CN215287782U - Traction device is restoreed to non-excavation pipeline inside lining - Google Patents

Abstract

The utility model discloses a draw gear is restoreed to non-excavation pipeline inside lining relates to draw gear technical field, including first frame, install in traction motor on the first frame, rotate connect in traction on the first frame wind a section of thick bamboo, set up in traction winds the device haulage rope on a section of thick bamboo, traction motor's output with traction is connected around a section of thick bamboo, one side of first frame is provided with the consignment subassembly, install device consignment board on the consignment subassembly, the consignment subassembly can be with the help of the traction force of device haulage rope with prosthetic devices traction to on the device consignment board and lifting to subaerial. The utility model discloses in, traction motor passes through the device haulage rope and leads prosthetic devices to on the device delivery board to pulling device delivery board moves up to reaching ground under the blockking of guide bar, can avoid contact such as prosthetic devices and pipeline mouth, export, reduced the degree of wear on prosthetic devices surface, need not manual operation.

Description

Traction device is restoreed to non-excavation pipeline inside lining

Technical Field

The utility model relates to a draw gear technical field, in particular to draw gear is restoreed to non-excavation pipeline inside lining.

Background

Compared with the traditional excavation type construction, the non-excavation construction does not obstruct traffic, does not damage greenbelts and vegetation, does not influence the surrounding environment and the normal life of residents, also saves the labor and material cost of a construction party, and accords with the theme of green and energy-saving building construction.

Need use inside lining prosthetic devices to restore after the underground piping is changed, because trenchless construction access & exit is less, constructor is difficult to get into, so need use the rope to pull prosthetic devices in the pipeline at the access & exit with the help of draw gear, but this kind of traction mode does not consider prosthetic devices's the problem of taking out after the completion of restoration, after prosthetic devices reachs the export, need to stop draw gear and change manual operation into and take out, otherwise can increase the friction between prosthetic devices and pipeline mouth and export soil stone, increase the wearing and tearing on device surface, consequently, for solving above-mentioned problem, this application has proposed a trenchless pipeline inside lining and has restoreed draw gear.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a draw gear is restoreed to trenchless pipeline inside lining to solve the problem that provides among the above-mentioned background art.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a draw gear is restoreed to non-excavation pipeline inside lining, includes first frame, install in traction motor on the first frame, rotate connect in traction on the first frame is around a section of thick bamboo, set up in traction is around the device haulage rope on a section of thick bamboo, traction motor's output with it is connected around a section of thick bamboo to pull, one side of first frame is provided with the delivery subassembly, install device delivery board on the delivery subassembly, the delivery subassembly can be with the help of the traction force of device haulage rope with prosthetic devices traction to lifting to subaerial on the device delivery board, the delivery subassembly includes anticollision unit and joint unit, the anticollision unit installation the top of device delivery board, the joint unit is installed the one end of device haulage rope.

Based on above-mentioned structure, through the delivery subassembly, the setting of anticollision unit and joint unit, can install the joint unit on prosthetic devices, traction motor drive is pull and is pull around a rotatory drive arrangement haulage rope of section of thick bamboo, thereby make device haulage rope pulling prosthetic devices remove to the device delivery board on, thereby utilize the delivery subassembly will make the device delivery board bearing prosthetic devices move up until reaching ground, can avoid prosthetic devices and pipeline mouth, contact such as export, the degree of wear on prosthetic devices surface has been reduced, and need not manual operation, the anticollision unit can provide shock-absorbing function, prosthetic devices directly hits the delivery subassembly and causes the damage when avoiding pulling.

Preferably, the consignment subassembly including set up in the second frame of first frame one side, install a plurality of direction slide rails on the lateral wall of second frame, equal sliding connection has the support balladeur train in the direction slide rail, the device consigns the board and installs a plurality ofly support balladeur train's bottom, the guide bar is installed at the top of device consignment board, the guiding hole has been seted up on the lateral wall of guide bar, install a plurality of first guide rings on the lateral wall of second frame, install the dead lever on the lateral wall of second frame, install the second guide ring on the dead lever, the one end of device haulage rope runs through in proper order second guide ring, a plurality of first guide ring the guiding hole.

Further, through the second frame, the direction slide rail, support the balladeur train, the guide bar, first guide ring, the dead lever, the setting of second guide ring, make device haulage rope pulling prosthetic devices remove to the device delivery board on, at this moment, the device haulage rope is at first guide ring, the guiding action of second guide ring etc. down with the guide bar block the action and pull the device delivery board down, make and support the balladeur train and upwards slide in the direction slide rail, thereby make the device delivery board bearing prosthetic devices and move up until reaching ground, can avoid prosthetic devices and pipeline mouth, contact such as export, the degree of wear on prosthetic devices surface has been reduced, need not manual operation.

Preferably, the anti-collision unit comprises a plurality of baffle mounting rods mounted on the side wall of the guide rod, a plurality of damping spring rods are mounted on the side wall of each baffle mounting rod, and a damping baffle is mounted at one end of each damping spring rod.

Further, through the setting of baffle installation pole, damping spring pole, damping baffle for after prosthetic devices removed to the device delivery board on, damping baffle can cushion it with the help of the elasticity of damping spring pole, prevents that prosthetic devices from directly hitting the guide bar and causing the damage, increases the lifting of the prosthetic devices of being convenient for between guide bar and prosthetic devices simultaneously.

Preferably, the joint unit including install in the couple connecting plate of device haulage rope one end, it is connected with a plurality of couples of pulling to rotate on the lateral wall of couple connecting plate, the couple connecting plate size sets up to be greater than the internal diameter of guiding hole.

Furthermore, the traction hook can be sequentially hung on the repairing device through the hook connecting plate and the traction hook, and then the traction hook is pulled by the device traction rope, so that the hook connecting plate is intercepted in front of the guide hole, and the repairing device is convenient to lift.

Preferably, a plurality of evenly distributed limiting jacks are formed in the side wall of the supporting sliding frame, a guiding sliding seat is mounted at the top of the guiding sliding rail, a guiding sliding rod is connected to the inside of the guiding sliding seat in a sliding mode, and limiting insertion blocks and pressing plates are mounted at two ends of the guiding sliding rod respectively.

Furthermore, through the arrangement of the limiting insertion hole, the guiding sliding seat, the guiding sliding rod, the limiting insertion block and the pressing plate, after the repairing device is lifted to the ground, the pressing plate can be timely pushed to drive the limiting insertion block to be inserted into the limiting hole through the guiding sliding rod, the supporting sliding frame is limited, the device carrying plate and the repairing device can be prevented from falling off after the traction motor stops rotating, and the repairing device can be conveniently taken down.

Preferably, the inside of pulling the couple has all been seted up the spring hook spout, all sliding connection has the anticreep spring hook in the spring hook spout.

Furthermore, through the arrangement of the spring hook sliding groove and the anti-falling spring hook, the anti-falling spring hook capable of sliding enables the anti-falling spring hook to slide into the spring hook sliding groove, then the traction hook is hung on the repairing device, then the anti-falling spring hook is loosened to enable the traction hook to be clamped on the repairing device, and the traction hook is prevented from falling off.

To sum up, the utility model discloses a technological effect and advantage:

1. the utility model discloses in, install the joint unit on prosthetic devices, traction motor drives device haulage rope pulling prosthetic devices, makes it remove to the device delivery board on, at this moment, the device haulage rope pulls the device delivery board under the blockking of guide bar, makes and supports the balladeur train and go up to slide to make the device delivery board bearing prosthetic devices move up until reacing ground, can avoid contact such as prosthetic devices and pipeline mouth, export, reduced the degree of wear on prosthetic devices surface, need not manual operation.

2. The utility model discloses in, after prosthetic devices removed to on the device delivery board, the shock attenuation baffle can cushion it with the help of the elasticity of shock attenuation spring beam, prevent that prosthetic devices from directly hitting the guide bar and causing the damage, simultaneously, after prosthetic devices lifting to ground, can in time promote to drive through the guide slide bar according to the clamp plate and insert spacing hole through the spacing inserted block of guide slide bar drive, it is spacing to support the balladeur train, can prevent that traction motor from stopping after device delivery board and prosthetic devices drop, the prosthetic devices of being convenient for take off.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective view of a traction device in this embodiment;

FIG. 2 is an enlarged perspective view of the consignment assembly;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 4 is an enlarged perspective view of the clamping unit;

fig. 5 is an enlarged perspective view of the collision avoidance unit.

In the figure: 1. a first frame; 2. a traction motor; 3. drawing the winding drum; 4. installing a traction rope; 5. a second frame; 6. a guide slide rail; 7. a support carriage; 8. a device consignment board; 9. a guide slide; 10. a guide slide bar; 11. limiting the inserting block; 12. a hook connecting plate; 13. a traction hook; 14. an anti-drop spring hook; 15. a guide bar; 16. a first guide ring; 17. a baffle mounting bar; 18. a shock absorbing spring rod; 19. a shock absorbing baffle; 20. a second guide ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b): referring to fig. 1-5, a traction device is restoreed to non-excavation pipeline inside lining that refers to, including first frame 1, install traction motor 2 in first frame 1, the rotation is connected and is drawn around a section of thick bamboo 3 in first frame 1, set up in drawing around device haulage rope 4 on a section of thick bamboo 3, traction motor 2's output with draw around a section of thick bamboo 3 and be connected, one side of first frame 1 is provided with the delivery subassembly, install device delivery board 8 on the delivery subassembly, the delivery subassembly can be with the help of the traction force of device haulage rope 4 with the help of the prosthetic devices of drawing on device delivery board 8 and lifting to subaerial, the delivery subassembly includes anticollision unit and joint unit, the top of anticollision unit installation device delivery board 8, joint unit installs the one end at device haulage rope 4.

Based on above-mentioned structure, through the delivery subassembly, the setting of anticollision unit and joint unit, can install the joint unit on prosthetic devices, traction motor 2 drive is pull and is pull around 3 rotatory drive arrangement haulage ropes 4 of section of thick bamboo, thereby make 4 pulling prosthetic devices of device haulage rope remove to device delivery board 8 on, thereby utilize the delivery subassembly will make 8 bearing prosthetic devices of device delivery board move up until arriving ground, can avoid prosthetic devices and pipeline mouth, contact such as export, the degree of wear on prosthetic devices surface has been reduced, and need not manual operation, the anticollision unit can provide shock-absorbing function, prosthetic devices directly hits the delivery subassembly and causes the damage when avoiding pulling.

As a preferred embodiment of this embodiment, the consignment component includes a second frame 5 disposed on one side of the first frame 1, a plurality of guide rails 6 are mounted on a side wall of the second frame 5, the support carriages 7 are slidably connected in the guide rails 6, the device consignment plate 8 is mounted at bottom ends of the support carriages 7, a guide rod 15 is mounted at top of the device consignment plate 8, a guide hole is formed on a side wall of the guide rod 15, a plurality of first guide rings 16 are mounted on a side wall of the second frame 5, a fixing rod is mounted on a side wall of the second frame 5, a second guide ring 20 is mounted on the fixing rod, one end of the device hauling rope 4 sequentially penetrates through the second guide ring 20, the first guide rings 16 and the guide hole, and this configuration has the advantage that the device hauling rope 4 pulls the repairing device to move to the device consignment plate 8, at this time, the device hauling rope 4 is disposed on the first guide rings 16, The device carrying plate 8 is pulled under the guiding action of the second guide ring 20 and the like and the blocking action of the guide rod 15, so that the support sliding frame 7 slides upwards in the guide sliding rail 6, the device carrying plate 8 supports the repairing device to move upwards until the repairing device reaches the ground, the contact between the repairing device and a pipeline opening, an outlet and the like can be avoided, the abrasion degree of the surface of the repairing device is reduced, and manual operation is not needed.

In this embodiment, the anticollision unit is including installing a plurality of baffle installation poles 17 on the guide bar 15 lateral wall, install a plurality of shock attenuation spring poles 18 on baffle installation pole 17's the lateral wall, shock attenuation baffle 19 is installed to a plurality of shock attenuation spring pole 18's one end, the benefit that sets up like this is, after prosthetic devices moved to device delivery board 8 on, shock attenuation baffle 19 can cushion it with the help of the elasticity of shock attenuation spring pole 18, prevent that prosthetic devices from directly hitting guide bar 15 and causing the damage, increase the lifting area between guide bar 15 and prosthetic devices simultaneously, the prosthetic devices's of being convenient for lifting.

In this embodiment, the joint unit is including installing in the couple connecting plate 12 of 4 one ends of device haulage rope, and it is connected with a plurality of couple 13 of pulling to rotate on the lateral wall of couple connecting plate 12, and the size of couple connecting plate 12 sets up to be greater than the internal diameter of guiding hole, and the benefit that sets up like this can articulate couple 13 on prosthetic devices in proper order, is pulled by device haulage rope 4 again to make couple connecting plate 12 intercept before the guiding hole, the prosthetic devices's of being convenient for lifting.

In this embodiment, a plurality of evenly distributed's spacing jack has all been seted up on the lateral wall of support balladeur train 7, direction slide 9 is all installed at the top of direction slide rail 6, equal sliding connection has direction slide bar 10 in the direction slide 9, spacing inserted block 11 and press the flitch are installed respectively to the both ends of direction slide bar 10, the benefit that sets up like this is, after prosthetic devices lifting to ground, can in time promote to press the flitch to drive spacing inserted block 11 through direction slide bar 10 and insert spacing hole, it is spacing to support balladeur train 7, can prevent that device consignment board 8 and prosthetic devices from dropping after traction motor 2 stalls, be convenient for prosthetic devices's taking off.

In this embodiment, draw couple 13's inside all seted up the spring hook spout, equal sliding connection has anticreep spring hook 14 in the spring hook spout, and the benefit that sets up like this is that slidable anticreep spring hook 14 makes it slide to the spring hook spout in, will draw couple 13 to articulate on prosthetic devices again, then loosens anticreep spring hook 14 and makes its chucking prosthetic devices, prevents to draw couple 13 to drop.

This practical theory of operation: this draw gear is when using, install the joint unit on prosthetic devices, traction motor 2 drive is pull around a section of thick bamboo 3 rotatory drive arrangement haulage rope 4 and is pull, thereby make 4 pulling prosthetic devices of device haulage rope remove to the device consignment board 8 on, at this moment, device haulage rope 4 is at first guide ring 16, under the guide effect of second guide ring 20 etc. and the effect of blockking down of guide bar 15, make support balladeur train 7 upwards slide in direction slide rail 6, thereby make the device consignment board 8 bear prosthetic devices and move up until reaching ground, can avoid prosthetic devices and pipeline mouth, contact such as export, the degree of wear on prosthetic devices surface has been reduced, need not manual operation.

After the repairing device moves to the device supporting plate 8, the damping baffle 19 can buffer the repairing device by means of the elasticity of the damping spring rod 18, the repairing device is prevented from directly hitting the guide rod 15 to cause damage, meanwhile, the stress area between the guide rod 15 and the repairing device is increased, the repairing device is convenient to lift, meanwhile, after the repairing device is lifted to the ground, the pressing plate can be timely pushed to drive the limiting insert block 11 to be inserted into the limiting hole through the guide slide rod 10, the supporting sliding frame 7 is limited, the device supporting plate 8 and the repairing device can be prevented from falling off after the traction motor 2 stops rotating, and the repairing device can be conveniently taken down.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a draw gear is restoreed to non-excavation pipeline inside lining, includes first frame (1), install in traction motor (2) on first frame (1), rotate connect in draw on first frame (1) around a section of thick bamboo (3), set up in draw device haulage rope (4) on a section of thick bamboo (3), its characterized in that: the output of traction motor (2) with it is connected around a section of thick bamboo (3) to pull, one side of first frame (1) is provided with the delivery subassembly, install device delivery board (8) on the delivery subassembly, the delivery subassembly can be with the help of the traction force of device haulage rope (4) with prosthetic devices traction to on device delivery board (8) and lifting to subaerial, the delivery subassembly includes anticollision unit and joint unit, the anticollision unit installation the top of device delivery board (8), the joint unit is installed the one end of device haulage rope (4).

2. The trenchless pipeline lining rehabilitation traction device of claim 1, wherein: the consignment subassembly including set up in second frame (5) of first frame (1) one side, install a plurality of direction slide rails (6) on the lateral wall of second frame (5), equal sliding connection has support balladeur train (7) in direction slide rail (6), install in a plurality of device consignment board (8) support the bottom of balladeur train (7), guide bar (15) are installed at the top of device consignment board (8), the guiding hole has been seted up on the lateral wall of guide bar (15), install a plurality of first guide ring (16) on the lateral wall of second frame (5), install the dead lever on the lateral wall of second frame (5), install second guide ring (20) on the dead lever, the one end of device haulage rope (4) runs through in proper order second guide ring (20), a plurality of first guide ring (16), The guide hole.

3. The trenchless pipeline lining rehabilitation traction device of claim 2, wherein: the anticollision unit is including installing in a plurality of baffle installation pole (17) on guide bar (15) lateral wall, install a plurality of shock attenuation spring beam (18) on the lateral wall of baffle installation pole (17), it is a plurality of shock attenuation baffle (19) are installed to the one end of shock attenuation spring beam (18).

4. The trenchless pipeline lining rehabilitation traction device of claim 2, wherein: the clamping unit comprises a hook connecting plate (12) arranged at one end of the traction rope (4) of the device, a plurality of traction hooks (13) are rotatably connected to the side wall of the hook connecting plate (12), and the size of the hook connecting plate (12) is larger than the inner diameter of the guide hole.

5. The trenchless pipeline lining rehabilitation traction device of claim 2, wherein: the utility model discloses a guide sliding frame, including support balladeur train (7), all set up a plurality of evenly distributed's spacing jack on the lateral wall of support balladeur train (7), guide slide (9) are all installed at the top of guide slide rail (6), equal sliding connection has guide slide bar (10) in guide slide (9), spacing inserted block (11) and press the clamp plate are installed respectively to the both ends of guide slide bar (10).

6. The trenchless pipeline lining rehabilitation traction device of claim 4, wherein: the inside of drawing couple (13) has all been seted up the spring hook spout, equal sliding connection has anticreep spring hook (14) in the spring hook spout.

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