CN215590764U - Hydraulic engineering construction equipment - Google Patents

Abstract

The utility model relates to the technical field of hydraulic engineering construction equipment, in particular to a hydraulic engineering construction device. The device comprises a support frame, a power assembly and a material guide assembly; the power assembly is arranged on the support frame, and the support frame is provided with a pipe placing assembly; the material guide assembly is arranged on the support frame; four groups of supporting legs are arranged on the supporting frame main body, and two groups of hooks are arranged on the upper end surface of the supporting frame main body side by side; the rotating shaft is rotatably arranged on the support frame main body, and a limiting disc is arranged on the rotating shaft; the rope is wound on the rotating shaft and positioned between the limiting discs, and the other end of the rope is connected with the hook; the motor is arranged on the support frame main body and is in power connection with the rotating shaft; the fixing frame A is arranged on the support frame main body and is provided with a cylinder A; the fixing frame B is arranged on a telescopic rod of the air cylinder A and is provided with an air cylinder B; the kick-out plate is arranged on the fixed frame B in a sliding mode through the guide rod and is connected with the telescopic rod of the air cylinder B. The utility model is convenient to enter different scenes and is more flexible; the pipe fitting transportation is safer, and the practicality is good.

Description

Hydraulic engineering construction equipment

Technical Field

The utility model relates to the technical field of hydraulic engineering construction equipment, in particular to a hydraulic engineering construction device.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in the nature to achieve the purpose of removing harm and benefiting, is also called water engineering, water is a valuable resource essential for human production and life, but the naturally existing state of the water does not completely meet the needs of human beings, and only when the hydraulic engineering is built, water flow can be controlled to prevent flood disasters, and water quantity regulation and distribution are performed to meet the needs of people's life and production on water resources.

At present, in the process of pipeline installation, a pipeline is basically installed by hoisting the pipeline by a crane through a rope and placing the pipeline into a pit, so that the labor is saved, the pipeline installation speed is increased, but large-scale mechanical assistance is required, the large-scale crane cannot conveniently enter in narrow areas, and meanwhile, the pipeline is not safe enough after being lifted, and potential safety hazards exist; therefore, a small device which is convenient for installing pipelines and safer is urgently needed to adapt to different occasions.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a method for conveniently entering different scenes, which is more flexible, aiming at the problems in the background technology; simultaneously, the hydraulic engineering construction device is safer for pipe transportation and good in practicability.

The technical scheme of the utility model is as follows: a hydraulic engineering construction device comprises a support frame, a power assembly and a material guide assembly;

the power assembly is arranged on the support frame, and the support frame is provided with a pipe placing assembly; the material guide assembly is arranged on the support frame and positioned on one side far away from the power assembly, and the material guide assembly is positioned below the power assembly; the support frame comprises a support frame main body, support legs and hooks; four groups of supporting legs are arranged on the supporting frame main body, and two groups of hooks are arranged on the upper end surface of the supporting frame main body side by side;

the pipe placing assembly comprises a motor, a rotating shaft and a rope; one side of the support frame main body, which is far away from the hook, is provided with a mounting groove, the rotating shaft is rotatably arranged on the support frame main body and is positioned in the mounting groove, and the rotating shaft is provided with two limiting discs; the rope is wound on the rotating shaft and positioned between the limiting discs, and the other end of the rope is connected with the hook; the motor is arranged on the support frame main body and is in power connection with the rotating shaft;

the power assembly comprises a fixing frame A, a fixing frame B, a guide rod and a material shifting plate; the fixing frame A is arranged on the support frame main body, and the fixing frame A is provided with a cylinder A; the fixing frame B is arranged on a telescopic rod of the air cylinder A, and the air cylinder B is arranged on the fixing frame B; the kickoff plate passes through the guide arm slip setting on mount B, and the kickoff plate is connected with cylinder B's telescopic link.

Preferably, the material guiding assembly comprises a fixed plate, a material guiding plate, a connecting rod, a sliding block and a fixed seat; the fixed plate is arranged on the support frame main body, the material guide plate is rotatably arranged on the fixed plate, and the rotating piece is arranged at the bottom of the material guide plate; the fixed seat is arranged on the support frame main body, and an air cylinder C is arranged on the fixed seat; the sliding block is arranged on the fixed seat in a sliding manner and is connected with the telescopic rod of the cylinder C; the connecting rod is rotatably arranged on the sliding block and is connected with the rotating piece.

Preferably, the baffle plates are arranged on two sides of the fixing plate and the material guide plate.

Preferably, one end of the material guide plate, which is far away from the fixed plate, is provided with a chamfer.

Preferably, the material guide plate is provided with an anti-skid pad.

Preferably, the walking wheel is further comprised; the walking wheel is arranged on the supporting leg, and a braking part is arranged on the walking wheel.

Preferably, the rope is detachably connected with the hook.

Preferably, the kick-off plate is provided with a roller, and the roller is positioned at one side close to the material guiding assembly.

Compared with the prior art, the utility model has the following beneficial technical effects: the supporting frame is moved to a pipeline placing position through the travelling wheels, then the cylinder C is started to push the sliding block, the connecting rod moves, the guide plate is pulled to rotate on the fixing plate through the rotating piece, and the end provided with the chamfer is in contact with the ground. Then starting the air cylinder A on the fixing frame A to push the fixing frame B to one side of the pipe fitting, which is far away from the material guide plate, then starting the air cylinder B to push the material shifting plate to move to the pipe fitting along the direction of the guide rod, and then starting the air cylinder A again to pull the fixing frame B, wherein the material shifting plate is attached to the pipe fitting and moves the pipe fitting to the material guide plate; the rotating rollers on the shifting plate abut against the pipe fittings, and meanwhile, the guide plate is provided with a non-slip mat to prevent the pipe fittings from sliding, so that the pipe fittings roll on the guide plate, and the cylinder B shrinks to drive the shifting plate to ascend along with the movement of the pipe fittings, thereby preventing the shifting plate from colliding with the guide plate; and finally, moving the pipe fitting between the two groups of ropes on the supporting frame. At the moment, the motor is started to drive the rotating shaft to rotate to release the rope, the pipe fitting is placed in the pre-dug pit, and finally the rope on the hook is unfastened and is wound on the rotating shaft again through the rotation of the motor. Circularly performing the operation to finish the pipeline placement of multiple sections; the utility model is convenient to enter different scenes and is more flexible; meanwhile, the pipe fitting is safer to transport, good in practicability and convenient to popularize.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a connection structure of the support frame and the pipe laying assembly in FIG. 1;

FIG. 3 is a schematic view of the material guiding assembly shown in FIG. 1;

fig. 4 is a schematic structural diagram of the material-poking plate in fig. 1.

Reference numerals: 1. a support frame; 2. placing the pipe assembly; 3. a power assembly; 4. a material guiding assembly; 5. a support frame main body; 6. supporting legs; 7. a traveling wheel; 8. hooking; 9. a motor; 10. a rotating shaft; 11. a limiting disc; 12. a rope; 13. a fixed mount A; 14. a cylinder A; 15. a fixed mount B; 16. a cylinder B; 17. a guide bar; 18. a kick-out plate; 19. rotating the roller; 20. a fixing plate; 21. a material guide plate; 22. a rotating member; 23. a connecting rod; 24. a slider; 25. a cylinder C; 26. a fixed seat; 27. and a baffle plate.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings.

Example one

As shown in fig. 1, 2 and 4, the hydraulic engineering construction device provided by the utility model comprises a support frame 1, a power assembly 3 and a material guide assembly 4;

the power assembly 3 is arranged on the support frame 1, and the support frame 1 is provided with a pipe placing assembly 2; the material guiding assembly 4 is arranged on the support frame 1 and positioned at one side far away from the power assembly 3, and the material guiding assembly 4 is positioned below the power assembly 3; wherein, the support frame 1 comprises a support frame main body 5, support legs 6 and a hook 8; four groups of supporting legs 6 are arranged on the supporting frame main body 5, and two groups of hooks 8 are arranged on the upper end face of the supporting frame main body 5 side by side; the kick-out plate 18 is provided with a roller 19, and the roller 19 is positioned at one side close to the material guide assembly 4, so that the pipe fittings can be conveniently moved; the walking wheels 7 are arranged on the supporting legs 6, and braking parts are arranged on the walking wheels 7, so that the support frame 1 can be conveniently moved to a position where a pipe fitting needs to be installed;

the pipe placing assembly 2 comprises a motor 9, a rotating shaft 10 and a rope 12; a mounting groove is formed in one side, away from the hook 8, of the support frame main body 5, the rotating shaft 10 is rotatably arranged on the support frame main body 5 and is positioned in the mounting groove, and two limiting discs 11 are arranged on the rotating shaft 10; the rope 12 is wound on the rotating shaft 10 and positioned between the limiting discs 11, and the other end of the rope 12 is connected with the hook 8; the rope 12 is detachably connected with the hook 8, so that the rope 12 is convenient to take out; the motor 9 is arranged on the support frame main body 5 and is in power connection with the rotating shaft 10;

the power assembly 3 comprises a fixed frame A13, a fixed frame B15, a guide rod 17 and a kickoff plate 18; the fixing frame A13 is arranged on the support frame main body 5, and the fixing frame A13 is provided with a cylinder A14; the fixing frame B15 is arranged on the telescopic rod of the cylinder A14, and the fixing frame B15 is provided with a cylinder B16; the material-shifting plate 18 is arranged on the fixed frame B15 in a sliding way through the guide rod 17, and the material-shifting plate 18 is connected with the telescopic rod of the cylinder B16.

In the embodiment, the support frame 1 is moved to a pipeline placing position through the travelling wheels 7, then the material guiding assembly 4 is adjusted to be in contact with the ground, then the air cylinder a14 on the fixing frame a13 is started to push the fixing frame B15 to one side of the pipe fitting, which is far away from the material guiding plate 21, then the air cylinder B16 is started to push the material shifting plate 18 to move to the pipe fitting position along the setting direction of the guide rod 17, then the air cylinder a14 is started again to pull the fixing frame B15, and at the moment, the material shifting plate 18 is attached to the pipe fitting and moves the pipe fitting to the material guiding assembly 4; the rotating rollers 19 on the material shifting plate 18 abut against the pipe fittings, so that the pipe fittings roll on the material feeding assembly 4, and along with the movement of the pipe fittings, the cylinder B16 contracts to drive the material shifting plate 18 to ascend, so that the material shifting plate 18 is prevented from colliding with the material guide plate 21; finally the tube is moved between the two sets of ropes 12 on the support frame 1. At the moment, the motor 9 is started to drive the rotating shaft 10 to rotate, the rope 12 is released to place the pipe fitting into the pre-dug pit, and finally the rope on the hook 8 is loosened and is wound on the rotating shaft 10 again through the rotation of the motor 9. Circularly performing the operation to finish the pipeline placement of multiple sections; the utility model is convenient to enter different scenes and is more flexible; meanwhile, the pipe fitting is safer to transport, good in practicability and convenient to popularize.

Example two

Compared with the first embodiment, the difference of the hydraulic engineering construction device provided by the present invention is shown in fig. 3, in which the material guiding assembly 4 includes a fixing plate 20, a material guiding plate 21, a connecting rod 23, a sliding block 24 and a fixing seat 26; the fixed plate 20 is arranged on the support frame main body 5, the material guide plate 21 is rotatably arranged on the fixed plate 20, and the rotating part 22 is arranged at the bottom of the material guide plate 21; the fixed seat 26 is arranged on the support frame main body 5, and the fixed seat 26 is provided with a cylinder C25; the sliding block 24 is arranged on the fixed seat 26 in a sliding manner and is connected with an expansion rod of the air cylinder C25; the connecting rod 23 is rotatably arranged on the sliding block 24 and is connected with the rotating part 22; the baffle plates 27 are arranged on both sides of the fixing plate 20 and the material guide plate 21 to prevent the pipe fittings from deviating; be equipped with the slipmat on the stock guide 21, prevent that the pipe fitting from skidding, the one end that the fixed plate 20 was kept away from to the stock guide 21 is equipped with the chamfer, conveniently removes the pipe fitting to the stock guide 21 on.

In the embodiment, the anti-slip pad is arranged on the material guide plate 21 to prevent the pipe fittings from slipping, and the pipe fittings roll on the material guide plate 21 by matching with the rotating rollers 19 on the material shifting plate 18, so that the pipe fittings are convenient to move; the baffle plates 27 are arranged on the two sides of the fixing plate 20 and the material guide plate 21, so that the pipe fittings are prevented from deviating in the rolling process, and the safety is improved.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (8)

1. A hydraulic engineering construction device is characterized by comprising a support frame (1), a power assembly (3) and a material guide assembly (4);

the power assembly (3) is arranged on the support frame (1), and the support frame (1) is provided with a pipe placing assembly (2); the material guiding assembly (4) is arranged on the support frame (1) and is positioned on one side far away from the power assembly (3), and the material guiding assembly (4) is positioned below the power assembly (3); wherein, the support frame (1) comprises a support frame main body (5), a support leg (6) and a hook (8); four groups of supporting legs (6) are arranged on the supporting frame main body (5), and two groups of hooks (8) are arranged on the upper end face of the supporting frame main body (5) side by side;

the pipe placing assembly (2) comprises a motor (9), a rotating shaft (10) and a rope (12); a mounting groove is formed in one side, away from the hook (8), of the support frame main body (5), the rotating shaft (10) is rotatably arranged on the support frame main body (5) and is positioned in the mounting groove, and two limiting discs (11) are arranged on the rotating shaft (10); the rope (12) is wound on the rotating shaft (10) and positioned between the limiting discs (11), and the other end of the rope (12) is connected with the hook (8); the motor (9) is arranged on the support frame main body (5) and is in power connection with the rotating shaft (10);

the power assembly (3) comprises a fixed frame A (13), a fixed frame B (15), a guide rod (17) and a kickoff plate (18); the fixed frame A (13) is arranged on the support frame main body (5), and the fixed frame A (13) is provided with a cylinder A (14); the fixing frame B (15) is arranged on a telescopic rod of the air cylinder A (14), and an air cylinder B (16) is arranged on the fixing frame B (15); the material shifting plate (18) is arranged on the fixed frame B (15) in a sliding mode through a guide rod (17), and the material shifting plate (18) is connected with an expansion rod of the air cylinder B (16).

2. The hydraulic engineering construction device according to claim 1, wherein the material guiding assembly (4) comprises a fixing plate (20), a material guiding plate (21), a connecting rod (23), a sliding block (24) and a fixed seat (26); the fixed plate (20) is arranged on the support frame main body (5), the material guide plate (21) is rotatably arranged on the fixed plate (20), and the bottom of the material guide plate (21) is provided with a rotating part (22); the fixed seat (26) is arranged on the support frame main body (5), and the fixed seat (26) is provided with a cylinder C (25); the sliding block (24) is arranged on the fixed seat (26) in a sliding manner and is connected with the telescopic rod of the cylinder C (25); the connecting rod (23) is rotatably arranged on the sliding block (24) and is connected with the rotating piece (22).

3. A hydraulic engineering construction device according to claim 2, characterized in that the retaining plate (20) and the material guide plate (21) are provided with baffles (27) on both sides.

4. A hydraulic engineering construction device according to claim 2, characterized in that the end of the material guiding plate (21) remote from the fixed plate (20) is chamfered.

5. A hydraulic engineering construction equipment according to claim 2 characterized in that the stock guide (21) is provided with a non-slip mat.

6. A hydraulic engineering construction device according to claim 1, characterized by further comprising road wheels (7); the walking wheels (7) are arranged on the supporting legs (6), and braking parts are arranged on the walking wheels (7).

7. A hydraulic engineering construction device according to claim 1, characterised in that the rope (12) is detachably connected to the hook (8).

8. A hydraulic engineering construction device according to claim 1, characterized in that the material shifting plate (18) is provided with a roller (19), and the roller (19) is positioned at one side close to the material guiding assembly (4).

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