CN220732259U - Overheat-proof cable bridge with buffering limit structure - Google Patents

Abstract

The utility model discloses an overheat-preventing cable bridge with a buffering limiting structure, which comprises a base, wherein an accommodating groove is formed in the base, a supporting plate is arranged in the accommodating groove, a buffering mechanism is arranged in the base, a lower cable bridge is arranged in the supporting plate, a partition plate is uniformly arranged in the supporting plate, and a conveying roller is uniformly arranged in the lower cable bridge. According to the buffering mechanism disclosed by the utility model, when the cable is impacted outside after being installed, the upper cable bridge frame can drive the lower cable bridge frame to downwards press, when the supporting plate is acted by an acting force, the buffering mechanism can be compressed, so that the supporting rod drives the sliding blocks to oppositely move, acting force is generated on the through holes, the external force is buffered under the cooperation of the first spring, the second spring and the anti-slip damping pad, the whole cable bridge frame is protected, and the vibration and swing transmission distance of the cable main body after being impacted by external force can be effectively reduced.

Description

Overheat-proof cable bridge with buffering limit structure

Technical Field

The utility model relates to the technical field of cable bridges, in particular to an overheat-preventing cable bridge with a buffering limiting structure.

Background

The cable bridge is divided into a groove type structure, a tray type structure, a ladder frame type structure, a grid type structure and the like, and consists of a bracket, a bracket arm, an installation accessory and the like, the bridge in a building can be independently erected, and can also be laid on various buildings and pipe gallery brackets, so that the characteristics of simple structure, attractive appearance, flexible configuration, convenience in maintenance and the like are reflected, all parts are required to be galvanized, and the bridge is installed outside the building;

the cable bridge is usually erected at a high place, most of buffer damping components of the current cable bridge are rubber pads or sponge pads, the buffer damping performance is small, the rubber pads or the sponge pads can be directly deformed by pressing after long-time use, the buffer damping performance is lost, and when a cable is laid, the contact area between the cable and a bridge bottom plate is large, the friction force is large, so that larger traction force is required, a protective layer of the cable is easy to be pulled out, potential safety hazards are caused, and therefore, the overheat-preventing cable bridge with the buffer limiting structure is required to be designed to solve the problems.

Disclosure of Invention

The utility model aims to provide an overheat-preventing cable bridge with a buffering limiting structure, which is used for solving the problems of buffering and laying of the cable bridge in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an prevent overheated cable testing bridge with buffering limit structure, includes the base, the inside of base is provided with the holding tank, and the internally mounted of holding tank has the backup pad, the inside of base is provided with buffer gear, the internally mounted of backup pad has cable testing bridge down, and the inside of cable testing bridge evenly installs the baffle down, the inside of cable testing bridge evenly installs the transfer roller, and the both sides of transfer roller all install the rotating block, the rotating tank is all evenly installed to the inside of baffle and cable testing bridge down, and the rotating tank all is connected with the rotating block, the cable main part is all installed to the inside of transfer roller, the inside of cable testing bridge evenly is provided with logical groove, and leads to the inside of groove all to the installation to have the filter bag, the cable testing bridge is installed on the top of cable testing bridge down, the inside of going up the cable testing bridge evenly is provided with the screw, the inside of cable testing bridge evenly is provided with the screw groove, and the screw rod runs through the internally mounted of screw groove has the knob, the top of knob all evenly installs the anti-skidding arch down, and the top of anti-skidding testing bridge all is connected with the bottom of cable testing bridge down.

When using the overheat prevention cable bridge with buffering limit structure of this technical scheme, through buffer gear, play guard action to last whole cable bridge, can effectively reduce the cable main part and receive vibrations and swing transmission distance after the external force impact, become rolling friction with the sliding friction of cable conductor through the transfer roller, reduced the traction force of pulling the cable conductor, it is more laborsaving, the frictional force that the protective layer of cable conductor received also diminishes simultaneously, avoided the cable conductor protective layer fluffy, can not take place the potential safety hazard.

Preferably, the buffer gear includes the mounting groove, the mounting groove sets up the inside at the base, the internally mounted of mounting groove has the slide bar, and the outside of slide bar evenly installs the slider, the inside of slider all is provided with the through-hole, and the anti-skidding damping pad is all installed to the inboard of through-hole, the outside of slide bar is connected with anti-skidding damping pad, the second spring is installed in the outside of mounting groove between the slider, the bracing piece is all installed on the top of slider, and the top of bracing piece all is connected with the bottom of backup pad, the inside of holding groove evenly installs first spring, and first spring all is connected with the bottom of backup pad.

Preferably, the guide blocks are arranged on two sides of the support plate, guide grooves are uniformly formed in the base, and the guide grooves are connected with the guide blocks.

Preferably, the connecting block is all installed to the bottom of slider, the inside of base evenly is provided with the spread groove, and the spread groove all is connected with smooth connecting block.

Preferably, the size of the rotating block is matched with the size of the rotating groove, and the rotating block and the rotating groove are symmetrically arranged relative to the central axis of the conveying roller.

Preferably, the plectrum is all installed to one side that lower cable testing bridge was kept away from to the filter string bag, the sealing block is all evenly installed to one side that lower cable testing bridge was close to the filter string bag, the inside of lower cable testing bridge evenly is provided with the seal groove, and the seal groove all is connected with the sealing block.

Compared with the prior art, the utility model has the beneficial effects that: the overheat-preventing cable bridge with the buffering limiting structure realizes the protection function of cables;

through the buffer mechanism, when the cable is impacted outside after being installed, the upper cable bridge can drive the lower cable bridge to downwards press, when the supporting plate is acted by an acting force, the buffer mechanism can be compressed, so that the supporting rod drives the sliding block to oppositely move, acting force is generated on the through hole, the external force is buffered under the cooperation of the first spring, the second spring and the anti-skid damping pad, the whole cable bridge is protected, and vibration and swing transmission distance of the cable main body after being impacted by external force can be effectively reduced;

through the through groove and the filter net bag, the ventilation and dust resistance of the inner part of the lower cable bridge are realized, the heat dissipation performance is enhanced, the possibility of fire disaster is reduced, the ventilation and dust resistance of the inner part of the lower cable bridge are kept through the sealing block,

through the baffle for the cable conductor separates to place, avoids the cable conductor winding, when pulling the cable under the cooperation of transfer roller and rotating block, the transfer roller can become rolling friction with the sliding friction of cable conductor, has reduced the traction force of pulling the cable conductor, and is more laborsaving, and the frictional force that the protective layer of cable conductor received also diminishes simultaneously, has avoided the cable conductor protective layer fuzzing, can not take place the potential safety hazard.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic view of the structure of FIG. 1A according to the present utility model;

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

FIG. 4 is a schematic view of a three-dimensional structure of a transfer roll according to the present utility model;

fig. 5 is a schematic view of a three-dimensional structure of a knob according to the present utility model.

Reference numerals in the drawings illustrate: 1. a cable bridge is arranged; 2. a partition plate; 3. a cable body; 4. a lower cable bridge; 5. a support plate; 6. a buffer mechanism; 601. a first spring; 602. a mounting groove; 603. a slide bar; 604. a slide block; 605. a through hole; 606. a second spring; 607. an anti-slip damping pad; 608. a support rod; 609. a guide groove; 610. a guide block; 7. a receiving groove; 8. a base; 9. a knob; 10. a threaded rod; 11. a thread groove; 12. a screw hole; 13. a conveying roller; 14. a rotating block; 15. a rotating groove; 16. a through groove; 17. a pulling piece; 18. a filter string bag; 19. a sealing block; 20. sealing grooves; 21. a non-slip bump.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of 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, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by one of ordinary skill in the art without inventive faculty, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the overheat preventing cable bridge with the buffering limiting structure comprises a base 8, wherein an accommodating groove 7 is formed in the base 8, a supporting plate 5 is arranged in the accommodating groove 7, and a buffering mechanism 6 is arranged in the base 8;

the buffer mechanism 6 comprises a mounting groove 602, the mounting groove 602 is arranged in the base 8, a sliding rod 603 is arranged in the mounting groove 602, a sliding block 604 is uniformly arranged on the outer side of the sliding rod 603, a through hole 605 is formed in the sliding block 604, an anti-slip damping pad 607 is arranged on the inner side of the through hole 605, the outer side of the sliding rod 603 is connected with the anti-slip damping pad 607, a second spring 606 is arranged on the outer side of the mounting groove 602 between the sliding blocks 604, a supporting rod 608 is arranged on the top end of the sliding block 604, the top end of the supporting rod 608 is connected with the bottom end of the supporting plate 5, a first spring 601 is uniformly arranged in the accommodating groove 7, guide blocks 610 are uniformly arranged on the two sides of the supporting plate 5, a guide groove 609 is uniformly arranged in the base 8, the guide groove 609 is uniformly connected with the guide block 610, a connecting block is uniformly arranged in the base 8, and the connecting groove is uniformly connected with the sliding block 610;

specifically, as shown in fig. 1, when the cable bridge is used, the buffer mechanism 6 is used for buffering external force, so that the whole cable bridge is protected, and the vibration and swing transmission distance of the cable main body 3 after being impacted by the external force can be effectively reduced;

the lower cable bridge 4 is arranged in the supporting plate 5, the partition plate 2 is uniformly arranged in the lower cable bridge 4, the conveying roller 13 is uniformly arranged in the lower cable bridge 4, the rotating blocks 14 are arranged on two sides of the conveying roller 13, and the rotating grooves 15 are uniformly arranged in the partition plate 2 and the lower cable bridge 4;

the size of the rotating block 14 is matched with that of the rotating groove 15, and the rotating block 14 and the rotating groove 15 are symmetrically arranged relative to the central axis of the conveying roller 13;

specifically, as shown in fig. 1 and 4, in use, the rotation of the conveying roller 13 is achieved by the rotating block 14;

the rotating grooves 15 are connected with the rotating blocks 14, the cable main body 3 is arranged in the conveying roller 13, the through grooves 16 are uniformly arranged in the lower cable bridge 4, and the filter net bags 18 are arranged in the through grooves 16;

the side, far away from the lower cable bridge 4, of the filter net bag 18 is provided with a poking piece 17, the side, close to the lower cable bridge 4, of the filter net bag 18 is provided with a sealing block 19 uniformly, the inside of the lower cable bridge 4 is provided with a sealing groove 20 uniformly, and the sealing grooves 20 are connected with the sealing block 19;

specifically, as shown in fig. 1, when in use, the filter string bag 18 can be taken out for periodic cleaning or replacement through the poking plate 17 and the sealing block 19;

the top of lower cable testing bridge 4 is installed cable testing bridge 1, and the inside of going up cable testing bridge 1 evenly is provided with screw 12, and the inside of lower cable testing bridge 4 evenly is provided with thread groove 11, and threaded rod 10 is all installed to the inside of screw 12, and threaded rod 10 runs through the internally mounted of thread groove 11 has knob 9, and anti-skidding arch 21 is all evenly installed on the top of knob 9, and the top of anti-skidding arch 21 all is connected with the bottom of lower cable testing bridge 4.

Working principle: when the cable is used, firstly, when the cable main body 3 is required to be laid, the rotary knob 9 drives the threaded rod 10 to be separated from the screw hole 12, the upper cable bridge 1 is opened, the cable main body 3 is laid above the conveying roller 13 in a partitioned manner, the cable is prevented from being wound, and when the cable is pulled by the cooperation of the conveying roller 13 and the rotary block 14, the sliding friction of the cable can be changed into rolling friction by the conveying roller 13, so that the labor is saved;

secondly, through filtering string bag 18, keep the inside ventilation nature of cable testing bridge 4 down and dustproof, receive outside striking after the cable installation, go up cable testing bridge 1 and can drive down cable testing bridge 4 and push down, can compress buffer gear 6 after backup pad 5 receives effort for bracing piece 608 drives slider 604 and moves in opposite directions, produces the effort to through-hole 605, under first spring 601, second spring 606 and anti-skidding damping pad 607 cooperation, cushion to external force, play the guard action to last cable testing bridge 1.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present utility model without undue burden.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (6)

1. The utility model provides an prevent overheated cable testing bridge with buffering limit structure, includes base (8), its characterized in that: the inside of base (8) is provided with holding tank (7), and the internally mounted of holding tank (7) has backup pad (5), the inside of base (8) is provided with buffer gear (6), the internally mounted of backup pad (5) has cable bridge (4) down, and inside even installs baffle (2), the inside of cable bridge (4) is evenly installed and is passed roller (13), and the both sides of conveying roller (13) all install rotating block (14), the inside of baffle (2) and cable bridge (4) all evenly installs rotating groove (15), and rotating groove (15) all are connected with rotating block (14), cable main part (3) are all installed to the inside of conveying roller (13), the inside of cable bridge (4) down evenly is provided with logical groove (16), and the inside of logical groove (16) all installs filter string bag (18), the top of cable bridge (4) is installed and is gone up cable bridge (1), the inside of going up cable bridge (1) evenly is provided with rotating block (12), the inside of cable bridge (4) is evenly provided with threaded rod (10) and threaded rod (10) are run through in the inside of threaded rod (10), the tops of the knobs (9) are uniformly provided with anti-slip protrusions (21), and the tops of the anti-slip protrusions (21) are connected with the bottom of the lower cable bridge frame (4).

2. The overheat protection cable testing bridge with buffering limiting structure according to claim 1, wherein: buffer gear (6) are including mounting groove (602), mounting groove (602) set up the inside at base (8), the internally mounted of mounting groove (602) has slide bar (603), and slide bar (603) the outside evenly installs slider (604), the inside of slider (604) all is provided with through-hole (605), and anti-skidding damping pad (607) are all installed to the inboard of through-hole (605), the outside and the anti-skidding damping pad (607) of slide bar (603) are connected, second spring (606) are installed in the outside of mounting groove (602) between slider (604), bracing piece (608) are all installed on the top of slider (604), and the top of bracing piece (608) all is connected with the bottom of backup pad (5), first spring (601) are evenly installed to the inside of holding groove (7), and first spring (601) all are connected with the bottom of backup pad (5).

3. The overheat protection cable testing bridge with buffering limiting structure according to claim 2, wherein: guide blocks (610) are arranged on two sides of the supporting plate (5), guide grooves (609) are uniformly formed in the base (8), and the guide grooves (609) are connected with the guide blocks (610).

4. The overheat protection cable testing bridge with buffering limiting structure according to claim 2, wherein: connecting blocks are arranged at the bottom ends of the sliding blocks (604), connecting grooves are uniformly formed in the base (8), and the connecting grooves are connected with the sliding connecting blocks.

5. The overheat protection cable testing bridge with buffering limiting structure according to claim 1, wherein: the size of the rotating block (14) is matched with that of the rotating groove (15), and the rotating block (14) and the rotating groove (15) are symmetrically arranged relative to the central axis of the conveying roller (13).

6. The overheat protection cable testing bridge with buffering limiting structure according to claim 1, wherein: the plectrum (17) are all installed to one side that lower cable testing bridge (4) was kept away from to filter string bag (18), sealing block (19) are all evenly installed to one side that lower cable testing bridge (4) was close to filter string bag (18), the inside of lower cable testing bridge (4) evenly is provided with seal groove (20), and seal groove (20) all are connected with sealing block (19).