CN113363897A - Groove type cable bridge device and installation method thereof - Google Patents

Abstract

The invention provides a groove type cable bridge device and an installation method thereof, and relates to the technical field of bridges. The invention has reasonable structure and good use effect.

Description

Groove type cable bridge device and installation method thereof

Technical Field

The invention belongs to the technical field of bridges, and particularly relates to a groove type cable bridge device and an installation method thereof.

Background

The cable bridge is an important ring in an electrical equipment power supply system and often plays an important role, the cable bridge is a common supporting and protecting device for cable laying, the cable bridge plays a role in protecting and guiding routing of cables arranged in the cable bridge, and the traditional cable bridge is divided into a groove type cable bridge, a ladder type cable bridge, a tray type cable bridge and the like.

The utility model provides a slot type cable bridge apron section bar (CN201310254929.2), discloses a slot type cable bridge apron for laying cable, and it has adopted upper cover plate, lower cover plate, curb plate, recess, liner and support, and the apron is bilayer structure and vertically is equipped with a plurality of supports between upper cover plate and the lower cover plate, has increased the intensity and the thermal-insulated ability of apron.

Among the prior art, most slot type cable testing bridge structure as an organic whole, and when the installation, lack stability, make the crane span structure take place to rock easily, and the cable is not convenient for integrate to when the cable breaks down not be convenient for investigate, and prick into a bunch with various cables and place in the cable crane span structure, make the inside cable of cable crane span structure more mixed and disorderly, consequently need improve on the basis to current cable crane span structure, be convenient for more place wire and cable.

Disclosure of Invention

To solve the above technical problems, an object of the present invention is to provide a trough cable tray device and a method for installing the same.

The invention provides the following technical scheme:

a groove type cable bridge device and an installation method thereof comprise a bridge frame body, wherein a top plate is arranged in the bridge frame body, bottom cylinders are arranged on the top plate and two sides of the inner wall of the bridge frame body, a third spring is arranged in each bottom cylinder, a cylinder moving block is arranged on one side of each third spring, a first rotating rod is rotatably arranged on one side of each cylinder moving block, a connecting plate and a bending frame are respectively rotatably arranged on one side of each first rotating rod, a telescopic inserting cylinder is arranged between each connecting plate and the top plate, a telescopic inserting cylinder is arranged between each bending frame and the bridge frame body, and a fourth spring is wound on each telescopic inserting cylinder;

first slide rails are arranged on two sides of the top of the bending frame, a thin slide block is arranged on the first slide rails in a sliding mode, a fourth spring and a fifth spring are arranged on two sides of the thin slide block, the fourth spring and the fifth spring are connected with the first slide rails, a second rotating rod is arranged on one side of the thin slide block in a rotating mode, a bending rod is arranged on one side of the second rotating rod in a rotating mode, the bending rod is connected with the bending frame in a rotating mode, a wheel groove is formed in one side of the bending rod, wheel rods are arranged on two sides of the bottom of the connecting plate, pulleys are arranged at the bottoms of the wheel rods, and the pulleys are connected with the wheel grooves in a sliding mode;

the connecting plate bottom is equipped with the second slide rail, second slide rail both sides are equipped with the bracing piece, be equipped with the threaded rod between the bracing piece, the threaded rod both sides are rotated and are equipped with the screw thread slider, the screw thread slider with the second slide rail slides and links to each other, screw thread slider one side is rotated and is equipped with the third bull stick, be equipped with square piece between the third bull stick, the cover is equipped with the cover sliding frame on the square piece, square piece bottom is equipped with first arc, first arc bottom is equipped with the sill bar, sill bar one side is equipped with the second arc, the frame top of buckling is equipped with fixed frame, fixed frame top is equipped with at least one seventh spring, seventh spring top is equipped with the third arc, the third arc with be equipped with the wire guide dish between the second arc.

Preferably, the two sides of the bottom of the bridge frame body are provided with bottom grooves, moving blocks are arranged at the bottom grooves in a sliding mode, fixed rods are arranged on one sides of the moving blocks, blocks are arranged between the fixed rods, and first springs are wound on the fixed rods.

Preferably, the bridge frame body bottom inner wall both sides are equipped with the mount, mount one side is equipped with the side plate piece, side plate piece top is equipped with the motor, mount one side is equipped with two first rolling wheels, motor one side is rotated and is equipped with first rolling wheel, be equipped with the rope between the first rolling wheel, first rolling wheel opposite side is rotated and is equipped with the second rolling wheel, the second rolling wheel with be equipped with between the roof the rope.

Preferably, two side walls of the bending frame are provided with straight plates, and a sixth spring is arranged between the straight plates and the bending rod.

Preferably, U-shaped frames are arranged on two sides of the first arc-shaped plate, side frames are arranged on two sides of the top of the bending frame, and the U-shaped frames are connected with the side frames in a sliding mode.

Preferably, at least one wire guide hole is arranged on the wire guide disc.

Based on the device, the invention also provides an installation method of the groove type cable bridge device, which comprises the following steps:

s1, the bridge frame body moves downwards, when the moving block moves to the notch at the position of the push-and-retract rod, the first spring recovers deformation, at the moment, the moving block moves to the notch, then the push-and-retract rod and the second spring at the notch are extruded, meanwhile, the top of the second spring slides on the bottom groove, and at the moment, the bridge frame body is stably connected with the bottom frame;

s2, the motor drives the first winding wheel to pull the first winding wheel on the other side, the first winding wheel drives the second winding wheel, the top plate is pulled downwards, and the top plate in the bridge frame body can move downwards after being pulled by the rope.

S3, when the top plate moves downwards, the fourth spring is extruded through the telescopic insertion barrel, meanwhile, the whole formed between the connecting plate and the bending frame also moves downwards to extrude the fourth spring through the telescopic insertion barrel, when the telescopic insertion barrel is extruded, the first rotating rod rotates to drive the barrel moving block to extrude the third spring in the bottom barrel, and when the telescopic insertion barrel contracts, the connecting plate is driven to move downwards;

s4, when the connecting plate moves downwards, the pulley is driven by the wheel rod to extrude the bending rod, meanwhile, the pulley can move in the wheel groove on one side of the bending rod, when the bending rod rotates, the second rotating rod can drive the second rotating rod to rotate, the second rotating rod rotates to drive the thin sliding block to move in the first sliding rail, and when the thin sliding block moves, the fifth spring is extruded and the fourth spring is pulled;

s5, when the connecting plate drives the driving wheel rod to move downwards, the first arc-shaped plate is driven to move through the second sliding rail, the threaded rod and the sliding sleeve frame, the wire is placed on the wire coil, the wire coil is placed between the second arc-shaped plate and the third arc-shaped plate, when the first arc-shaped plate moves, the second arc-shaped plate is driven to compress the wire coil, the wire coil is driven to extrude the third arc-shaped plate, and the third arc-shaped plate moves in the fixing frame and extrudes the seventh spring;

s6, the threaded rod drives the threaded sliding block to move on the threaded rod, meanwhile, the threaded sliding block moves on the second sliding rail, when the threaded sliding block approaches, the square block is driven to move in the sleeve sliding frame, and meanwhile, the U-shaped frames on two sides of the first arc-shaped plate are driven to slide on the side frames.

The invention has the beneficial effects that: the invention has stable design structure, the fourth spring can be extruded through the telescopic insertion cylinder when the top plate moves downwards, meanwhile, the whole body formed between the connecting plate and the bending frame can also move downwards to extrude the fourth spring through the telescopic insertion cylinder, and when the telescopic insertion cylinder is extruded, the first rotating rod can rotate the moving cylinder moving block to extrude the third spring in the bottom cylinder, so that the downward moving stability of the top plate is increased, and the stability of the whole body formed between the bending frame and the connecting plate is increased;

when the telescopic insertion cylinder contracts, the connecting plate is driven to move downwards, when the connecting plate moves downwards, the pulley is driven by the wheel rod to extrude the bending rod, meanwhile, the pulley can move in a wheel groove on one side of the bending rod, when the bending rod rotates, the second rotating rod can drive the second rotating rod to rotate, the second rotating rod rotates to drive the thin sliding block to move in the first sliding rail, when the thin sliding block moves, the fifth spring is extruded and the fourth spring is pulled, so that the stability when the connecting plate moves downwards is improved;

the connecting plate can pass through the second slide rail when driving the wheel lever and move down, the threaded rod, the whole of cover sliding frame drives first arc and removes, put the wire on the wire coil, the wire coil is put between second arc and third arc, drive the second arc and compress tightly the wire coil when first arc removes, drive the wire coil simultaneously and extrude third arc, third arc removes and extrudees the seventh spring in fixed frame, if will strengthen pressing from both sides tight to the wire coil, the threaded rod drives the screw slider and removes on the threaded rod, the screw slider moves on the second slide rail simultaneously, when the screw slider is close to, drive square piece and remove in cover sliding frame, drive the U type frame of first arc both sides simultaneously and slide on the side frame, and play and strengthen pressing from both sides tight effect to the wire coil.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is an enlarged schematic view of the invention at A;

FIG. 3 is an enlarged view of the connecting plate of the present invention;

FIG. 4 is an enlarged schematic view of the present invention at B.

Labeled as: 1. the bridge frame body, 2, a bottom frame, 3, a bottom groove, 4, a moving block, 5, a fixed rod, 6, a first spring, 7, a push-and-contract rod, 8, a second spring, 9, a fixed frame, 10, a first winding wheel, 11, a second winding wheel, 12, a bottom barrel, 13, a third spring, 14, a first rotating rod, 15, a telescopic inserting barrel, 16, a fourth spring, 17, a bent frame, 18, a top plate, 19, a connecting plate, 20, a first sliding rail, 21, a fourth spring, 22, a fifth spring, 23, a second rotating rod, 24, a sixth spring, 25, a bent rod, 26, a wheel groove, 27, a wheel rod, 28, a second sliding rail, 29, a threaded rod, 30, a threaded slide block, 31, a third rotating rod, 32, a sliding sleeve frame, 33, a square block, 34, a first arc-shaped plate, 35, a second arc-shaped plate, 36, a third arc-shaped plate, 37, 38, a seventh spring, 39, a side frame, 40, U-shaped frame, 41. a wire coil.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1:

as shown in fig. 1-4, a trough cable bridge device and a mounting method thereof include a bridge frame body 1, a top plate 18 is arranged in the bridge frame body 1, bottom cylinders 12 are arranged on two sides of the inner wall of the bridge frame body 1 and the top plate 18, third springs 13 are arranged in the bottom cylinders 12, cylinder moving blocks are arranged on one sides of the third springs 13, first rotating rods 14 are rotatably arranged on one sides of the cylinder moving blocks, a connecting plate 19 and a bending frame 17 are rotatably arranged on one sides of the first rotating rods 14, a telescopic insertion cylinder 15 is arranged between the connecting plate 19 and the top plate 18, a telescopic insertion cylinder 15 is arranged between the bending frame 17 and the bridge frame body 1, and a fourth spring 16 is wound on the telescopic insertion cylinder 15;

first slide rail 20 is arranged on two sides of the top of bending frame 17, thin slide blocks are arranged on first slide rail 20 in a sliding mode, fourth springs 21 and fifth springs 22 are arranged on two sides of the thin slide blocks, fourth springs 21 and fifth springs 22 are connected with first slide rail 20, second rotating rods 23 are arranged on one sides of the thin slide blocks in a rotating mode, bending rods 25 are arranged on one sides of the second rotating rods 23 in a rotating mode, the bending rods 25 are connected with the bending frame 17 in a rotating mode, wheel grooves 26 are arranged on one sides of the bending rods 25, wheel rods 27 are arranged on two sides of the bottom of connecting plate 19, pulleys are arranged at the bottoms of the wheel rods 27, and the pulleys are connected with the wheel grooves 26 in a sliding mode.

The working principle of the embodiment is as follows:

the top plate 18 in the bridge frame body 1 can move downwards after being pulled by a rope, the top plate 18 can extrude a fourth spring 16 through a telescopic insertion tube 15 when moving downwards, meanwhile, the whole body formed between the connecting plate 19 and the bending frame 17 can also move downwards to extrude the fourth spring 16 through the telescopic insertion tube 15, and when the telescopic insertion tube 15 is extruded, the first rotating rod 14 can rotate to drive a tube moving block to extrude a third spring 13 in the bottom tube 12, so that the downward movement stability of the top plate 18 is improved, and the stability of the whole body formed between the bending frame 17 and the connecting plate 19 is improved; the telescopic insertion tube 15 can drive the connecting plate 19 to move downwards when being contracted, the connecting plate 19 drives the pulley to extrude the bending rod 25 through the wheel rod 27 when moving downwards, meanwhile, the pulley can move in the wheel groove 26 on one side of the bending rod 25, the bending rod 25 can drive the second rotating rod 23 to rotate when rotating, the second rotating rod 23 rotates to drive the thin sliding block to move in the first sliding rail 20, the thin sliding block extrudes the fifth spring 22 and pulls the fourth spring 21 when moving, and the stability of the connecting plate 19 when moving downwards is improved.

Example 2:

as shown in fig. 1-4, a second slide rail 28 is disposed at the bottom of the connecting plate 19, support rods are disposed on two sides of the second slide rail 28, a threaded rod 29 is disposed between the support rods, threaded sliders 30 are rotatably disposed on two sides of the threaded rod 29, the threaded sliders 30 are connected with the second slide rail 28 in a sliding manner, a third rotating rod 31 is rotatably disposed on one side of each threaded slider 30, a square block 33 is disposed between the third rotating rods 31, a sleeve sliding frame 32 is sleeved on each square block 33, a first arc-shaped plate 34 is disposed at the bottom of each square block 33, a bottom rod is disposed at the bottom of each first arc-shaped plate 34, a second arc-shaped plate 35 is disposed on one side of each bottom rod, a fixing frame 37 is disposed at the top of each bending frame 17, at least one seventh spring 38 is disposed at the top of each fixing frame 37, a third arc-shaped plate 36 is disposed at the top of each seventh spring 38, and a wire guide disc 41 is disposed between each third arc-shaped plate 36 and each second arc-shaped plate 35.

The working principle of the embodiment is as follows:

when the connecting plate 19 drives the wheel rod 27 to move downwards, the first arc-shaped plate 34 is driven to move through the whole of the second slide rail 28, the threaded rod 29 and the sleeve slide frame 32, the wire is placed on the wire disk 41, the wire disk 41 is placed between the second arc-shaped plate 35 and the third arc-shaped plate 36, the second arc-shaped plate 35 is driven to compress the wire disk 41 when the first arc-shaped plate 34 moves, at the same time, the wire disc 41 is driven to press the third arc-shaped plate 36, the third arc-shaped plate 36 moves in the fixed frame 37 and presses the seventh spring 38, if the clamping of the wire disc 41 is to be strengthened, the threaded rod 29 drives the threaded slider 30 to move on the threaded rod 29, meanwhile, the threaded sliding block 30 moves on the second slide rail 28, and when the threaded sliding block 30 approaches, the square block 33 is driven to move in the sleeve slide frame 32, at the same time, the U-shaped frames 40 on both sides of the first arc-shaped plate 34 are driven to slide on the side frames 39, and the effect of reinforcing and clamping the wire disc 41 is achieved.

Example 3:

as shown in fig. 1-4, two sides of the bottom of the bridge frame body 1 are provided with bottom grooves 3, moving blocks 4 are slidably arranged at the bottom grooves 3, fixed rods 5 are arranged on one sides of the moving blocks 4, blocks are arranged between the fixed rods 5, and first springs 6 are wound on the fixed rods 5. The bridge frame body 1 bottom inner wall both sides are equipped with mount 9, and mount 9 one side is equipped with the side plate piece, the side plate piece top is equipped with the motor, and 8 one sides of mount are equipped with two first rolling wheels 10, and motor one side is rotated and is equipped with first rolling wheel 10 is equipped with the rope between the first rolling wheel 10, first rolling wheel 10 opposite side is rotated and is equipped with second rolling wheel 11, is equipped with between second rolling wheel 11 and the roof 18 the rope. Two side walls of the bending frame 17 are provided with straight plates, and a sixth spring 24 is arranged between the straight plates and the bending rod. U-shaped frames 40 are arranged on two sides of the first arc-shaped plate 34, side frames 39 are arranged on two sides of the top of the bending frame 17, and the U-shaped frames 40 are connected with the side frames 39 in a sliding mode. The wire tray 41 is provided with at least one wire guide hole.

The working principle of the embodiment is as follows:

because the moving block 4 extrudes the first spring 6 and is sleeved on the fixed rod 5, the bridge body 1 moves downwards, when the moving block 4 moves to the notch at the position of the push-and-pull rod 7, the first spring 6 recovers deformation, at the moment, the moving block 24 moves to the notch, then the push-and-pull rod 7 and the second spring 18 at the notch are extruded, meanwhile, the top of the push-and-pull rod slides on the bottom groove 3, and at the moment, the bridge body 1 is stably connected with the bottom frame 2; the motor drives the first winding wheel 10 to pull the first winding wheel 10 on the other side, the first winding wheel 10 drives the second winding wheel 11, and the top plate 18 is pulled downwards at the moment.

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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a slot type cable testing bridge device which characterized in that: the bridge frame comprises a bridge frame body, wherein a top plate is arranged in the bridge frame body, bottom cylinders are arranged on two sides of the top plate and the inner wall of the bridge frame body, a third spring is arranged in each bottom cylinder, a cylinder moving block is arranged on one side of the third spring, a first rotating rod is rotatably arranged on one side of the cylinder moving block, a connecting plate and a bending frame are respectively rotatably arranged on one side of the first rotating rod, a telescopic inserting cylinder is arranged between the connecting plate and the top plate, the telescopic inserting cylinder is arranged between the bending frame and the bridge frame body, and a fourth spring is wound on the telescopic inserting cylinder;

first slide rails are arranged on two sides of the top of the bending frame, a thin slide block is arranged on the first slide rails in a sliding mode, a fourth spring and a fifth spring are arranged on two sides of the thin slide block, the fourth spring and the fifth spring are connected with the first slide rails, a second rotating rod is arranged on one side of the thin slide block in a rotating mode, a bending rod is arranged on one side of the second rotating rod in a rotating mode, the bending rod is connected with the bending frame in a rotating mode, a wheel groove is formed in one side of the bending rod, wheel rods are arranged on two sides of the bottom of the connecting plate, pulleys are arranged at the bottoms of the wheel rods, and the pulleys are connected with the wheel grooves in a sliding mode;

the connecting plate bottom is equipped with the second slide rail, second slide rail both sides are equipped with the bracing piece, be equipped with the threaded rod between the bracing piece, the threaded rod both sides are rotated and are equipped with the screw thread slider, the screw thread slider with the second slide rail slides and links to each other, screw thread slider one side is rotated and is equipped with the third bull stick, be equipped with square piece between the third bull stick, the cover is equipped with the cover sliding frame on the square piece, square piece bottom is equipped with first arc, first arc bottom is equipped with the sill bar, sill bar one side is equipped with the second arc, the frame top of buckling is equipped with fixed frame, fixed frame top is equipped with at least one seventh spring, seventh spring top is equipped with the third arc, the third arc with be equipped with the wire guide dish between the second arc.

2. The trough cable tray assembly of claim 1, wherein: the bridge frame is characterized in that two sides of the bottom of the bridge frame body are provided with bottom grooves, moving blocks are slidably arranged at the bottom grooves, fixed rods are arranged on one sides of the moving blocks, blocks are arranged between the fixed rods, and first springs are wound on the fixed rods.

3. The trough cable tray assembly of claim 1, wherein: the bridge frame body bottom inner wall both sides are equipped with the mount, mount one side is equipped with the side plate piece, side plate piece top is equipped with the motor, mount one side is equipped with two first rolling wheels, motor one side is rotated and is equipped with first rolling wheel, be equipped with the rope between the first rolling wheel, first rolling wheel opposite side is rotated and is equipped with the second rolling wheel, the second rolling wheel with be equipped with between the roof the rope.

4. The trough cable tray assembly of claim 1, wherein: the two side walls of the bending frame are provided with straight plates, and sixth springs are arranged between the straight plates and the bending rods.

5. The trough cable tray assembly of claim 1, wherein: the first arc both sides are equipped with U type frame, frame top both sides of buckling are equipped with the side frame, U type frame with the side frame slides and links to each other.

6. The trough cable tray assembly of claim 1, wherein: the wire guide disc is provided with at least one wire guide hole.

7. The method of installing a trough cable tray assembly of claim 1, comprising the steps of:

s1, the bridge frame body moves downwards, when the moving block moves to the notch at the position of the push-and-retract rod, the first spring recovers deformation, at the moment, the moving block moves to the notch, then the push-and-retract rod and the second spring at the notch are extruded, meanwhile, the top of the second spring slides on the bottom groove, and at the moment, the bridge frame body is stably connected with the bottom frame;

s2, the motor drives the first winding wheel to pull the first winding wheel on the other side, the first winding wheel drives the second winding wheel, the top plate is pulled downwards, and the top plate in the bridge frame body can move downwards after being pulled by the rope.

S3, when the top plate moves downwards, the fourth spring is extruded through the telescopic insertion barrel, meanwhile, the whole formed between the connecting plate and the bending frame also moves downwards to extrude the fourth spring through the telescopic insertion barrel, when the telescopic insertion barrel is extruded, the first rotating rod rotates to drive the barrel moving block to extrude the third spring in the bottom barrel, and when the telescopic insertion barrel contracts, the connecting plate is driven to move downwards;

s4, when the connecting plate moves downwards, the pulley is driven by the wheel rod to extrude the bending rod, meanwhile, the pulley can move in the wheel groove on one side of the bending rod, when the bending rod rotates, the second rotating rod can drive the second rotating rod to rotate, the second rotating rod rotates to drive the thin sliding block to move in the first sliding rail, and when the thin sliding block moves, the fifth spring is extruded and the fourth spring is pulled;

s5, when the connecting plate drives the driving wheel rod to move downwards, the first arc-shaped plate is driven to move through the second sliding rail, the threaded rod and the sliding sleeve frame, the wire is placed on the wire coil, the wire coil is placed between the second arc-shaped plate and the third arc-shaped plate, when the first arc-shaped plate moves, the second arc-shaped plate is driven to compress the wire coil, the wire coil is driven to extrude the third arc-shaped plate, and the third arc-shaped plate moves in the fixing frame and extrudes the seventh spring;

s6, the threaded rod drives the threaded sliding block to move on the threaded rod, meanwhile, the threaded sliding block moves on the second sliding rail, when the threaded sliding block approaches, the square block is driven to move in the sleeve sliding frame, and meanwhile, the U-shaped frames on two sides of the first arc-shaped plate are driven to slide on the side frames.

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