CN217882667U

CN217882667U - Reinforced shockproof heat dissipation equipment for cable bridge

Info

Publication number: CN217882667U
Application number: CN202221462831.7U
Authority: CN
Inventors: 庞正叶
Original assignee: Wuhan Yixiang Electric Co ltd
Current assignee: Wuhan Yixiang Electric Co ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2022-11-22
Anticipated expiration: 2032-06-13

Abstract

The utility model discloses a strenghthened type shockproof heat dissipation equipment for cable testing bridge relates to the cable testing bridge field, can't carry out heat dissipation protection and antidetonation protection to the cable when using to current cable testing bridge, leads to the problem that easily receives the damage in the cable use, now proposes following scheme, and it includes crane span structure body and cable, the crane span structure body includes crane span structure and lower crane span structure, just it is the symmetric distribution with lower crane span structure the same to go up the crane span structure, the cross-section of going up crane span structure and lower crane span structure all is a kind of setting, just go up crane span structure, lower crane span structure's a kind of last heating panel that is linear array distribution, a plurality of lower heating panels that are linear array distribution are installed respectively to the inside of a kind of 21274groove. The utility model discloses novel structure, and this cable testing bridge can provide effectual protection and the heat dissipation protection of taking precautions against earthquakes to the cable, security and life when helping improving the cable use to can manage the line to the inside cable of cable testing bridge, help improving follow-up maintenance efficiency.

Description

Reinforced shockproof heat dissipation equipment for cable bridge

Technical Field

The utility model relates to a cable testing bridge field especially relates to a formula that takes precautions against earthquakes of strenghthened type is heat-radiating equipment for cable testing bridge.

Background

The cable bridge is divided into structures such as a groove type structure, a tray type structure, a ladder type structure, a grid type structure and the like, and consists of a support, a supporting arm, an installation accessory and the like. The inner bridge frame of the building can be independently erected and also can be laid on various buildings and pipe gallery supports, the characteristics of simple structure, attractive appearance, flexible configuration, convenience in maintenance and the like are reflected, all parts need to be galvanized, and the inner bridge frame is arranged on an outdoor bridge frame outside the building.

The existing cable bridge structure is simple, anti-seismic protection can not be performed on a cable when the cable bridge structure is used, so that the cable is easy to damage, line arrangement and heat dissipation protection can not be performed on the cable, the cable is accumulated inside the cable bridge structure to generate a large amount of heat, the service life of the cable is influenced, and therefore the reinforced anti-seismic heat dissipation equipment for the cable bridge structure is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of strenghthened type heat dissipation equipment for cable testing bridge that takes precautions against earthquakes can't carry out heat dissipation protection and antidetonation protection to the cable when having solved current cable testing bridge and using, leads to the problem of easy damage in the cable use.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a reinforced shockproof heat dissipation device for a cable bridge comprises a bridge body and cables, wherein the bridge body comprises an upper bridge and a lower bridge, the upper bridge and the lower bridge are identical in structure and symmetrically distributed, the sections of the upper bridge and the lower bridge are arranged in a V-21274type, a plurality of upper heat dissipation plates distributed in a linear array and a plurality of lower heat dissipation plates distributed in a linear array are respectively arranged in the V-21274groove of the upper bridge and the lower bridge, the cables penetrate between the upper heat dissipation plates and the lower heat dissipation plates, and vertical heat dissipation holes and oblique heat dissipation holes are formed in the upper heat dissipation plates and the lower heat dissipation plates;

and a plurality of shockproof assemblies distributed in a linear array are fixedly arranged on the inner walls of the upper heat dissipation plate and the upper bridge horizontal section and the inner walls of the lower heat dissipation plate and the lower bridge horizontal section.

Preferably, the outer walls of the vertical sections of the upper bridge frame and the lower bridge frame are fixedly provided with two connecting lugs which are symmetrically distributed, the connecting lugs are provided with positioning holes, and the two connecting lugs are positioned on the same perpendicular bisector and are connected with positioning screws.

Preferably, the upper heat dissipation plate and the lower heat dissipation plate are both provided with threading grooves at one side far away from the shockproof assembly fixedly connected with the upper heat dissipation plate and the lower heat dissipation plate, and the cable penetrates through the threading grooves.

Preferably, the inner wall of the threading groove is provided with an insulating rubber plate.

Preferably, the side that the last heating panel that is located same vertical plane is close to each other with lower heating panel all is equipped with mutually supported card strip and draw-in groove, just card strip and draw-in groove all set up along the length direction of crane span structure body.

Preferably, the shockproof assembly comprises a movable rod, a sleeve and a shockproof spring, one end of the shockproof spring is fixedly mounted on the inner wall of the sleeve, the other end of the shockproof spring is fixedly connected with the movable rod, and one end, far away from the shockproof spring, of the movable rod extends to the outside of the sleeve.

The utility model has the advantages that:

1. through the cooperation setting of subassembly and heating panel that takes precautions against earthquakes for this cable testing bridge not only can realize the reason line to the cable, can provide effectual protection of taking precautions against earthquakes to the cable simultaneously, helps improving subsequent cable maintenance operation and life.

2. Through placing the cable between upper and lower heating panel for the cable is in unsettled state for the cable testing bridge, and through setting up vertical louvre and slant louvre on the heating panel, thereby can effectual improvement cable the radiating efficiency, helps improving the life of cable.

In conclusion, the cable bridge can provide effective shockproof protection and heat dissipation protection for the cable, is beneficial to improving the safety and the service life of the cable in use, can manage the cable inside the cable bridge, and is beneficial to improving the follow-up maintenance efficiency.

Drawings

Fig. 1 is a schematic structural view of a heat dissipation apparatus for a reinforced shockproof cable tray of the present invention;

fig. 2 is an enlarged schematic structural view of a in fig. 1 of a heat dissipation apparatus for a reinforced shockproof cable tray of the present invention;

fig. 3 is a side sectional view of a heat dissipating plate and a shock-proof component of the heat dissipating device for a reinforced shock-proof cable bridge of the present invention;

fig. 4 is an enlarged schematic structural view of B in fig. 4 of the heat dissipation apparatus for a reinforced shockproof cable tray of the present invention;

fig. 5 is a front sectional view of the heat dissipating plate and the shockproof assembly of the heat dissipating device for a reinforced shockproof cable bridge of the present invention.

Reference numbers in the figures: 1. an upper bridge frame; 2. a lower bridge frame; 3. connecting lugs; 4. a set screw; 5. an upper heat dissipation plate; 6. a shock assembly; 61. a movable rod; 62. a sleeve; 63. a shock-proof spring; 7. a cable; 8. vertical heat dissipation holes; 9. an insulating rubber sheet; 10. clamping the strip; 11. a lower heat dissipation plate; 12. a card slot; 13. oblique heat dissipation holes.

Detailed Description

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

Referring to fig. 1, a strenghthened type takes precautions against earthquakes formula heat dissipation equipment for cable testing bridge, including crane span structure body and cable 7, the crane span structure body includes crane span structure 1 and lower crane span structure 2, it is the symmetric distribution with lower crane span structure 2 structure the same to go up crane span structure 1, the equal fixed mounting of outer wall of the vertical section of last crane span structure 1 and lower crane span structure 2 has two engaging lugs 3 that are the symmetric distribution, the locating hole has been seted up on the engaging lug 3, be connected with set screw 4 between two engaging lugs 3 that are located on same plumb line, set screw 4 through threaded installation on the engaging lug 3, can make and go up crane span structure 1 and lower crane span structure 2 and be connected stably, form the cable testing bridge of accomplishing, carry out stable support protection to cable 7.

Referring to fig. 1 and 2, the sections of an upper bridge frame 1 and a lower bridge frame 2 are arranged in a v 21274, a plurality of upper heat dissipation plates 5 distributed in a linear array and a plurality of lower heat dissipation plates 11 distributed in a linear array are respectively arranged in a v 21274groove of the upper bridge frame 1 and the lower bridge frame 2, mutually matched clamping strips 10 and clamping grooves 12 are respectively arranged on the sides, close to each other, of the upper heat dissipation plates 5 and the lower heat dissipation plates 11 in the same vertical plane, the clamping strips 10 and the clamping grooves 12 are arranged along the length direction of a bridge frame body, and the arrangement of the clamping strips 10 and the clamping grooves 11 can prevent the upper heat dissipation plates 5 and the lower heat dissipation plates 11 in the same group from shaking in the horizontal direction, so that the stability of the device is improved.

Referring to fig. 5, the cable 7 runs through between the upper heat dissipation plate 5 and the lower heat dissipation plate 11, vertical heat dissipation holes 8 and oblique heat dissipation holes 13 are formed in the upper heat dissipation plate 5 and the lower heat dissipation plate 11, the cable 7 can be in a suspended state compared with the bridge body and can be arranged in the vertical heat dissipation holes 8 and the oblique heat dissipation holes 13 in the upper heat dissipation plate 5 and the lower heat dissipation plate 11, the heat dissipation efficiency of the cable 7 between the upper heat dissipation plate 5 and the lower heat dissipation plate 11 can be improved, effective heat dissipation protection is conducted on the cable 7, and the service life of the cable 7 is prolonged.

Referring to fig. 2-5, the threading groove has all been seted up to one side of going up heating panel 5 and lower heating panel 11 and keeping away from rather than its fixed connection's shockproof subassembly 6, cable 7 runs through the threading groove, the setting in threading groove makes and has the accommodation space between heating panel 5 and the lower heating panel 11, it is impaired to avoid going up heating panel 5 and lower heating panel 11 to cause the extrusion to cable 7, insulating rubber plate 9 is installed to the inner wall in threading groove, can protect the epidermis of cable 7 through the setting of insulating rubber plate 9.

Referring to fig. 1, 3 and 4, a plurality of anti-vibration assemblies 6 distributed in a linear array are fixedly mounted on the inner walls of the horizontal sections of the upper heat dissipation plate 5 and the upper bridge 1 and the inner walls of the horizontal sections of the lower heat dissipation plate 11 and the lower bridge 2, each anti-vibration assembly 6 includes a movable rod 61, a sleeve 62 and an anti-vibration spring 63, one end of each anti-vibration spring 63 is fixedly mounted on the inner wall of the sleeve 62, the other end of each anti-vibration spring 63 is fixedly connected with the corresponding movable rod 61, one end of each movable rod 61, which is far away from the corresponding anti-vibration spring 63, extends to the outside of the corresponding sleeve 62, and through the sliding of the corresponding movable rod 61 on the corresponding anti-vibration assembly 6 in the corresponding sleeve 62, and through the extrusion of the corresponding movable rod 61 on the corresponding anti-vibration spring 63 and the elastic force of the corresponding anti-vibration spring 63, cables 7 between the upper heat dissipation plate 5 and the lower heat dissipation plate 11 can be effectively protected, damage to the cables 7 is avoided, and the service life of the cables 7 is prolonged.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims

1. A reinforced shockproof heat dissipation device for a cable bridge comprises a bridge body and cables (7), and is characterized in that the bridge body comprises an upper bridge (1) and a lower bridge (2), the upper bridge (1) and the lower bridge (2) have the same structure and are symmetrically distributed, the sections of the upper bridge (1) and the lower bridge (2) are arranged in a manner of \\ 21274, a plurality of upper heat dissipation plates (5) distributed in a linear array and a plurality of lower heat dissipation plates (11) distributed in a linear array are respectively arranged in 21274grooves of the upper bridge (1) and the lower bridge (2), and the cables (7) penetrate through heat dissipation holes between the upper heat dissipation plates (5) and the lower heat dissipation plates (11), and vertical heat dissipation plates (8) and inclined heat dissipation plates (13) are respectively arranged on the upper heat dissipation plates (5) and the lower heat dissipation plates (11);

and a plurality of shockproof assemblies (6) distributed in a linear array are fixedly mounted on the inner walls of the horizontal sections of the upper heat dissipation plate (5) and the upper bridge (1) and the inner walls of the horizontal sections of the lower heat dissipation plate (11) and the lower bridge (2).

2. The heat dissipation apparatus for the reinforced shockproof cable tray according to claim 1, wherein two symmetrically distributed engaging lugs (3) are fixedly installed on the outer walls of the vertical sections of the upper tray (1) and the lower tray (2), and positioning holes are formed in the engaging lugs (3), and a positioning screw (4) is connected between the two engaging lugs (3) on the same perpendicular bisector.

3. The heat dissipation device as recited in claim 1, wherein threading grooves are formed in the upper heat dissipation plate (5) and the lower heat dissipation plate (11) at the sides away from the shockproof assembly (6) fixedly connected therewith, and the cable (7) penetrates through the threading grooves.

4. The heat dissipating device for the reinforced shockproof cable tray as claimed in claim 3, wherein the insulating rubber plate (9) is installed on the inner wall of the threading groove.

5. The heat dissipation apparatus for the reinforced shockproof cable tray according to claim 1, wherein the side of the upper heat dissipation plate (5) and the lower heat dissipation plate (11) that are close to each other in the same vertical plane are provided with a clamping strip (10) and a clamping groove (12) that are engaged with each other, and the clamping strip (10) and the clamping groove (12) are both arranged along the length direction of the tray body.

6. The heat dissipation apparatus for the reinforced shockproof cable tray according to claim 1, wherein the shockproof assembly (6) comprises a movable rod (61), a sleeve (62) and a shockproof spring (63), one end of the shockproof spring (63) is fixedly mounted on an inner wall of the sleeve (62), the other end of the shockproof spring (63) is fixedly connected with the movable rod (61), and one end of the movable rod (61) far away from the shockproof spring (63) extends to the outside of the sleeve (62).