CN214425261U - Device for transporting equipment in pipe jacking pipeline - Google Patents

Abstract

The utility model discloses a device that is used for pipe jacking pipeline internal equipment to transport, it is including the guide rail, the guide rail adopts a plurality of sections worker's word steel dislocation set and installs in the pipeline through the installed part, with guide rail sliding connection's slide mechanism, with slide mechanism fixed connection and be used for the hoisting machine of hoist and mount heavy object construct, set up in the stop gear of hoisting machine one side, hoisting machine constructs the heavy object and promotes the height of heavy object to carry out spacing fixed through stop gear when predetermined height, slide mechanism drives the transportation of heavy object along guide rail direction reciprocating motion realization pipeline internal material equipment through hoisting machine.

Description

Device for transporting equipment in pipe jacking pipeline

Technical Field

The utility model relates to a push pipe construction technical field, more specifically say, it relates to a device that is used for equipment transportation in push pipe pipeline.

Background

The pipe jacking construction technology is a non-excavation technology for laying underground pipes with good environment protection, and is a construction method for laying underground pipes, which is characterized in that by means of the thrust of jacking equipment such as a main jacking pump, a tool pipe or a heading machine penetrates through soil layers along the line from a working well to enter a receiving well, and meanwhile, the pipelines immediately behind the tool pipe or the heading machine are sequentially connected and buried in the soil layers between the two wells.

A large amount of pipelines and equipment need to be arranged in the jacking pipe construction process, the jacking distance is longer, more pipelines and auxiliary equipment need to be arranged on the jacking pipe matched with the technical difficulty, if the jacking pipe penetrates through underwater rocks in the construction process, a cutter needs to be replaced every 30-60m, the weight of a single hob is 70kg, a water pump (weighing 120 kg) needs to be transported in the cutter changing operation, a night-pressing jack (55 kg) and a motor (200 kg) can be transported in maintenance time, large-scale transportation equipment cannot be adopted for transportation in a narrow space, the labor cost of manual transportation is higher, the intensity is too high, and the safety risk is very high.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a device that is used for equipment transportation in the push pipe pipeline.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a device for pipe jacking pipeline internal equipment transportation, including the guide rail, the guide rail adopts a plurality of sections worker's word steel dislocation set and installs in the pipeline through the installed part, slide mechanism with guide rail sliding connection, hoisting machine constructs with slide mechanism fixed connection and be used for the hoist and mount heavy object, set up the stop gear in hoisting machine constructs one side, hoisting machine constructs the heavy object and promotes the height of heavy object to carry out spacing fixedly through stop gear when high predetermined, slide mechanism drives the heavy object through hoisting machine and realizes the transportation of pipeline internal material equipment along guide rail direction reciprocating motion.

The scheme has the advantages that: the guide rail passes through the installed part installation, also can adopt the welding according to the difference of push pipe material, the bar planting, form installation such as pre-buried, the material or the equipment that will transport pass through hoist and mount mechanism lifting to predetermined height, carry out spacing fixed through stop gear to the height of heavy object when heavy object lifting to predetermined height, then drive the transportation of heavy object along guide rail reciprocating motion realization interior material of pipeline or equipment through slide mechanism, wherein the guide rail adopts a plurality of sections worker's word steel dislocation sets, avoid the orbital transition of slide rail level and smooth and lead to slide mechanism out of control and then influence operator's operational safety, improve device's safety in utilization.

The utility model discloses further set up to: slide mechanism has two including setting up in the gyro wheel of guide rail both sides, the gyro wheel of every side, and the gyro wheel outside is connected with the mainboard, through spliced pole fixed connection between the both sides mainboard, and the mainboard is used for prescribing the activity of the gyro wheel of both sides on the guide rail.

The scheme has the advantages that: form fixed spacing between the mainboard of both sides and inject the activity of both sides gyro wheel on the guide rail, avoid slide mechanism slip in-process gyro wheel to break away from the guide rail and then influence the normal use of device.

The utility model discloses further set up to: the equal fixedly connected with reinforcement in the mainboard outside, bolted connection is passed through to both sides reinforcement, and the position department that the bolt is located the guide rail below still overlaps and is equipped with supplementary pulley.

The scheme has the advantages that: the reinforcing members on two sides further reinforce the limiting of the main boards on two sides to the roller, meanwhile, the position of the bolt below the guide rail is also provided with an auxiliary pulley, and the auxiliary pulley can further reinforce the sliding property of the sliding mechanism when the sliding mechanism slides.

The utility model discloses further set up to: the hoisting mechanism comprises assembly parts, one end of each assembly part is fixedly connected to the outer sides of the two main boards, the other end of each assembly part is fixedly connected with a hand-operated pulley part, and the hand-operated pulley part is connected with a hook used for connecting a heavy object through a steel wire rope.

The scheme has the advantages that: the hoisting mechanism is more efficient and labor-saving in lifting the heavy object through the hand-operated pulley piece.

The utility model discloses further set up to: the hand-operated pulley part is internally provided with a first transition wheel, the middle section part of the connecting column is provided with a second transition wheel, the hook is connected to the left end of the steel wire rope, and the right end of the steel wire rope sequentially bypasses the top of the second transition wheel and the bottom of the first transition wheel.

The scheme has the advantages that: the friction force of the hand-operated pulley part when the heavy object is lifted or descended is smaller through the second transition wheel and the first transition wheel, so that the hand-operated pulley part is more labor-saving when the heavy object is lifted or descended.

The utility model discloses further set up to: the limiting mechanism comprises a through hole formed in one side, close to the rocker of the hand-operated pulley piece, of the assembly part and a limiting column movably connected in the through hole, the inner ring of the limiting column is provided with a positioning column, one end, far away from the through hole, of the positioning column is fixedly connected with the assembly part, and the limiting column is in threaded connection with the positioning column.

The scheme has the advantages that: through stop gear avoid the device in the course of the work heavy object to take place the landing and then influence the normal use of device, for threaded connection makes the location between spacing post and the reference column more firm between spacing post and the reference column simultaneously, avoid spacing post to take place to slide and then lead to the heavy object to drop when hand pulley spare carries on spacingly.

The utility model discloses further set up to: the dislocation distance between the adjacent I-shaped steel is 3-5 cm.

The scheme has the advantages that: the dislocation distance between the adjacent I-beams is 3-5cm, so that the sliding mechanism is effectively prevented from being out of control, and the smooth transition between the I-beams when the sliding mechanism transports heavy objects is ensured.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

fig. 3 is a schematic structural diagram of the limiting mechanism of the present invention.

Reference numerals: 1. a guide rail; 101. a mounting member; 2. a sliding mechanism; 201. a roller; 202. a main board; 203. connecting columns; 204. a reinforcement; 205. an auxiliary pulley; 3. a hoisting mechanism; 301. an assembly member; 302. a hand-operated pulley member; 303. hooking; 304. a first transition wheel; 305. a second transition wheel; 4. a limiting mechanism; 401. a positioning column; 402. a limiting column; 403. i-shaped steel; 404. and a through hole.

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.

Please refer to fig. 1-3, the utility model discloses a device for transportation of pipe jacking in pipeline equipment, including guide rail 1, guide rail 1 adopts a plurality of sections worker's word steel 403 dislocation set and installs in the pipeline through installed part 101, slide mechanism 2 with 1 sliding connection of guide rail, hoisting machine constructs 3 with 2 fixed connection of slide mechanism and be used for hoisting the heavy object, set up in the stop gear 4 of hoisting machine 3 one side, hoisting machine constructs 3 and carries out spacing fixedly through stop gear 4 when promoting the heavy object to predetermined height to the height of heavy object, slide mechanism 2 drives the transportation of material equipment in the pipeline along 1 direction reciprocating motion realization of guide rail through hoisting machine constructs 3. When using, through other required pipeline equipment of top pipe in the rationally distributed pipeline, reserve out the space directly over the pipeline inner wall and be used for installing guide rail 1, guide rail 1 is installed through installed part 101, also can adopt the welding according to the difference of push pipe material, the bar planting, form installation such as pre-buried, the material or the equipment that will transport pass through hoisting machine and construct 3 lifting to predetermined height, carry out spacing fixed through stop gear 4 to the height of heavy object when heavy object lifting to predetermined height, then drive the transportation of material or equipment in the pipeline along guide rail 1 reciprocating motion realization of heavy object through slide mechanism 2, wherein guide rail 1 adopts a plurality of sections worker style of calligraphy steel 403 dislocation set to avoid the orbital transition of slide rail level and smooth and lead to slide mechanism 2 out of control, improve the safety in utilization of device.

Slide mechanism 2 is including setting up in the gyro wheel 201 of guide rail 1 both sides, and the gyro wheel 201 of each side has two, and the gyro wheel 201 outside is connected with mainboard 202, passes through spliced pole 203 fixed connection between the both sides mainboard 202, and mainboard 202 is used for prescribing the activity of the gyro wheel 201 of both sides on guide rail 1. When using, slide rail every side has two gyro wheels 201, and the gyro wheel 201 outside is connected with mainboard 202, through spliced pole 203 fixed connection between the mainboard 202, forms the fixed spacing between the mainboard 202 of both sides and prescribes a limit to the activity of both sides gyro wheel 201 on guide rail 1, avoids 2 slip in-process gyro wheels 201 of slide mechanism to break away from guide rail 1 and then influence the normal use of device.

The equal fixedly connected with reinforcement 204 in mainboard 202 outside, both sides reinforcement 204 pass through bolted connection, and the position department that the bolt is located guide rail 1 below still overlaps and is equipped with auxiliary pulley 205. When the sliding mechanism 2 slides, the reinforcing members 204 are fixedly connected to the outer sides of the main plates 202 on the two sides, the reinforcing members 204 on the two sides are connected through bolts, the limiting of the main plates 202 on the two sides on the rollers 201 is further enhanced through the reinforcing members 204 on the two sides, meanwhile, the auxiliary pulleys 205 are further arranged at positions of the bolts below the guide rails 1, and the sliding performance of the sliding mechanism 2 can be further enhanced through the auxiliary pulleys 205 when the sliding mechanism 2 slides.

The hoisting mechanism 3 comprises an assembly part 301, one end of the assembly part 301 is fixedly connected to the outer sides of the two main boards 202 respectively, the other end of the assembly part 301 is fixedly connected with a hand-operated pulley part 302, and the hand-operated pulley part 302 is connected with a hook 303 used for connecting a heavy object through a steel wire rope. When using, hand pulley 302 carries out the lifting to the heavy object through wire rope, makes hoisting machine structure 3 more high-efficient, laborsaving to the lifting of heavy object through hand pulley 302.

The hand-operated pulley piece 302 is internally provided with a first transition wheel 304, the middle section part of the connecting column 203 is provided with a second transition wheel 305, the hook 303 is connected to the left end of the steel wire rope, and the right end of the steel wire rope sequentially bypasses the top of the second transition wheel 305 and the bottom of the first transition wheel 304. When the hand-operated pulley piece 302 is used, the left end of the steel wire rope is connected with the hook 303, the right end of the steel wire rope sequentially bypasses the top of the second transition wheel 305 and the bottom of the first transition wheel 304, when a heavy object at the end of the hook 303 exerts pressure on the steel wire rope, the friction force generated when the hand-operated pulley piece 302 lifts or descends the heavy object is small through the second transition wheel 305 and the first transition wheel 304, and therefore the hand-operated pulley piece 302 is more labor-saving in lifting or descending the heavy object.

The limiting mechanism 4 comprises a through hole 404 formed in one side of the assembly part 301 close to the rocker of the hand-cranking pulley part 302 and a limiting column 402 movably connected in the through hole 404, a positioning column 401 is arranged on the inner ring of the limiting column 402, one end, far away from the through hole 404, of the positioning column 401 is fixedly connected with the assembly part 301, and the limiting column 402 is in threaded connection with the positioning column 401. When in use, the hand-operated pulley piece 302 controls the lifting or descending of the weight through the rocker at one side, the rocker drives the weight to be lifted to a preset height when rotating anticlockwise, when the current lifting height needs to be limited, the limiting column 402 is controlled to extend out of the through hole 404, when the heavy object descends, the rocker returns clockwise, the clockwise return of the rocker is blocked by the limiting column 402, the heavy object is prevented from sliding off in the working process of the device, and the normal use of the device is prevented from being influenced, meanwhile, the limiting column 402 is in threaded connection with the positioning column 401, the internal thread positioning column 401 is arranged on the inner side of the limiting column 402 and is provided with the external thread, the limiting column 402 is moved through the matching between the internal thread and the external thread, the positioning between the limiting column 402 and the positioning column 401 is firmer due to the threaded connection, and the phenomenon that the limiting column 402 slides when limiting the hand-operated pulley piece 302 to cause the heavy object to fall is avoided.

The dislocation distance between the adjacent I-shaped steel 403 is between 3 cm and 5 cm. When the sliding mechanism is used, the dislocation distance of the I-shaped steel 403 is controlled to be 3-5cm, so that the sliding mechanism 2 is effectively prevented from being out of control, and smooth transition between the I-shaped steel 403 when the sliding mechanism 2 transports heavy objects is ensured.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a device that is used for equipment transportation in push pipe pipeline which characterized in that: including guide rail (1), guide rail (1) adopt a plurality of sections worker's word steel (403) dislocation set and through installed part (101) install in the pipeline, with guide rail (1) sliding connection's slide mechanism (2), with slide mechanism (2) fixed connection is used for hoisting mechanism (3) of hoist and mount heavy object, set up in stop gear (4) of hoisting mechanism (3) one side, hoist and mount mechanism (3) pass through when promoting the heavy object to predetermined height stop gear (4) carry out spacing fixed to the height of heavy object, slide mechanism (2) drive the heavy object through hoisting mechanism (3) and follow guide rail (1) direction reciprocating motion realizes the transportation of material equipment in the pipeline.

2. The apparatus for in-pipe equipment transport of pipe-jacking according to claim 1, wherein: slide mechanism (2) are including setting up in gyro wheel (201) of guide rail (1) both sides, and gyro wheel (201) of every side have two, gyro wheel (201) outside is connected with mainboard (202), both sides through spliced pole (203) fixed connection between mainboard (202), mainboard (202) are used for prescribing a limit to the activity of gyro wheel (201) of both sides on guide rail (1).

3. The apparatus for in-pipe equipment transport of pipe-jacking according to claim 2, wherein: equal fixedly connected with reinforcement (204) in mainboard (202) outside, both sides reinforcement (204) are through bolted connection, and the bolt is located position department of guide rail (1) below still overlaps and is equipped with auxiliary pulley (205).

4. The apparatus for in-pipe equipment transport of pipe-jacking according to claim 1, wherein: hoisting machine constructs (3) including assembly part (301), assembly part (301) one end fixed connection respectively in two mainboard (202) outsides, other end fixedly connected with hand pulley spare (302), hand pulley spare (302) are connected with couple (303) that are used for connecting the heavy object through wire rope.

5. The apparatus for push bench transport of equipment according to claim 4, wherein: the middle section part that has first transition wheel (304), spliced pole (203) in hand pulley spare (302) has second transition wheel (305), couple (303) are connected in wire rope's left end, and wire rope's right-hand member is in proper order around the top of second transition wheel (305) and the bottom of first transition wheel (304).

6. The apparatus for in-pipe equipment transport of pipe-jacking according to claim 1, wherein: limiting mechanism (4) including set up in assembly part (301) be close to through-hole (404), swing joint of hand pulley spare (302) rocker one side in spacing post (402) in through-hole (404), the inner circle of spacing post (402) has reference column (401), the one end and assembly part (301) fixed connection of through-hole (404) are kept away from in reference column (401), be threaded connection between spacing post (402) and reference column (401).

7. The apparatus for in-pipe equipment transport of pipe-jacking according to claim 1, wherein: the dislocation distance between the adjacent I-shaped steel (403) is 3-5 cm.

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