CN218976182U - A bury line device for hydraulic and hydroelectric engineering - Google Patents

Abstract

The utility model discloses a wire burying device for hydraulic and hydroelectric engineering, which belongs to the technical field of wire burying devices for hydraulic and hydroelectric engineering, and comprises a base, wherein a through cavity is formed in one side of the upper end of the base, a bidirectional screw is arranged in the through cavity, screw blocks are symmetrically arranged on the bidirectional screw, and one end of the bidirectional screw is connected with a hand wheel; according to the utility model, by designing a group of adjusting mechanisms consisting of the bidirectional screw rod, the screw blocks and the hand wheels, in the paying-off process, the bidirectional screw rod can be driven to rotate through the hand wheels according to the paying-off interval, so that the screw blocks drive the wire pressing wheel to move under the action of threads, the interval is adjusted, the adjusting process is simple, the operation of staff is convenient, the usability and paying-off effect of the device are ensured, and the practicability of the device is improved.

Description

A bury line device for hydraulic and hydroelectric engineering

Technical Field

The utility model relates to a hydraulic engineering wire burying technology, in particular to a wire burying device for hydraulic and hydroelectric engineering, and belongs to the technical field of hydraulic engineering wire burying devices.

Background

In the hydropower construction process of hydraulic engineering projects, the buried pipe wiring construction of a hydropower line is an indispensable project, and a cable trench is generally cut in advance on a construction site, and then a cable is paved at the bottom of the trench.

Patent number CN202222052006.6 discloses a bury line device for hydraulic and hydroelectric engineering, which comprises a base plate, the lower surface mounting of bottom plate has four removal wheels, the wire groove has been seted up on the surface of bottom plate, the last fixed surface of bottom plate is provided with the mounting bracket, and the last surface mounting of mounting bracket has electric telescopic handle, and electric telescopic handle's flexible end runs through the mounting bracket, and fixedly connected with fixed block, and the lower surface of fixed block is provided with the extension rod, and the bottom fixed mounting of extension rod has the line ball gyro wheel.

Above-mentioned patent is in the use, the pay-off mechanism is said to the utilization drives the pay-off reel and rotates, and utilize electric telescopic handle to drive the line ball gyro wheel and press down and spacing to the cable, make the cable tiling place in the irrigation canals and ditches, and then improve the roughness of cable in the irrigation canals and ditches, need not the manual work to arrange in order again to the cable, help improving the efficiency of unwrapping wire work, but often need to adjust the interval between the unwrapping wire because the interval between the line ball gyro wheel is not adjustable in the unwrapping wire, and then lead to the performance of device not good, influence the unwrapping wire effect of device, the reduction device practicality.

Disclosure of Invention

The utility model mainly aims to provide a wire burying device for hydraulic and hydroelectric engineering.

The aim of the utility model can be achieved by adopting the following technical scheme:

a bury line device for hydraulic and hydroelectric engineering, the on-line screen storage device comprises a base, logical chamber has been seted up to base upper end one side, lead to the intracavity and install two-way screw rod, the symmetry is installed the spiral shell piece on the two-way screw rod, two-way screw rod one end is connected with the hand wheel, the spiral shell piece bottom is provided with electric putter, be connected with the line ball wheel on electric putter's the output, lead to chamber one side to have seted up the direction chamber, the intracavity mid-mounting of direction has the support, all install the guiding axle on the support both sides wall.

Preferably, the through cavity is formed on the base, the bidirectional screw rod is rotationally connected with the through cavity, the hand wheel penetrates through the base and is welded with one end of the bidirectional screw rod, the screw block is connected with the bidirectional screw rod through threads, and the screw block is slidably connected with the through cavity.

Preferably, the electric push rod is connected with the screw block through a screw, and the wire pressing wheel is connected with the output end of the electric push rod through a screw.

Preferably, the guide cavity is formed on the base, the support is welded with the guide cavity, and the guide shaft is rotationally connected with the support and the guide cavity.

Preferably, two groups of support plates are symmetrically welded at the upper end of the base, a pay-off cylinder is installed in the support plate and is rotationally connected with the support plate, a motor is connected to one side wall of the support plate through a bolt, and an output shaft of the motor is in key connection with the pay-off cylinder.

Preferably, a pushing frame is welded on one side wall of the base, and moving wheels are installed at four corners of the bottom end of the base and are rotationally connected with the base.

The beneficial technical effects of the utility model are as follows:

according to the utility model, by designing a group of adjusting mechanisms consisting of the bidirectional screw rod, the screw blocks and the hand wheels, in the paying-off process, the bidirectional screw rod can be driven to rotate through the hand wheels according to the paying-off interval, so that the screw blocks drive the wire pressing wheel to move under the action of threads, the interval is adjusted, the adjusting process is simple, the operation of staff is convenient, the usability and paying-off effect of the device are ensured, and the practicability of the device is improved.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of a buried wire device for hydraulic and hydroelectric engineering according to the present utility model;

FIG. 2 is a bottom view of a base of a preferred embodiment of a catwalk for hydraulic and hydroelectric engineering according to the present utility model;

fig. 3 is a front view of an electric push rod and a wire pressing wheel in a preferred embodiment of a wire embedding device for hydraulic and hydroelectric engineering according to the present utility model.

The reference numerals are explained as follows:

1-a hand wheel; 2-a base; 3-moving wheels; 4-an electric motor; 5-pushing a frame; 6, paying-off barrels; 7-supporting plates; 8-a guide cavity; 9-a guide shaft; 10-a bidirectional screw; 11-supporting seats; 12-screw blocks; 13-cavity through; 14-an electric push rod; 15-a wire pressing wheel.

Detailed Description

In order to make the technical solution of the present utility model more clear and obvious to those skilled in the art, the present utility model will be described in further detail with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

As shown in fig. 1-3, the wire burying device for the hydraulic and hydroelectric engineering provided by the embodiment comprises a base 2, wherein a through cavity 13 is formed in one side of the upper end of the base 2, a bidirectional screw rod 10 is installed in the through cavity 13, screw blocks 12 are symmetrically installed on the bidirectional screw rod 10, one end of the bidirectional screw rod 10 is connected with a hand wheel 1, an electric push rod 14 is arranged at the bottom end of the screw block 12, a wire pressing wheel 15 is connected to the output end of the electric push rod 14, a guide cavity 8 is formed in one side of the through cavity 13, a support 11 is installed in the middle of the guide cavity 8, and guide shafts 9 are installed on two side walls of the support 11.

The through cavity 13 is formed on the base 2, the bidirectional screw rod 10 is rotationally connected with the through cavity 13, the hand wheel 1 penetrates through the base 2 and is welded with one end of the bidirectional screw rod 10, the screw block 12 is in threaded connection with the bidirectional screw rod 10, the screw block 12 is in sliding connection with the through cavity 13, the hand wheel 1 can drive the bidirectional screw rod 10 to rotate, and the screw block 12 moves under the action of threads to adjust the distance between the wire pressing wheels 15.

The electric push rod 14 is connected with the screw block 12 through a screw, the wire pressing wheel 15 is connected with the output end of the electric push rod 14 through a screw, and the electric push rod 14 pushes the wire pressing wheel 15 to press the cable, so that the cable is laid in the cable trench.

The guide cavity 8 is formed on the base 2, the support 11 is welded with the guide cavity 8, the guide shaft 9 is rotationally connected with the support 11 and the guide cavity 8, and the guide shaft 9 in the guide cavity 8 guides the cable in the wire burying process.

Two groups of support plates 7 are symmetrically welded at the upper end of the base 2, a pay-off cylinder 6 is installed in the support plate 7, the pay-off cylinder 6 is rotationally connected with the support plate 7, a motor 4 is connected to one side wall of the support plate 7 through a bolt, an output shaft of the motor 4 is in key connection with the pay-off cylinder 6, and the motor 4 drives the pay-off cylinder 6 to rotate to release a cable.

A pushing frame 5 is welded on one side wall of the base 2, moving wheels 3 are mounted at four corners of the bottom end of the base 2, the moving wheels 3 are rotationally connected with the base 2, and workers move the device on the cable groove through the pushing frame 5 and the moving wheels 3.

As shown in fig. 1-3, the working process of the wire embedding device for hydraulic and hydroelectric engineering provided by the embodiment is as follows: firstly, the bidirectional screw rod 10 is driven to rotate through the hand wheel 1 according to the paying-off interval, the screw block 12 is driven to move under the action of threads, the interval between the screw block and the wire pressing wheel 15 is further adjusted, the adjusting process is simple, the operation of a worker is facilitated, then the electric push rod 14 pushes the wire pressing wheel 15 to move, the wire pressing wheel is adjusted to a proper height, in the wire burying process, the worker moves the device above a cable trench through the push frame 5 and the moving wheel 3, the motor 4 drives the paying-off barrel 6 to rotate so as to release the cable, meanwhile, the guide shaft 9 in the guide cavity 8 guides the cable, and the wire pressing wheel 15 presses the cable, so that the cable is tiled in the cable trench.

The above is merely a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present utility model within the scope of the present utility model disclosed in the present utility model.

Claims (6)

1. A bury line device for hydraulic and hydroelectric engineering, its characterized in that: including base (2), logical chamber (13) have been seted up to base (2) upper end one side, lead to and install bi-directional screw (10) in chamber (13), screw block (12) are installed to symmetry on bi-directional screw (10), bi-directional screw (10) one end is connected with hand wheel (1), screw block (12) bottom is provided with electric putter (14), be connected with wire pressing wheel (15) on the output of electric putter (14), lead to chamber (13) one side and seted up guide chamber (8), mid-mounting has support (11) in guide chamber (8), guiding axle (9) are all installed on support (11) both sides wall.

2. The buried wire device for hydraulic and hydroelectric engineering according to claim 1, wherein: the through cavity (13) is formed on the base (2), the bidirectional screw (10) is rotationally connected with the through cavity (13), the hand wheel (1) penetrates through the base (2) and is welded with one end of the bidirectional screw (10), the screw block (12) is in threaded connection with the bidirectional screw (10), and the screw block (12) is in sliding connection with the through cavity (13).

3. The buried wire device for hydraulic and hydroelectric engineering according to claim 2, wherein: the electric push rod (14) is connected with the screw block (12) through a screw, and the wire pressing wheel (15) is connected with the output end of the electric push rod (14) through a screw.

4. A catwalk apparatus for hydraulic and hydroelectric engineering according to claim 3, wherein: the guide cavity (8) is formed on the base (2), the support (11) is welded with the guide cavity (8), and the guide shaft (9) is rotationally connected with the support (11) and the guide cavity (8).

5. The buried wire device for hydraulic and hydroelectric engineering according to claim 4, wherein: two groups of support plates (7) are symmetrically welded at the upper end of the base (2), a pay-off cylinder (6) is installed in the support plate (7), the pay-off cylinder (6) is rotationally connected with the support plate (7), a motor (4) is connected to one side wall of the support plate (7) through bolts, and an output shaft of the motor (4) is in key connection with the pay-off cylinder (6).

6. The buried wire device for hydraulic and hydroelectric engineering according to claim 5, wherein: a pushing frame (5) is welded on one side wall of the base (2), moving wheels (3) are mounted at four corners of the bottom end of the base (2), and the moving wheels (3) are rotationally connected with the base (2).

Images