse rail pushing mechanism, the transverse rail pushing mechanism comprises a left sliding seat (91), a left pushing cylinder (92), a right sliding seat (93) and a right pushing cylinder (94), the left sliding seat (91) and the right sliding seat (93) are respectively installed at the left end and the right end of the lower bottom surface of the cross beam (88) and can slide left and right on the lower bottom surface of the cross beam (88), and the left pushing cylinder (92) and the right pushing cylinder (94) are installed on the cross beam (88) and respectively control the lower left sliding seat (91) and the lower right sliding seat (93); the lower bottom surfaces of the left sliding seat (91) and the right sliding seat (93) are respectively provided with an inner pushing pulley (95) and an outer pushing pulley (96), and the distance between the inner pushing pulley (95) and the outer pushing pulley (96) is larger than the width of a rail head of a steel rail.