CN220792264U

CN220792264U - Auxiliary structure is laid to pipe network is buried to building

Info

Publication number: CN220792264U
Application number: CN202322343169.4U
Authority: CN
Inventors: 刘决成
Original assignee: Dingyi Construction Shanghai Co ltd
Current assignee: Dingyi Construction Shanghai Co ltd
Priority date: 2023-08-30
Filing date: 2023-08-30
Publication date: 2024-04-16
Anticipated expiration: 2033-08-30

Abstract

The utility model discloses an auxiliary structure for laying a buried pipe network of a building, which comprises a gantry frame and a rotary box, wherein the rotary box is arranged at the central position of the top end of the gantry frame, the bottom end of the rotary box is provided with a rotary disc, the bottom ends of the rotary disc are symmetrically provided with sliding arms, the bottom ends of the sliding arms are provided with sliding rods which are in sliding connection with the sliding arms, the central position of the bottom end of the rotary disc is provided with a lifting cylinder, the output end of the lifting cylinder is provided with a lifting rod, the bottom end of the lifting rod is provided with a supporting frame, and the sliding rods are fixedly connected with the supporting frame. The utility model not only realizes convenient clamping, lifting and conveying and convenient rotary control and adjustment of pipelines by the auxiliary structure for paving the building buried pipe network, facilitates clamping and conveying pipelines at different angle positions, but also improves the flexibility of the pipelines during adaptive lifting and improves the convenience and paving efficiency of paving the building buried pipe network.

Description

Auxiliary structure is laid to pipe network is buried to building

Technical Field

The utility model relates to the technical field of auxiliary laying structures, in particular to an auxiliary laying structure for a buried pipe network of a building.

Background

The building buried pipe network system is usually buried underground and used for municipal city service, along with the development of society, the city construction is faster and faster, when the construction of the construction sites of each place are well developed and constructed, the building buried pipe network system is usually planned in advance and installed in advance, and the area involved in the building buried pipe network system is wide, so that the building buried pipe network is often required to be laid to assist in laying the installation pipeline, a large amount of manpower and material resources can be well saved by using the laying auxiliary structure, the laying auxiliary structure can be used in various environments, the task that many ordinary people cannot complete is completed, the construction period is greatly shortened, and the working efficiency is improved.

The auxiliary structure is laid to building pipe network when using, through need adopt conveying equipment to carry building pipe to appointed region, move building pipe to the installation department by manual work or mechanical linkage structure, install and lay, although have the function that drive building pipe removal and transport are buried in the drive when using, but be unfavorable for carrying the convenient centre gripping promotion of pipeline and convenient rotation control regulation when using, the convenience of pipeline centre gripping transportation of different angular position has very big influence, the flexibility when very big influence pipeline adaptation hoist and mount has influenced the convenience that the pipe network was buried in the building laid and the efficiency of laying.

Disclosure of Invention

The utility model aims to provide an auxiliary structure for laying a buried pipe network of a building, which solves the problems that the auxiliary structure for laying is inconvenient to clamp, lift and convey pipelines conveniently and rotationally, the convenience of clamping and conveying pipelines at different angle positions is affected, the flexibility of pipeline adapting and lifting is affected, and the convenience of laying and the efficiency of laying the buried pipe network of the building are affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an auxiliary structure is laid to pipe network in building buries, includes longmen frame and swivel case, swivel case is installed to the central point department on longmen frame top, the bottom of swivel case is provided with the rotary disk, the wiper arm is installed to the bottom symmetry of rotary disk, the slide bar is all installed to the bottom of wiper arm, and slide bar and wiper arm sliding connection, the bottom central point department of rotary disk installs the promotion cylinder, the lifting rod is installed to the output of promotion cylinder, the support frame is installed to the bottom of lifting rod, and slide bar and support frame fixed connection, the carriage is installed to the bottom of support frame, the inside of carriage is provided with the driving block, the internally mounted of support frame has tensile cylinder, the movable rod is installed to the output of tensile cylinder, and the movable rod extends to the inside of driving block, the connecting arm is all installed to the both sides of driving block, the power arm is all installed to the bottom of connecting arm, be close to one side of carriage on the arm outer wall, and the power arm is through supporting shaft and carriage swing joint, the power arm is all installed the gripping body and the gripping, and the gripping body is all installed to the gripping body and the movable shaft is all is installed to the gripping body through the gripping, gripping body and the movable shaft is all installed to the gripping body.

Preferably, two groups of linkage arms are symmetrically and movably arranged at the bottom end of the clamping frame at one side of the power arm, the linkage arms extend to the surface of the clamping grab, and the linkage arms are movably connected with the clamping grab.

Preferably, a servo motor is arranged in the gantry frame on one side of the rotating disc, a worm wheel is arranged in the rotating box above the rotating disc, a worm is arranged in the rotating box on one side of the worm wheel, the worm is meshed with the worm wheel, and the output end of the servo motor is connected with the worm.

Preferably, a driving rod is installed at the central position of the bottom end of the worm wheel, and the bottom end of the driving rod is fixedly connected with the rotating disc.

Preferably, two groups of travelling wheels are symmetrically arranged at the bottom end of the gantry frame, and the travelling wheels are movably connected with the gantry frame.

Preferably, a control panel is installed on the outer wall of the gantry frame, and the output end of the control panel is electrically connected with the input ends of the servo motor, the lifting cylinder and the stretching cylinder.

Compared with the prior art, the utility model has the beneficial effects that: the auxiliary structure not only realizes convenient clamping, lifting and conveying and convenient rotary control and adjustment of pipelines by the auxiliary structure for paving the buried pipe network of the building, and facilitates clamping and conveying pipelines at different angle positions, but also improves the flexibility of the pipelines during adaptive lifting and the convenience of paving the buried pipe network of the building and the paving efficiency;

(1) The movable rod is driven to move by the stretching cylinder, the driving block is driven to move by the movable rod, the driving block drives the two groups of connecting arms to move, the connecting arms drive the power arms to rotate, the power arms drive the clamping grabs to move by the movable shaft, so that the two groups of clamping grabs are expanded to be consistent with the caliber of the linkage arm, the clamping of the linkage arm is conveniently completed, the lifting rod is driven to move by the lifting cylinder, the clamping grabs and the pipeline body are driven to move by the clamping frame, the pipeline body is conveniently carried, the convenient clamping lifting and conveying of the auxiliary structure for paving a buried pipeline network of a building are realized, the pipeline is conveniently lifted and conveyed to a designated position, and the convenience and the paving efficiency of the buried pipeline network of the building are improved;

(2) Through the rotation of the worm driven by the servo motor, the worm drives the worm wheel to rotate, the worm wheel drives the driving rod to rotate, the driving rod drives the rotary disk to rotate, the rotary disk drives the support frame to rotate through the sliding arm and the lifting cylinder to rotate and adjust the position of the clamping grab and the pipeline body, so that the convenient rotary control and adjustment of the auxiliary structure for laying the building buried pipe network are realized, the clamping and transportation of pipelines at different angle positions are facilitated, and the flexibility of the pipeline during the adaptive lifting is improved.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic side view of the present utility model;

fig. 4 is an enlarged schematic view of the gripping handle of the present utility model.

In the figure: 1. a gantry frame; 2. a servo motor; 3. a worm wheel; 4. a worm; 5. a rotating disc; 6. lifting the cylinder; 7. a slide arm; 8. a lifting rod; 9. a support frame; 10. a stretching cylinder; 11. a movable rod; 12. a clamping frame; 13. a driving block; 14. a connecting arm; 15. a power arm; 16. a linkage arm; 17. clamping and grabbing; 18. a pipe body; 19. a walking wheel; 20. a control panel; 21. a driving rod; 22. a slide bar; 23. a support shaft; 24. a movable shaft; 25. and (5) rotating the box.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the auxiliary structure for laying the pipe network buried in the building comprises a gantry frame 1 and a rotary box 25, wherein the rotary box 25 is arranged at the central position of the top end of the gantry frame 1, a rotary disk 5 is arranged at the bottom end of the rotary box 25, sliding arms 7 are symmetrically arranged at the bottom end of the rotary disk 5, sliding rods 22 are arranged at the bottom ends of the sliding arms 7, the sliding rods 22 are in sliding connection with the sliding arms 7, a lifting cylinder 6 is arranged at the central position of the bottom end of the rotary disk 5, and the lifting cylinder 6 plays a role of power driving;

the output end of the lifting cylinder 6 is provided with a lifting rod 8, the bottom end of the lifting rod 8 is provided with a supporting frame 9, a sliding rod 22 is fixedly connected with the supporting frame 9, the bottom end of the supporting frame 9 is provided with a clamping frame 12, the inside of the clamping frame 12 is provided with a driving block 13, the inside of the supporting frame 9 is provided with a stretching cylinder 10, and the stretching cylinder 10 plays a role in power driving;

the output end of the stretching cylinder 10 is provided with a movable rod 11, the movable rod 11 extends into the driving block 13, both sides of the driving block 13 are provided with connecting arms 14, the bottom ends of the connecting arms 14 are provided with power arms 15, one side, close to the clamping frame 12, of the outer wall of each power arm 15 is provided with a supporting shaft 23, the power arms 15 are movably connected with the clamping frame 12 through the supporting shafts 23, and the supporting shafts 23 play a role in movable support;

the bottom ends of the power arms 15 are provided with clamping grabs 17, a pipeline body 18 is arranged between the two groups of clamping grabs 17, one ends, close to the power arms 15, of the top ends of the clamping grabs 17 are provided with movable shafts 24, the power arms 15 are movably connected with the clamping grabs 17 through the movable shafts 24, and the movable shafts 24 play a role in movable support;

two groups of linkage arms 16 are symmetrically and movably arranged at the bottom end of the clamping frame 12 at one side of the power arm 15, the linkage arms 16 extend to the surface of the clamping grab 17, the linkage arms 16 are movably connected with the clamping grab 17, the linkage arms 16 play a role of movable support, two groups of travelling wheels 19 are symmetrically arranged at the bottom end of the gantry frame 1, and the travelling wheels 19 are movably connected with the gantry frame 1;

when in use, the gantry 1 firstly runs to one side of the pipeline body 18 through a plurality of groups of travelling wheels 19, the stretching air cylinder 10 is opened through the operation control panel 20, the stretching air cylinder 10 drives the movable rod 11 to move under the support of the supporting frame 9, the movable rod 11 drives the driving block 13 to move, the driving block 13 drives the two groups of connecting arms 14 to move, the connecting arms 14 drive the power arms 15 to rotate under the support of the supporting shaft 23, the power arms 15 drive the clamping grabs 17 to move through the movable shaft 24, the clamping grabs 17 are movably supported by the connecting arms 16, the two groups of clamping grabs 17 are expanded to be consistent with the caliber of the connecting arms 16, so that the clamping of the connecting arms 16 is conveniently completed, the lifting cylinder 6 is opened through the operation control panel 20, the lifting rod 8 is driven to move by the lifting cylinder 6, the supporting frame 9 is driven to move by the lifting rod 8 under the sliding support of the sliding arm 7 and the sliding rod 22, the clamping frame 12 is driven to integrally move by the supporting frame 9, the clamping gripper 17 and the pipeline body 18 are driven to move by the clamping frame 12, so that the pipeline body 18 is lifted to a high position, the pipeline body 18 is conveniently carried, the convenient clamping, lifting and conveying of the pipeline by the auxiliary structure for paving the buried pipeline network of the building is realized, the pipeline is conveniently hoisted and conveyed to a designated position, and the convenience and the paving efficiency of the buried pipeline network of the building are improved;

a servo motor 2 is arranged in the gantry frame 1 at one side of the rotating disc 5, the servo motor 2 plays a role of power driving, a worm wheel 3 is arranged in a rotating box 25 above the rotating disc 5, a worm 4 is arranged in the rotating box 25 at one side of the worm wheel 3, the worm 4 is meshed with the worm wheel 3, the output end of the servo motor 2 is connected with the worm 4, a driving rod 21 is arranged at the central position of the bottom end of the worm wheel 3, the bottom end of the driving rod 21 is fixedly connected with the rotating disc 5, a control panel 20 is arranged on the outer wall of the gantry frame 1, and the output end of the control panel 20 is electrically connected with the input ends of the servo motor 2, a lifting cylinder 6 and a stretching cylinder 10;

when the intelligent pipeline laying and supporting device is used, the servo motor 2 is opened through the operation control panel 20, the worm 4 is driven to rotate by the servo motor 2, the worm 4 drives the worm wheel 3 to rotate under the mutual meshing of the worm 4 and the worm wheel 3, the worm wheel 3 drives the driving rod 21 to rotate under the support of the rotating box 25, the driving rod 21 drives the rotating disc 5 to rotate, the rotating disc 5 drives the supporting frame 9 to rotate through the sliding arm 7 and the lifting cylinder 6, the supporting frame 9 drives the clamping frame 12 to integrally rotate so as to rotationally adjust the positions of the clamping grabs 17 and the pipeline body 18, the pipeline body 18 is convenient to flexibly rotate, adjust and clamp, the pipeline at different angle positions is conveniently clamped and transported by the aid of the rotary control adjustment of the auxiliary structure of the laying of a buried pipeline, and the flexibility of the pipeline during adapting and lifting is improved.

Working principle: when the gantry crane is used, firstly, the gantry crane 1 runs to one side of a pipeline body 18 through a plurality of groups of travelling wheels 19, a stretching cylinder 10 is opened through an operation control panel 20, under the support of a supporting frame 9, a movable rod 11 is driven by the stretching cylinder 10 to move, a driving block 13 is driven by the movable rod 11 to move, two groups of connecting arms 14 are driven by the driving block 13 to move, under the support of a supporting shaft 23, a power arm 15 is driven by the connecting arm 14 to rotate, a clamping grab 17 is driven by the power arm 15 to move through a movable shaft 24, the clamping grab 17 is movably supported by a linkage arm 16, the two groups of clamping grabs 17 are expanded to be consistent with the caliber of the linkage arm 16, the clamping of the linkage arm 16 is conveniently completed, a lifting cylinder 6 is opened through the operation control panel 20, a lifting rod 8 is driven by the lifting cylinder 6 to move, under the sliding support of a sliding arm 7 and a sliding rod 22, the lifting rod 8 drives the supporting frame 9 to move, the supporting frame 9 drives the clamping frame 12 to integrally move, the clamping frame 12 drives the clamping gripper 17 and the pipeline body 18 to move to lift the pipeline body 18 to a high position to facilitate the transportation of the pipeline body 18, then the servo motor 2 is opened through the operation control panel 20, the worm 4 is driven by the servo motor 2 to rotate, the worm 4 drives the worm wheel 3 to rotate under the mutual meshing of the worm 4 and the worm wheel 3, the worm wheel 3 drives the driving rod 21 to rotate under the support of the rotating box 25, the driving rod 21 drives the rotating disk 5 to rotate, the rotating disk 5 drives the supporting frame 9 to rotate through the sliding arm 7 and the lifting cylinder 6, the clamping frame 12 is driven to integrally rotate by the supporting frame 9 to rotatably adjust the positions of the clamping gripper 17 and the pipeline body 18 to facilitate the flexible rotation adjustment, the clamping and lifting of the pipeline body 18, to complete the use of the auxiliary structure.

Claims

1. The utility model provides an auxiliary structure is laid to building buries pipe network, includes longmen frame (1) and swivel case (25), its characterized in that: the utility model discloses a gantry crane, including portal crane frame (1), rotary box (25) is installed to central point department on portal crane frame (1) top, rotary box (25)'s bottom is provided with rotary disk (5), slide arm (7) are installed to rotary disk (5)'s bottom symmetry, slide bar (22) are all installed to slide bar (22) and slide arm (7) sliding connection's bottom, lifting cylinder (6) are installed in rotary disk (5) bottom central point department, lifting cylinder (6)'s output installs lifting rod (8), support frame (9) are installed to lifting rod (8)'s bottom, and slide bar (22) and support frame (9) fixed connection, clamping frame (12) are installed to support frame (9)'s bottom, clamping frame (12)'s inside is provided with driving piece (13), stretching cylinder (10) are installed to support frame (9) internally mounted, driving piece (11) are installed to stretching cylinder (10)'s output, and moving piece (11) extend to driving piece (13) inside, driving piece (13) both sides (13) are installed link arm (14), all be close to power frame (15) are installed on all link arm (14) and all are installed on one side (15), and power arm (15) is through back shaft (23) and clamping frame (12) swing joint, centre gripping is grabbed (17) all are installed to the bottom of power arm (15), and is provided with pipeline body (18) between two sets of centre gripping grabs (17), centre gripping grabs (17) top and is close to the one end of power arm (15) all installs loose axle (24), and power arm (15) is through loose axle (24) and centre gripping grab (17) swing joint.

2. The auxiliary structure for laying a buried pipe network of a building according to claim 1, wherein: two groups of linkage arms (16) are symmetrically and movably mounted at the bottom end of the clamping frame (12) at one side of the power arm (15), the linkage arms (16) extend to the surface of the clamping grab (17), and the linkage arms (16) are movably connected with the clamping grab (17).

3. The auxiliary structure for laying a buried pipe network of a building according to claim 1, wherein: the automatic control device is characterized in that a servo motor (2) is arranged in the gantry frame (1) on one side of the rotating disc (5), a worm wheel (3) is arranged in a rotating box (25) above the rotating disc (5), a worm (4) is arranged in the rotating box (25) on one side of the worm wheel (3), the worm (4) is meshed with the worm wheel (3), and the output end of the servo motor (2) is connected with the worm (4).

4. A building buried pipe network laying auxiliary structure according to claim 3, wherein: a driving rod (21) is arranged at the central position of the bottom end of the worm wheel (3), and the bottom end of the driving rod (21) is fixedly connected with the rotating disc (5).

5. The auxiliary structure for laying a buried pipe network of a building according to claim 1, wherein: two groups of travelling wheels (19) are symmetrically arranged at the bottom end of the gantry frame (1), and the travelling wheels (19) are movably connected with the gantry frame (1).

6. The auxiliary structure for laying a buried pipe network of a building according to claim 1, wherein: the outer wall of the gantry frame (1) is provided with a control panel (20), and the output end of the control panel (20) is electrically connected with the input ends of the servo motor (2), the lifting cylinder (6) and the stretching cylinder (10).