CN112962666A - Prefabricated pipe gallery moving device and construction method - Google Patents

Abstract

The application relates to a prefabricated mobile device and construction method for piping lane, it relates to a piping lane construction equipment, and it is including setting up the removal base in the foundation ditch, be equipped with the removal frame that is used for accepting the piping lane on the removal base, be equipped with the power component that the drive removed the frame and removed on the removal base, it is equipped with the gallows that is used for lifting by crane the piping lane to slide on the removal base, be equipped with the locating component who is used for fixed gallows on the gallows, be equipped with the drive assembly who is used for the drive to remove the base removal on the removal base. The application has the effects of reducing waste materials, saving energy and reducing emission.

Description

Prefabricated pipe gallery moving device and construction method

Technical Field

The application relates to construction equipment of a pipe gallery, in particular to a moving device for a prefabricated pipe gallery and a construction method.

Background

The utility tunnel is a structure and accessory facilities built under the city for accommodating two or more types of city engineering pipelines. The urban engineering pipelines which are stored comprise water supply, reclaimed water, rainwater, sewage, natural gas, heat, power, communication and the like. The site building has a lot of inconveniences, uses assembled piping lane step by step now, and the piping lane is prefabricated in advance, to the site Assembly, and piping lane inside is equipped with the connecting hole, wears wire rope in the connecting hole, finally tightens up wire rope and links together a plurality of piping lanes and form the underground pipe gallery.

Chinese patent with grant publication number CN209144866U discloses a prefabricated piping lane propelling movement construction equipment, the track is laid in the recess of presser, prefabricated piping lane is placed on appurtenance, the presser is connected with appurtenance, appurtenance and prefabricated piping lane pass through the presser and push into in the mount, the left side of mount, all be equipped with the laser displacement meter on right side and the upper portion inside wall, the symmetry is equipped with two deviation rectifying devices on the inside wall of mount left and right sides, two deviation rectifying devices of each side set up the outside at the laser displacement meter respectively, be equipped with the guide arm of rectifying on the deviation rectifying device, the steam generator is simple in structure, the operation is convenient, safety in utilization, construction speed can be accelerated, can greatly practice thrift labour and engineering time, low in cost, accelerate the construction rhythm, satisfy green economic environmental protection's construction requirement, be applicable to the construction of prefabricated piping lane of undercut method.

With respect to the related art in the above, the inventors consider that there are drawbacks in that; after the excavation of the foundation pit, lay the track in the foundation pit, install appurtenance on the track again, hoist prefabricated piping lane to appurtenance on, utilize the pressure gauge to promote appurtenance and drive prefabricated piping lane and remove to assemble prefabricated piping lane, but in the use, appurtenance just is located prefabricated piping lane bottom after the use always, can't carry out reuse, causes the waste of material.

Disclosure of Invention

In order to improve the problem of wasting materials, the application provides a mobile device and construction method for prefabricated pipe gallery.

The application provides a prefabricated mobile device for piping lane adopts following technical scheme:

the utility model provides a prefabricated mobile device for piping lane, is including setting up the removal base in the foundation ditch, be equipped with the removal frame that is used for accepting the piping lane on the removal base, be equipped with the power component that the drive removed the frame removal on the removal base, it is equipped with the gallows that is used for lifting by crane the piping lane to slide on the removal base, be equipped with the locating component who is used for fixed gallows on the gallows, be equipped with the drive assembly who is used for the drive to remove the base removal on the removal base.

Through adopting above-mentioned technical scheme, when needs installation piping lane, at first remove the piping lane hoist and mount to removing the frame on, recycle the fixed piping lane of gallows, the power component drive removes the frame and removes, and the gallows is placed the piping lane in the foundation ditch, utilizes locating component to fix the gallows, and drive component drive removes the base and removes to can used repeatedly removes the base, be favorable to reducing extravagant material, energy saving and emission reduction.

Optionally, the moving frame includes a bottom plate slidably disposed on the moving base, a bearing plate is slidably disposed on the bottom plate, a mounting groove is disposed on the bottom plate, two support plates disposed opposite to each other are slidably disposed in the mounting groove, and a sliding inclined plane for supporting the bearing plate is disposed on each support plate;

the mounting groove is characterized in that a groove is formed in the bottom wall of the mounting groove, a moving motor is arranged in the groove, a lead screw is coaxially arranged on a motor shaft of the moving motor, two threads with opposite rotating directions are arranged on the lead screw, a sliding block connected with the threads in a threaded manner is arranged on the lead screw, and the sliding block extends out of the groove and is connected with the supporting plate.

Through adopting above-mentioned technical scheme, the hoist and mount at first remove the piping lane to accept on the board, recycle the gallows and lift by crane the piping lane, start the removal motor, the drive lead screw rotates to drive the slider and remove toward opposite direction, accept the board and move down along the inclined plane that slides, thereby accept the board and can break away from with the piping lane, conveniently shift out the bottom plate, shift out the space for the piping lane installation.

Optionally, the movable base comprises a movable bottom frame arranged in the foundation pit, and the bottom plate is arranged in the movable bottom frame in a sliding manner;

the power assembly comprises a power cylinder which is used for driving the bottom plate to move towards one side of the pipe gallery, the axis of the power cylinder is arranged along the length direction of the foundation pit, and a piston rod of the power cylinder is connected with the bottom plate.

Through adopting above-mentioned technical scheme, separate the back when piping lane and accept the board, utilize power cylinder to drive the bottom plate and remove to can conveniently place for the piping lane and provide the space.

Optionally, the hanging frame comprises a left upright and a right upright which are slidably arranged on the moving bottom frame, and the moving frame is arranged between the left upright and the right upright;

a left air cylinder is arranged in the left upright post, a left upright post is arranged on the end wall of a piston rod of the left air cylinder, a right air cylinder is arranged in the right upright post, a right upright post is arranged on the end wall of a piston rod of the right air cylinder, a cross beam is rotatably connected to the top wall of the left upright post, a hanging piece for hanging a pipe gallery is arranged on the cross beam, and an installation notch for the cross beam to extend into is formed in the right upright post;

be equipped with the rotation motor in the pole setting of a left side, the coaxial axis of rotation that is equipped with of motor shaft that rotates the motor, the coaxial rotating gear that is equipped with of axis of rotation, it is equipped with the dwang to rotate on the roof of pole setting of a left side, the dwang is connected with the crossbeam and passes the crossbeam, the coaxial driven gear who meshes with the rotating gear that is equipped with of dwang.

By adopting the technical scheme, when the pipe gallery needs to be moved onto the bearing plate, the rotating motor is rotated to drive the rotating shaft and the rotating gear to rotate, then the driven gear and the rotating rod are driven to rotate, and the cross beam is driven to rotate and move out of the installation notch, so that the space for moving the pipe gallery to the bearing plate can be made, and the pipe gallery can be conveniently installed on the bearing plate; when needs installation piping lane, rotate motor drive axis of rotation and transmitting gear and rotate to drive driven gear, dwang and crossbeam and rotate, utilize the gallows to lift by crane the piping lane this moment, the crossbeam reinserts in the installation breach, can fix the piping lane, utilizes left cylinder and right cylinder to drive left pole setting, right pole setting and crossbeam and move down, thereby drives the piping lane and moves down, and then can drive the piping lane and install in the foundation ditch, with this installation piping lane that can convenient and fast.

Optionally, a lifting hook is arranged on the top wall of the pipe gallery;

the lifting piece comprises at least two connecting strips, the connecting strips are arranged on the bottom wall of the cross beam, one ends of the connecting strips, far away from the cross beam, are provided with two opposite inclined rods, a connecting rope is arranged between the two inclined rods, and a lifting space for a lifting hook to extend into is reserved between the connecting rope and the two inclined rods;

the one end that the connecting strip was kept away from to the down tube is equipped with the connection motor, the coaxial connecting axle that is equipped with of motor shaft of connecting the motor, the coaxial removal gear that is equipped with of connecting axle, the one end that the connecting strip was kept away from to the down tube slides and is equipped with the removal rack with removal gear engagement, be equipped with the holding tank that supplies to connect the rope and place in the removal rack.

By adopting the technical scheme, the connecting rope is placed in the accommodating groove, so that the connecting rope can be fixed, and the lifting hook can conveniently enter or move out of the lifting space; when the crossbeam rotates and moves into in the installation breach, drive the connecting strip, down tube and removal rack rotate, thereby the lifting hook can get into and lift by crane in the space, move to the installation breach in the crossbeam, remove after the frame breaks away from the piping lane, at this moment, connect motor drive connecting axle and removal gear revolve, then drive the removal rack and remove to keeping away from connecting rope one side and remove, expose the connection rope, the connection rope colludes the lifting hook, the piping lane is along with accepting the board downstream, the connection rope warp thereupon, lift by crane the piping lane through the connection rope, replace the mode that the lifting hook was colluded to the removal rack, reduce the possibility that the removal rack took place to skid, be favorable to increasing the stability that the piping lane moved down.

Optionally, the locating component is including setting up the removal seat on left stand and right stand lateral wall respectively, it has a location motor at least to be equipped with in the removal seat, the coaxial montant that is equipped with of motor shaft of location motor, the montant is coaxial to be equipped with power gear, it is equipped with the output gear with power gear engagement to remove the seat internal rotation, output gear female connection has the location spike of contradicting with the foundation ditch diapire, it is equipped with the rectangular rod of being connected with the location spike slides to remove the seat.

Through adopting above-mentioned technical scheme, place back in the foundation ditch when the piping lane, start positioning motor, drive montant and power gear rotate to drive output gear and rotate, and then drive the location spike and move down, location spike and foundation ditch diapire contact, thereby can fix left stand and right stand, with this can conveniently will remove the base and remove.

Optionally, the drive assembly drives the cylinder and drives the cylinder including setting up the left side on moving the base and driving the cylinder with the right side, the end wall that drives the cylinder piston rod on a left side is connected with left stand, a left side drives the cylinder setting and keeps away from one side of power cylinder at left stand, it is connected with right stand to drive the cylinder piston rod end wall on the right side, it sets up the one side of keeping away from power cylinder at right stand to drive the cylinder setting on the right side.

Through adopting above-mentioned technical scheme, after left stand and right stand are fixed in the foundation ditch, start that a left side drives actuating cylinder and right side and drives actuating cylinder to the drive removes the base and removes, and then can accept next piping lane, with this a plurality of piping lanes of installation.

The application further provides a construction method of the mobile device for the prefabricated pipe gallery, which adopts the following technical scheme:

a construction method for implementing a mobile device for a prefabricated pipe gallery comprises the following steps:

s1, excavating a foundation pit, and placing the movable base on the bottom wall of the foundation pit;

s2, starting a rotating motor, driving a rotating shaft and a rotating gear to rotate by the rotating motor, driving a driven gear, a rotating rod and a cross beam to rotate, moving the cross beam out of the installation gap, placing the pipe gallery on the bearing plate by hoisting, driving the rotating shaft and the rotating gear to rotate reversely by the rotating motor, driving the driven gear, the rotating rod and the cross beam to rotate reversely, inserting the lifting hook into the hoisting space, and inserting the cross beam into the installation gap;

s3, starting a connecting motor, driving a connecting shaft and a moving gear to rotate by the connecting motor, so as to drive a moving rack to move, exposing a connecting rope, and hooking the connecting rope with a lifting hook;

s4, the moving motor drives the screw rod to rotate to drive the two sliding blocks to slide, the bearing plate moves towards the mounting groove along the sliding inclined plane, the connecting rope is hooked with the lifting hook to fix the pipe gallery in the air, and the power cylinder drives the bottom plate to move and make the pipe gallery move downwards;

s5, driving the left vertical rod and the right vertical rod to move downwards by the left air cylinder and the right air cylinder, driving the cross beam and the pipe gallery to move downwards, and fixing the cross beam and the pipe gallery on the bottom wall of the foundation pit;

s6, the positioning motor drives the vertical rod and the power gear to rotate, the output gear is driven to rotate, the positioning supporting foot is moved out and abutted against the bottom wall of the foundation pit, the left driving cylinder and the right driving cylinder are started, and piston rods of the left driving cylinder and the right driving cylinder retract and reset to drive the moving base to move;

s7, starting a positioning motor, driving the vertical rod and the power gear to rotate reversely by the positioning motor, driving the output gear to rotate, moving the positioning supporting foot into the moving seat, driving the piston rod to extend out by the left driving cylinder and the right driving cylinder, and driving the left upright post and the right upright post to move to the next pipe gallery position;

s8, starting the rotating motor to rotate, driving the rotating shaft and the rotating gear to rotate by the rotating motor, driving the driven gear, the rotating rod and the cross beam to rotate, and enabling the cross beam to move out of the installation notch to expose a moving space for receiving the next pipe gallery.

Through adopting above-mentioned technical scheme, drive actuating cylinder through a left side and drive actuating cylinder removal underframe removal with the right side and remove to can used repeatedly the removal frame, be favorable to reducing extravagant material, energy saving and emission reduction.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pipe gallery is hoisted and moved to the moving frame, the pipe gallery is hoisted by the hoisting frame and is fixed, the power assembly drives the moving frame to move away to make the pipe gallery move downwards to a required space, the pipe gallery moves downwards and is placed in the foundation pit by the hoisting frame, the hoisting frame is fixed by the positioning assembly, and the driving assembly drives the moving base to move, so that the moving base can be repeatedly used, the waste of materials can be reduced, and energy conservation and emission reduction are facilitated;

2. the movable motor is utilized to drive the screw rod to rotate, the sliding block moves, the supporting plate can move in opposite directions, the bearing plate can move downwards, and the power cylinder drives the bottom plate to move, so that the bottom plate can be conveniently and quickly moved away, and a space is provided for placing a pipe gallery;

3. after the lifting hook hooks into the lifting space, the connecting shaft and the moving gear are driven to rotate by the connecting motor, so that the moving rack is driven to move, the connecting rope is exposed and connected, and the possibility that the lifting hook slides on the moving rack is facilitated by the connecting rope and the lifting hook.

Drawings

Fig. 1 is a schematic structural diagram of a prefabricated pipe gallery moving device according to an embodiment of the present application.

Fig. 2 is a schematic view of an exploded structure between a bearing plate and a bottom plate in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a hanger in the embodiment of the present application.

Fig. 4 is a schematic structural view of a hanger in the embodiment of the present application.

Fig. 5 is a sectional view taken along line a-a of fig. 1.

Fig. 6 is a schematic structural diagram of a driving assembly in an embodiment of the present application.

Description of reference numerals: 1. moving the base; 10. a moving bottom frame 0; 11. a guide rail; 12. a connecting plate; 2. a pipe gallery; 20. lifting a lifting hook; 3. a movable frame; 30. a base plate; 31. a bearing plate; 32. mounting grooves; 33. a support plate; 34. a sliding slope; 35. a groove; 36. a moving motor; 37. a lead screw; 38. a thread; 39. a slider; 4. a power assembly; 40. a power cylinder; 5. a hanger; 50. a left upright post; 51. a right upright post; 52. a left cylinder; 53. a right cylinder; 54. a cross beam; 55. a hanger; 56. installing a notch; 57. rotating the motor; 58. a rotating shaft; 59. a rotating gear; 500. rotating the rod; 501. a driven gear; 502. a connecting strip; 503. connecting sleeves; 504. a connecting chain; 505. hooking; 506. a diagonal bar; 507. connecting ropes; 508. hoisting a space; 509. connecting a motor; 510. a connecting shaft; 511. a moving gear; 512. moving the rack; 513. accommodating grooves; 514. a left upright stanchion; 515. a right upright rod; 516. a limiting cylinder; 517. a stop lever; 518. a support ring; 519. a slider; 6. a positioning assembly; 60. a movable seat; 61. positioning a motor; 62. a vertical rod; 63. a power gear; 64. an output gear; 65. positioning a supporting leg; 66. a rectangular bar; 67. a sliding groove; 7. a drive assembly; 70. a left drive cylinder; 71. and a right driving cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses mobile device for prefabricated piping lane.

Referring to fig. 1, a moving device for a prefabricated pipe gallery comprises a moving base 1 arranged in a foundation pit, wherein the moving base 1 is respectively provided with a moving frame 3 for receiving a pipe gallery 2 and a power assembly 4 for driving the moving frame 3 to move to one side far away from the installed pipe gallery 2, the moving base 1 is also provided with a hanging bracket 5 for hoisting the pipe gallery 2 in a sliding manner, the top wall of the pipe gallery 2 is pre-embedded with a lifting hook 20 connected with the hanging bracket 5, the hanging bracket 5 is provided with a positioning assembly 6 for fixing the hanging bracket 5, and the moving base 1 is provided with a driving assembly 7 for driving the moving base 1 to move; when needs installation piping lane 2, the hoist and mount lift by crane piping lane 2 and place on removing frame 3, rethread gallows 5 colludes lifting hook 20, piping lane 2 breaks away from with removing frame 3, power component 4 redrives and removes frame 3 to keeping away from one side removal of installing piping lane 2, expose the space that piping lane 2 was installed, gallows 5 downshifts piping lane 2 again and installs piping lane 2 in the foundation ditch, locating component 6 refastens gallows 5, 7 drive removal bases 1 of last drive component remove, thereby remove frame 3 and can accept next piping lane 2, with this can used repeatedly remove base 1, be favorable to extravagant material, energy-concerving and environment-protective.

Referring to fig. 1, the mobile base 1 includes a mobile base frame 10 disposed in a foundation pit, the mobile base frame 10 includes two oppositely disposed guide rails 11 and a connecting plate 12 disposed between the two guide rails 11, and the connecting plate 12 is disposed opposite to the installed pipe gallery 2.

Referring to fig. 2, the movable frame 3 includes a bottom plate 30 slidably disposed between the two guide rails 11, a mounting groove 32 is disposed on a top wall of the bottom plate 30, a receiving plate 31 is slidably disposed on the bottom plate 30, one side of the receiving plate 31 extends out of the bottom plate 30, the other side thereof extends into the mounting groove 32, the depth of mounting groove 32 is greater than or equal to the thickness of accepting board 31, be equipped with recess 35 on the diapire of mounting groove 32, recess 35 can be three, be equipped with mobile motor 36 in the recess 35, mobile motor 36's the coaxial lead screw 37 that is equipped with of motor shaft, lead screw 37 sets up along the length direction of foundation ditch, be equipped with two opposite screw threads 38 of turning to on the lead screw 37, be equipped with the slider 39 with screw thread 38 threaded connection on the lead screw 37, the recess 35 is stretched out to one side that the lead screw 37 was kept away from to slider 39, it is equipped with backup pad 33 to slide on the tank bottom wall of mounting groove 32, the one side that the slider 39 stretches out recess 35 is connected with backup pad 33, be equipped.

Referring to fig. 2, the power assembly 4 includes a power cylinder 40 disposed on the connecting plate 12 and used for driving the bottom plate 30 to move to a side far away from the pipe gallery 2, a piston rod of the power cylinder 40 is connected with the bottom plate 30, and an axis of the power cylinder 40 is disposed along a length direction of the foundation pit; when the hoist and mount lift by crane piping lane 2 and remove, place piping lane 2 on accepting board 31, start moving motor 36, moving motor 36 drives lead screw 37 and rotates, lead screw 37 drives slider 39 and slides, two sliders 39 move to opposite direction, thereby accept board 31 and can move down along the inclined plane 34 that slides, gallows 5 lifts by crane piping lane 2 this moment, accept board 31 and move the back down, piping lane 2 breaks away from with accepting board 31, recycle power cylinder 40 and drive bottom plate 30 and remove, thereby can expose the space of 2 installations of piping lane, easy to assemble piping lane 2.

Referring to fig. 3, the hanger 5 includes a left column 50 and a right column 51 disposed along the height direction of the pipe gallery 2, the left column 50 is disposed on one of the guide rails 11, the right column 51 is disposed on the other guide rail 11, and the bottom plate 30 is disposed between the left column 50 and the right column 51.

Referring to fig. 3, a left air cylinder 52 is arranged in the left upright column 50, a left upright rod 514 is arranged on the end wall of a piston rod of the left air cylinder 52, a rotating rod 500 is rotatably arranged on the top wall of the left upright rod 514, a cross beam 54 is arranged on the rotating rod 500, a hanging piece 55 is arranged on the cross beam 54, the cross beam 54 is arranged on the top wall of the left upright rod 514, a driven gear 501 is coaxially arranged at one end of the rotating rod 500, which penetrates through the cross beam 54, a rotating motor 57 is arranged on the left upright rod 514, a rotating shaft 58 is coaxially arranged on a motor shaft of the rotating.

Referring to fig. 3, a right cylinder 53 is arranged in the right upright 51, a piston rod of the right cylinder 53 extends out of the right upright 51 and is provided with a right upright 515, an installation notch 56 for the beam 54 to extend into is arranged on a side wall of the right upright 515, a limit cylinder 516 is arranged on a top wall of the right upright 515, a stop lever 517 for sealing the installation notch 56 is arranged on an end wall of a piston rod of the limit cylinder 516, and one end of the stop lever 517, which is far away from the limit cylinder 516, extends into the installation notch 56.

Referring to fig. 3, the side walls of the left upright 514 and the right upright 515 are provided with support rings 518 for supporting the cross beam 54, and the cross beam 54 is supported by the support rings 518, which is beneficial to reducing the possibility of the cross beam 54 lifting the pipe gallery 2 to generate inclined deformation; when the pipe rack 2 needs to be moved to the bearing plate 31, the limiting cylinder 516 drives the stop lever 517 to move upwards to expose the installation gap 56, the rotating motor 57 is used for driving the rotating shaft 58, the rotating gear 59, the driven gear 501, the rotating rod 500 and the cross beam 54 to rotate, and the cross beam 54 is moved out of the installation gap 56, so that a placing space for placing the pipe rack 2 on the bearing plate 31 can be reserved, and the pipe rack 2 is convenient to place on the bearing plate 31.

Referring to fig. 3 and 4, the hanging part 55 includes at least two connecting strips 502, each connecting strip 502 includes a connecting sleeve 503 connected to the bottom wall of the cross beam 54, a connecting chain 504 is disposed on the bottom wall of the cross beam 54 and inside the connecting sleeve 503, one end of the connecting chain 504 away from the cross beam 54 extends out of the connecting sleeve 503 and is rotatably provided with a hook 505, one end of the hook 505 away from the cross beam 54 is hooked with two oppositely-arranged oblique rods 506, a connecting rope 507 is disposed between the two oblique rods 506, and a hanging space 508 for the hanging hook 20 to extend into is left between the connecting rope 507 and the two oblique rods 506.

Referring to fig. 3 and 4, a connecting motor 509 is arranged at one end of the inclined rod 506 far away from the hook 505, a connecting shaft 510 is coaxially arranged on a motor shaft of the connecting motor 509, the axis of the connecting shaft 510 is parallel to the axis of the connecting rope 507, a moving gear 511 is coaxially arranged on the connecting shaft 510, a moving rack 512 is slidably arranged at one end of the inclined rod 506 far away from the connecting strip 502, the moving rack 512 is slidably connected with the inclined rod 506 through a sliding block 519, the moving rack 512 is meshed with the moving gear 511, and an accommodating groove 513 for placing the connecting rope 507 is arranged in the moving rack 512; after the pipe gallery 2 is placed on the bearing plate 31, the rotating motor 57 drives the rotating shaft 58, the rotating gear 59, the driven gear 501, the rotating rod 500 and the cross beam 54 to rotate reversely so as to drive the connecting sleeve 503 to rotate, at the moment, the connecting rope 507 is limited by the moving rack 512, so that the hoisting space 508 can be fixed, the hoisting hook 20 can be conveniently hooked into the hoisting space 508, and the possibility that the hoisting hook 20 cannot be hooked into the hoisting space 508 due to the fact that the connecting rope 507 shakes is reduced; the crossbeam 54 finally changes over into installation breach 56, and spacing cylinder 516 drive pin 517 removes, and pin 517 inserts in installation breach 56, carries on spacingly to crossbeam 54, is favorable to reducing the stability that crossbeam 54 lifted by crane piping lane 2.

Referring to fig. 3 and 4, after the crossbeam 54 is fixed, connect motor 509 drive connecting axle 510 and removal gear 511 and rotate to drive and remove rack 512 and remove, and then can expose and connect rope 507, connect rope 507 and collude lifting hook 20, reduce the possibility that takes place to skid between lifting hook 20 and the removal rack 512, increase the stability of removal piping lane.

Referring to fig. 2 and 3, the moving motor 36 drives the screw 37 to rotate, the two support plates 33 move in opposite directions, the receiving plate 31 moves downward again, the power cylinder 40 drives the bottom plate 30 to move, and the left cylinder 52 and the right cylinder 53 drive the cross beam 54 to move downward, so as to drive the pipe gallery 2 to move downward, thereby smoothly installing the pipe gallery 2 in the foundation pit.

Referring to fig. 3 and 4, the left air cylinder 52 and the right air cylinder 53 drive the cross beam 54 to move downwards continuously, the lifting hook 20 is separated from the connecting rope 507, the lifting hook 20 moves into the lifting space 508, the connecting motor 509 is started again, the connecting shaft 510 and the moving gear 511 are driven to rotate, the moving rack 512 is driven to move, the connecting rope 507 is sleeved in the accommodating groove 513, the connecting rope 507 can be fixedly connected, the position of the lifting space 508 is limited, the possibility that the lifting hook 20 hooks the connecting rope 507 when moving out of the lifting space 508 is reduced, and the convenience that the lifting hook 20 is separated from the lifting space 508 is improved.

Referring to fig. 5, the positioning assembly 6 includes a moving seat 60 respectively disposed on the side walls of the left upright 50 and the right upright 51, at least one positioning motor 61 is disposed in the moving seat 60, the positioning motor 61 can be one, a vertical rod 62 is coaxially disposed on a motor shaft of the positioning motor 61, a power gear 63 is coaxially disposed on the vertical rod 62, a rectangular rod 66 is disposed on the inner top wall of the moving seat 60, an axis of the rectangular rod 66 is parallel to an axis of the vertical rod 62, an output gear 64 engaged with the power gear 63 is rotatably disposed on the inner bottom wall of the moving seat 60, a positioning supporting foot 65 abutting against the bottom wall of the foundation pit is connected to the internal thread 38 of the output gear 64, and a sliding groove 67 for the rectangular rod 66 to extend.

Referring to fig. 5 and 6, the driving assembly 7 includes a left driving cylinder 70 and a right driving cylinder 71, the left driving cylinder 70 is disposed on one of the guide rails 11, an end wall of a piston rod of the left driving cylinder 70 is connected with the left upright 50, the left driving cylinder 70 is disposed on a side of the left upright 50 away from the power cylinder 40, the right driving cylinder 71 is disposed on the other guide rail 11, an end wall of a piston rod of the right driving cylinder 71 is connected with the right upright 51, and the right driving cylinder 71 is disposed on a side of the right upright 51 away from the power cylinder 40; after pipe gallery 2 is installed in the foundation ditch, positioning motor 61 drives montant 62 and power gear 63 and rotates to drive output gear 64 and rotate, thereby can drive location spike 65 and shift out and support on the diapire of foundation ditch, drive cylinder 70 and drive cylinder 71 piston rod on the left side and reset, thereby drive two guide rails 11, connecting plate 12 and bottom plate 30 and to keeping away from the one side removal that has installed pipe gallery 2, thereby it can continue to accept next pipe gallery 2 to accept board 31.

Referring to fig. 5 and 6, the positioning motor 61 drives the vertical rod 62, the power gear 63 and the output gear 64 to rotate, so as to drive the positioning supporting foot 65 to move upwards, the left driving cylinder 70 and the right driving cylinder 71 extend the piston rod again, so as to drive the left upright post 50, the right upright post 51 and the cross beam 54 to move, so that the lifting hook 20 can be separated from the lifting space 508, and the cross beam 54 can lift the next pipe gallery 2, which is beneficial to continuously and effectively moving the pipe gallery 2.

The implementation principle of the mobile device for the prefabricated pipe gallery in the embodiment of the application is as follows: will remove base 1 and place in the foundation ditch, lift by crane piping lane 2 and place on removing frame 3, lift by crane piping lane 2 through gallows 5, piping lane 2 breaks away from with removing frame 3, power component 4 redrives and removes frame 3 removal, gallows 5 installs piping lane 2 in the foundation ditch, locating component 6 fixes gallows 5 in the foundation ditch again, drive component 7 redrives and removes base 1 and remove, with this can used repeatedly remove base 1, reduce extravagant material, energy-concerving and environment-protective.

The embodiment of the application further discloses a construction method for implementing the mobile device for the prefabricated pipe gallery, which comprises the following steps:

s1, excavating a foundation pit, tamping the foundation pit, and placing the movable base 1 on the bottom wall of the foundation pit;

s2, the limiting cylinder 516 drives the stop lever 517 to move, the stop lever 517 moves out of the installation notch 56, the rotating motor 57 is started, the rotating motor 57 drives the rotating shaft 58 and the rotating gear 59 to rotate, the driven gear 501, the rotating rod 500 and the cross beam 54 are driven to rotate, the cross beam 54 moves out of the installation notch 56, a placing space of the pipe gallery 2 is reserved, the pipe gallery 2 is placed on the bearing plate 31 in a hoisting mode, the rotating motor 57 rotates reversely, the rotating shaft 58 and the rotating gear 59 are driven to rotate reversely, the driven gear 501, the rotating rod 500 and the cross beam 54 are driven to rotate reversely, the lifting hook 20 is inserted into the hoisting space 508, and the cross beam 54 is inserted;

s3, starting a connecting motor 509, wherein the connecting motor 509 drives a connecting shaft 510 and a moving gear 511 to rotate, so that a moving rack 512 is driven to move, a connecting rope 507 is exposed, and the connecting rope 507 is hooked with the lifting hook 20, so that the possibility that the lifting hook 20 slips on the rack can be reduced, and the stability of the lifting pipe gallery 2 is improved;

s4, the moving motor 36 drives the screw rod 37 to rotate to drive the two sliding blocks 39 to slide, the bearing plate 31 moves into the mounting groove 32 along the sliding inclined surface 34, the connecting rope 507 hooks the lifting hook 20 to fix the pipe gallery 2 in the air, the bearing plate 31 is separated from the pipe gallery 2, and the power cylinder 40 drives the bottom plate 30 to move, so that a space for the pipe gallery 2 to move downwards can be reserved;

s5, the left air cylinder 52 and the right air cylinder 53 drive the left vertical rod 514 and the right vertical rod 515 to move downwards, the cross beam 54 and the pipe gallery 2 are driven to move downwards, the pipe gallery 2 is fixed on the bottom wall of the foundation pit, the left air cylinder 52 and the right air cylinder 53 drive the cross beam 54 to move downwards continuously, the lifting hook 20 is separated from the connecting rope 507, the connecting motor 509 is started again, the connecting shaft 510 and the moving gear 511 are driven to rotate, the moving rack 512 is driven to move, the connecting rope 507 is sleeved in the accommodating groove 513, the connecting rope 507 can be fixed, the position of the lifting space 508 is limited, and the lifting hook 20 can be conveniently separated from the;

s6, the positioning motor 61 drives the vertical rod 62 and the power gear 63 to rotate, the output gear 64 is driven to rotate, the positioning supporting foot 65 is moved out and abutted against the bottom wall of the foundation pit, the left driving cylinder 70 and the right driving cylinder 71 are started, piston rods of the left driving cylinder 70 and the right driving cylinder 71 are retracted and reset, and the moving base 1 is driven to move, so that the moving base 1 can be reused, the waste of materials is reduced, energy is saved, and the environment is protected;

s7, starting the positioning motor 61, driving the vertical rod 62 and the power gear 63 to rotate reversely by the positioning motor 61, driving the output gear 64 to rotate, moving the positioning supporting foot 65 into the moving seat 60, driving the piston rods to extend by the left driving cylinder 70 and the right driving cylinder 71, and driving the left upright column 50 and the right upright column 51 to move to the next pipe gallery 2;

and S8, starting the rotating motor 57 to rotate, wherein the rotating motor 57 drives the rotating shaft 58 and the rotating gear 59 to rotate, the driven gear 501, the rotating rod 500 and the cross beam 54 are driven to rotate, and the cross beam 54 moves out of the installation notch 56 and is exposed to a moving space for receiving the next pipe gallery 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a prefabricated mobile device for piping lane which characterized in that: including setting up removal base (1) in the foundation ditch, be equipped with removal frame (3) that are used for accepting piping lane (2) on removal base (1), be equipped with power component (4) that the drive removed frame (3) and remove on removal base (1), it is equipped with gallows (5) that are used for lifting by crane piping lane (2) to slide on removal base (1), be equipped with locating component (6) that are used for fixed gallows (5) on gallows (5), be equipped with drive assembly (7) that are used for the drive to remove base (1) on removal base (1).

2. A prefabricated pipe gallery moving device according to claim 1, characterized in that: the movable frame (3) comprises a bottom plate (30) arranged on the movable base (1) in a sliding mode, a bearing plate (31) is arranged on the bottom plate (30) in a sliding mode, an installation groove (32) is formed in the bottom plate (30), two support plates (33) arranged oppositely are arranged in the installation groove (32) in a sliding mode, and a sliding inclined plane (34) used for supporting the bearing plate (31) is arranged on each support plate (33);

be equipped with recess (35) on the diapire of mounting groove (32), be equipped with moving motor (36) in recess (35), the motor shaft of moving motor (36) is coaxial to be equipped with lead screw (37), be equipped with two on lead screw (37) and revolve to opposite screw thread (38), be equipped with slider (39) with screw thread (38) threaded connection on lead screw (37), slider (39) stretch out recess (35) and are connected with backup pad (33).

3. A prefabricated pipe gallery moving device according to claim 2, characterized in that: the movable base (1) comprises a movable bottom frame (10) arranged in a foundation pit, and the bottom plate (30) is arranged in the movable bottom frame (10) in a sliding mode;

power component (4) are including being used for driving power cylinder (40) that bottom plate (30) removed to keeping away from pipe gallery (2) one side, the axis of power cylinder (40) sets up along the length direction of foundation ditch, power cylinder (40) piston rod is connected with bottom plate (30).

4. A prefabricated pipe gallery moving device according to claim 3, characterized in that: the lifting frame (5) comprises a left upright (50) and a right upright (51) which are arranged on the moving bottom frame (10) in a sliding manner, and the moving frame (3) is arranged between the left upright (50) and the right upright (51);

a left air cylinder (52) is arranged in the left upright post (50), a left upright post (514) is arranged on the end wall of a piston rod of the left air cylinder (52), a right air cylinder (53) is arranged in the right upright post (51), a right upright post (515) is arranged on the end wall of a piston rod of the right air cylinder (53), a cross beam (54) is rotatably connected to the top wall of the left upright post (514), a hoisting piece (55) for hoisting the pipe gallery (2) is arranged on the cross beam (54), and a mounting notch (56) for the cross beam (54) to extend into is arranged on the right upright post;

be equipped with on left side pole setting (514) and rotate motor (57), the coaxial axis of rotation (58) that is equipped with of motor shaft that rotates motor (57), axis of rotation (58) are coaxial to be equipped with running gear (59), it is equipped with dwang (500) to rotate on the roof of left side pole setting (514), dwang (500) are connected and pass crossbeam (54) with crossbeam (54), dwang (500) are coaxial to be equipped with running gear (59) meshed driven gear (501).

5. A prefabricated pipe gallery mobile device according to claim 4, characterized in that: a lifting hook (20) is arranged on the top wall of the pipe gallery (2);

the lifting piece (55) comprises at least two connecting strips (502), the connecting strips (502) are arranged on the bottom wall of the cross beam (54), one ends, far away from the cross beam (54), of the connecting strips (502) are provided with two opposite inclined rods (506), a connecting rope (507) is arranged between the two inclined rods (506), and a lifting space (508) for a lifting hook (20) to extend into is reserved between the connecting rope (507) and the two inclined rods (506);

the one end that connecting strip (502) was kept away from in down tube (506) is equipped with connection motor (509), the coaxial connecting axle (510) that is equipped with of motor shaft of connecting motor (509), connecting axle (510) coaxial be equipped with removal gear (511), the one end that connecting strip (502) were kept away from in down tube (506) slides and is equipped with the removal rack (512) with removal gear (511) meshing, be equipped with holding tank (513) that supply to connect rope (507) and place in removal rack (512).

6. A prefabricated pipe gallery mobile device according to claim 5, characterized in that: locating component (6) is including setting up removal seat (60) on left stand (50) and right stand (51) lateral wall respectively, it has at least one location motor (61) to be equipped with in removal seat (60), the coaxial montant (62) that is equipped with of motor shaft of location motor (61), montant (62) are coaxial to be equipped with power gear (63), it is equipped with output gear (64) with power gear (63) meshing to remove seat (60) internal rotation, output gear (64) female connection has location spike (65) of contradicting with the foundation ditch diapire, be equipped with in removal seat (60) and slide rectangle pole (66) of being connected with location spike (65).

7. A prefabricated pipe gallery mobile device according to claim 6, characterized in that: drive assembly (7) drive cylinder (70) and right drive cylinder (71) including setting up left side on moving base (1), the end wall that drives cylinder (70) piston rod on a left side is connected with left stand (50), left side drives cylinder (70) and sets up the one side of keeping away from power cylinder (40) at left stand (50), right side drives cylinder (71) piston rod end wall and is connected with right stand (51), right side drives cylinder (71) and sets up the one side of keeping away from power cylinder (40) at right stand (51).

8. A construction method for implementing a prefabricated pipe gallery mobile device according to claim 7, characterized by comprising the following steps:

s1, excavating a foundation pit, and placing the movable base (1) on the bottom wall of the foundation pit;

s2, a rotating motor (57) is started, the rotating motor (57) drives a rotating shaft (58) and a rotating gear (59) to rotate, a driven gear (501) is driven, the rotating shaft (500) and a cross beam (54) are driven to rotate, the cross beam (54) moves out of an installation notch (56), a pipe gallery (2) is placed on a bearing plate (31) in a hoisting mode, the rotating motor (57) rotates reversely, the rotating shaft (58) and the rotating gear (59) are driven to rotate reversely, the driven gear (501), the rotating shaft (500) and the cross beam (54) are driven to rotate reversely, a hoisting hook (20) is inserted into a hoisting space (508), and the cross beam (54) is inserted into the installation notch (56);

s3, starting a connecting motor (509), wherein the connecting motor (509) drives a connecting shaft (510) and a moving gear (511) to rotate, so that a moving rack (512) is driven to move, a connecting rope (507) is exposed, and the connecting rope (507) is hooked with a lifting hook (20);

s4, a moving motor (36) drives a screw rod (37) to rotate to drive two sliding blocks (39) to slide, a bearing plate (31) moves into a mounting groove (32) along a sliding inclined plane (34), a connecting rope (507) is hooked with a lifting hook (20) to fix a pipe gallery (2) in the air, and a power cylinder (40) drives a bottom plate (30) to move;

s5, the left air cylinder (52) and the right air cylinder (53) drive the left vertical rod (514) and the right vertical rod to move downwards, drive the pipe gallery (2) to move downwards and fix the pipe gallery on the bottom wall of the foundation pit;

s6, the positioning motor (61) drives the vertical rod (62) and the power gear (63) to rotate, the output gear (64) is driven to rotate, the positioning supporting foot (65) is moved out and abutted against the bottom wall of the foundation pit, the left driving cylinder (70) and the right driving cylinder (71) are started, piston rods of the left driving cylinder (70) and the right driving cylinder (71) retract and reset, and the movable base (1) is driven to move;

s7, starting a positioning motor (61), driving a vertical rod (62) and a power gear (63) to rotate reversely by the positioning motor (61), driving an output gear (64) to rotate, moving a positioning supporting leg (65) into a moving seat (60), driving piston rods to extend by a left driving cylinder (70) and a right driving cylinder (71), and driving a left upright column (50) and a right upright column (51) to move towards the position of a next pipe gallery (2);

s8, starting the rotating motor (57) to rotate, driving the rotating shaft (58) and the rotating gear (59) to rotate by the rotating motor (57), driving the driven gear (501), the rotating rod (500) and the cross beam (54) to rotate, and moving the cross beam (54) out of the installation notch (56) to expose a moving space for receiving the next pipe gallery (2).

Images