CN219247375U - Adjustable cable bridge rack on conveyor - Google Patents

Abstract

The utility model discloses an adjustable cable bridge on a conveyor, which comprises an embedded bridge and a clamping bridge; one end of the embedded bridge is embedded into one end of the clamping bridge, the overlapping part of the embedded bridge and the clamping bridge is an overlapping area, and the width of the overlapping area can be adjusted; the cable penetrates from the other end of the clamping bridge frame and penetrates out from the other end of the embedded bridge frame; one end of the cable, which passes through the embedded bridge, is connected to the conveyor; the embedded bridge and the clamping bridge are suspended by a hook. The utility model provides an adjustable cable bridge on a conveyor, which is characterized in that an embedded bridge is connected with one end of a clamping bridge in an embedded manner, a width-adjustable overlapping area is formed at the connecting position, and the buffer effect of the overlapping area is utilized to effectively prevent external damage to an internal cable caused by the stress of the bridge in the moving and advancing processes of a bracket.

Description

Adjustable cable bridge rack on conveyor

Technical Field

The utility model relates to the field of adjustable cable bridges on a conveyor.

Background

The cables connected with the conveyor are usually supported and accommodated through the cable bridge frame, so that the cables can be protected; at present, most of common cable bridges are rectangular, and most of the cable bridges are of an integrated structure, and the cable is in a linear state inside; the cable bridge is generally fixed relatively through a bracket; when moving the support or pushing the conveyer, the cable bridge drives the cable to move, and in the moving process, the cable bridge and the cable have relative movement, and because the cable bridge bears larger external force, the cable bridge is damaged due to certain external force damage to the internal cable, and the hidden danger of causing safety production accidents exists, so that the cable bridge needs to be optimized in order to effectively inhibit the external force damage to the internal cable due to the stress of the bridge.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides the adjustable cable bridge on the conveyor, which is characterized in that an embedded bridge is connected with one end of a clamping bridge in an embedded manner, a width-adjustable overlapping area is formed at the connecting position, and the buffer effect of the overlapping area is utilized to effectively prevent external force damage to an internal cable caused by the stress of the bridge in the moving process of a bracket and the propelling process of the conveyor.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the utility model is as follows:

an adjustable cable bridge on a conveyor comprises an embedded bridge and a clamping bridge; one end of the embedded bridge is embedded into one end of the clamping bridge, the overlapping part of the embedded bridge and the clamping bridge is an overlapping area, and the width of the overlapping area can be adjusted; the cable penetrates from the other end of the clamping bridge frame and penetrates out from the other end of the embedded bridge frame; one end of the cable, which passes through the embedded bridge, is connected to the conveyor; the embedded bridge and the clamping bridge are suspended by a hook.

Further, one end of the embedded bridge frame, which is embedded into the clamping bridge frame, is an embedded end; the corresponding embedded end of the clamping bridge frame is a clamping end; the embedded end and the clamping end are arranged in parallel; one end, far away from the overlapping area, of the clamping bridge is a bending end; the bending end is obliquely and upwardly bent, and the clamping bridge forms an S shape.

Further, one end of the bending end far away from the overlapping area is arranged in parallel to form a parallel end; the parallel end is parallel to the clamping end and the embedded bridge.

Further, fixing holes are respectively formed in the tops of the parallel ends and the tops of one ends, far away from the overlapping area, of the embedded bridge; the hanging hook is fixed at the fixing hole; the bottom of the opening of the parallel end is fixedly provided with an inclined plate; the inclined plate is arranged in a downward inclined extending manner; the inclined end of the inclined plate is provided with a reinforcing hole; the hanging reinforcing hooks are fixed on the reinforcing holes.

Further, one end of the cable, which is positioned on the clamping bridge, is suspended and arranged through a single track; one end of the cable penetrating into the clamping bridge is positioned in the middle of the parallel end.

Further, the side wall of the embedded end is provided with a groove; the inner wall of the clamping end is provided with a convex rib matched with the groove; the convex rib is arranged along the length direction of the clamping end.

Further, the side wall of the embedded end is provided with a connecting hole, and a plurality of connecting interval arrays are distributed; the side wall of the clamping end is provided with a through hole corresponding to the connecting hole in a penetrating way; the limiting piece is arranged in the through hole and the connecting hole.

The beneficial effects are that: the embedded bridge and the clamping bridge are spliced together in a clamping manner to form the cable bridge, the superposition area formed at the splicing position is a buffer area, and when the conveyor is pushed or the bridge support is moved, the embedded bridge or the clamping bridge at one end is driven to move relatively, so that the self-adaptive width adjustment of the superposition area has a buffer effect; the embedded bridge and the clamping bridge are driven to move relatively close to each other, the width of the overlapping area can be adjusted to be increased, the cable is extruded in the cable bridge and is in a bending and extensible state, and when the cable is bent and arranged in the cable bridge and the cable bridge is driven to incline by the moving support or the conveyor, the cable is correspondingly driven to extend, so that the cable which is bent and arranged can adapt to the moving action of the cable bridge and is not easy to be pulled and damaged; the cable bridge is effectively restrained from being stressed by the bridge, external force damage to cables in the cable bridge is avoided, and the cable is protected.

Drawings

FIG. 1 is a diagram of a cable tray;

FIG. 2 is a top view of the cable tray;

fig. 3 is a diagram showing the structure of the rib.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1-3: an adjustable cable bridge on a conveyor; comprises an embedded bridge 1 and a clamping bridge 2; one end of the embedded bridge 1 is embedded into one end of the clamping bridge 2, the overlapping part of the embedded bridge 1 and the clamping bridge 2 is an overlapping area 3, and the width of the overlapping area 3 can be adjusted; the cable penetrates from the other end of the clamping bridge 2 and penetrates out from the other end of the embedded bridge 1; one end of the cable, which passes through the embedded bridge 1, is connected to the conveyor; the embedded bridge 1 and the clamping bridge 2 are suspended by a hook. The embedded bridge and the clamping bridge are spliced together in a clamping manner to form a cable bridge, the splicing positions form an overlapping area, the overlapping area is a reserved buffer area, and when a conveyor is pushed or a bridge support is moved, the embedded bridge or the clamping bridge at one end is driven to move, so that the self-adaptive width adjustment of the overlapping area has a buffering effect; at the moment, the embedded bridge and the clamping bridge move relatively close to each other, so that the width of the overlapping area is increased, the cables in the area are in a bending and extensible state, the free extensibility in multiple directions is realized, the damage to external force caused by the fact that the internal cables are pulled by the stress of the bridge can be effectively restrained, for example, when the movable support or the conveyor promotes the cable bridge to incline, the cables are correspondingly driven to extend, and the cables which are bent can adapt to the movement of the cable bridge and are not easy to be pulled and damaged; plays an important role in protecting the cable, and effectively suppresses the safety production accident caused by the damage of the cable when the bracket moves and slides.

One end of the embedded bridge 1, which is embedded into the clamping bridge 2, is an embedded end 11; the corresponding embedded end 11 of the clamping bridge 2 is a clamping end 21; the embedded end 11 and the clamping end 21 are arranged in parallel; one end of the clamping bridge 2, which is far away from the overlapping area 3, is a bending end 22; the bending end 22 is obliquely and upwardly bent, and the cable in the clamping bridge 2 is in an S shape. The end of the bending end 22 far away from the superposition area 3 is parallel to be a parallel end 23; the parallel end 23 is parallel to the engaging end 21 and the embedded bridge 1. The embedded end is embedded in the clamping end, the embedded end 11 and the clamping end 21 are arranged in parallel, so that an overlapping area is formed, the embedded bridge and the clamping bridge are convenient to move, the overlapping area is adjusted, the clamping bridge is in an S-shaped bending state, a cable in the cable bridge is in an S-shaped bending state, when the embedded bridge or the clamping bridge is moved, the width of the overlapping area is increased or reduced, the bent cable is correspondingly stretched and is not easy to be pulled and damaged, and therefore the cable can be protected.

The top of the parallel end 23 and the top of one end of the embedded bridge 1 far away from the overlapping area 3 are respectively provided with a fixing hole 4; the hanging hook is fixed at the fixing hole 4; an inclined plate 24 is fixedly arranged at the bottom of the opening of the parallel end 23; the inclined plate 24 is arranged in a downward inclined extending manner; the inclined end of the inclined plate 24 is provided with a reinforcing hole 241; the hanging reinforcing hooks are fixed to the reinforcing holes 241. Through set up couple and reinforcement hook on the cable testing bridge, can hoist the cable testing bridge, increase the steadiness.

One end of the cable, which is positioned on the clamping bridge 2, is suspended and arranged through a monorail crane; one end of the cable penetrating into the clamping bridge 2 is positioned in the middle of the parallel end 24; the cable penetrating into the cable bridge frame and the inner wall of the cable bridge frame can reserve a space, so that the cable is facilitated to move when the cable bridge frame is moved, and the abrasion to the cable and the pulling damage degree are reduced.

The side wall of the embedded end 11 is provided with a groove 111; the inner wall of the clamping end 21 is provided with a convex rib 211 matched with the groove 111; the protruding rib 211 is disposed along the length direction of the engaging end 21. The embedded end is embedded into the clamping end during installation, and the convex rib on the clamping end is clamped into the groove, so that the guiding and positioning effects can be achieved.

The side wall of the embedded end 11 is provided with a plurality of connecting holes 5, and the plurality of connecting holes 5 are distributed in an array at intervals; the side wall of the clamping end 21 is provided with a through hole 51 corresponding to the connecting hole 5 in a penetrating way; the stopper is provided in the through hole 51 and the connecting hole 5. The embedded end and the clamping end can be connected together through the limiting piece, so that a superposition area is formed at the joint of the embedded end and the clamping end, the stability of the cable bridge formed by splicing is improved, and when the cable bridge needs to be moved, only the limiting piece needs to be taken down.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the utility model described above, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims (7)

1. An adjustable cable testing bridge on conveyer, its characterized in that: comprises an embedded bridge (1) and a clamping bridge (2); one end of the embedded bridge (1) is embedded into one end of the clamping bridge (2), the overlapping part of the embedded bridge (1) and the clamping bridge (2) is an overlapping area (3), and the width of the overlapping area (3) can be adjusted; the cable penetrates from the other end of the clamping bridge (2) and penetrates out from the other end of the embedded bridge (1); one end of the cable, which passes through the embedded bridge (1), is connected to the conveyor; the bottoms of the embedded bridge frame (1) and the clamping bridge frame (2) are provided with brackets.

2. An adjustable cable bridge on a conveyor according to claim 1, wherein: one end of the embedded bridge (1) embedded into the clamping bridge (2) is an embedded end (11); the corresponding embedded end (11) of the clamping bridge frame (2) is a clamping end (21); the embedded end (11) and the clamping end (21) are arranged in parallel; one end of the clamping bridge frame (2) far away from the overlapping area (3) is a bending end (22); the bending end (22) is obliquely and upwardly bent, and the clamping bridge frame (2) forms an S shape.

3. An adjustable cable bridge on a conveyor according to claim 2, wherein: the end of the bending end (22) far away from the superposition area (3) is parallel to be a parallel end (23); the parallel end (23) is parallel to the clamping end (21) and the embedded bridge (1).

4. An adjustable cable bridge on a conveyor according to claim 3, wherein: the top of the parallel end (23) and the top of one end of the embedded bridge frame (1) far away from the overlapping area (3) are respectively provided with a fixing hole (4); the hanging hook is fixed at the fixing hole (4); an inclined plate (24) is fixedly arranged at the bottom of the opening of the parallel end (23); the inclined plate (24) is arranged in a downward inclined extending way; the inclined end of the inclined plate (24) is provided with a reinforcing hole (241); the suspended reinforcing hooks are fixed on the reinforcing holes (241).

5. An adjustable cable bridge on a conveyor according to claim 4, wherein: one end of the cable, which is positioned on the clamping bridge frame (2), is suspended and arranged through a monorail crane (6); one end of the cable penetrating into the clamping bridge (2) is positioned in the middle of the parallel end (23).

6. An adjustable cable bridge on a conveyor according to claim 5, wherein: the side wall of the embedded end (11) is provided with a groove (111); the inner wall of the clamping end (21) is provided with a convex rib (211) matched with the groove (111); the convex rib (211) is arranged along the length direction of the clamping end (21).

7. The adjustable cable tray of claim 6 wherein: the side wall of the embedded end (11) is provided with a plurality of connecting holes (5), and the plurality of connecting holes (5) are distributed in an array at intervals; a through hole (51) corresponding to the connecting hole (5) is formed in the side wall of the clamping end (21) in a penetrating manner; the limiting piece is arranged in the through hole (51) and the connecting hole (5).

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