CN211089017U - Cable bridge with self-adaptive adjusting mechanism for power distribution control - Google Patents

Abstract

The utility model discloses a cable bridge with a self-adaptive adjusting mechanism for power distribution control, which relates to the technical field of cable bridges, wherein a second bridge can slide in a reciprocating manner along the length direction of a first bridge, so that the length of a bridge body can be adjusted, and the cable bridge can be adjusted according to actual use requirements; meanwhile, the front end and the rear end of the first side plate are respectively provided with a limiting baffle, so that the second bridge can be limited forwards and backwards, and the second bridge is prevented from falling off from the first bridge in the sliding process; the utility model discloses in all seted up the louvre on first curb plate and second curb plate, effectively increased the heat radiating area of cable testing bridge, improved the heat dispersion of cable testing bridge.

Description

Cable bridge with self-adaptive adjusting mechanism for power distribution control

Technical Field

The utility model relates to a cable testing bridge technical field especially relates to cable testing bridge for distribution control with self-adaptation adjustment mechanism.

Background

The rigid structure system with closely-connected supporting cables is composed of a groove type, tray type or ladder type straight line section, a bend-through, a tee joint, a four-way component, a supporting arm (arm type bracket), a hanging bracket and the like, and is called as a cable bridge; the cable bridge is used as a common supporting and protecting device for cable laying in an electrical equipment power supply system, and plays roles of protecting and guiding routing for cables laid in the cable bridge; the length of current cable testing bridge is fixed, can't adjust the length of cable testing bridge as required when laying the cable, can only dock a plurality of cable testing bridge when cable testing bridge length is not enough, and it is comparatively inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, overcome prior art's shortcoming, provide the cable crane span structure for distribution control with self-adaptation adjustment mechanism.

In order to solve the technical problem, the technical scheme of the utility model as follows:

The cable bridge with the self-adaptive adjusting mechanism for power distribution control comprises a bridge body, wherein the bridge body comprises a first bridge and a second bridge, the second bridge can extend into the first bridge along the vertical direction and can slide in the first bridge in a reciprocating mode along the length direction of the first bridge, and one end of the second bridge can extend out of the first bridge.

As the utility model discloses an optimal scheme of cable testing bridge for distribution control, wherein: the first bridge comprises a first bottom plate and first side plates arranged on two sides of the first bottom plate, the inner side surfaces of the two ends of the first side plates in the length direction are provided with limit baffles, the second bridge comprises a second bottom plate and second side plates arranged on two sides of the second bottom plate, the outer side surfaces of the second side plates are provided with limit fixture blocks, and when the second bridge slides in a reciprocating mode in the length direction of the first bridge, the limit fixture blocks are located between the two limit baffles on the same side of the second bridge.

As the utility model discloses an optimal scheme of cable testing bridge for distribution control, wherein: the first side plate is provided with a plurality of first positioning holes at equal intervals along the length direction, the second side plate is provided with a second positioning hole, the second positioning hole can be aligned with any first positioning hole, and the second positioning hole is fixed through a positioning bolt after being aligned with the first positioning hole.

As the utility model discloses an optimal scheme of cable testing bridge for distribution control, wherein: the upper end face of the first bottom plate is provided with a reinforcing rib along the length direction of the first bottom plate, and the lower end face of the second bottom plate is provided with a sliding groove corresponding to the reinforcing rib and allowing the reinforcing rib to extend into the sliding groove.

As the utility model discloses an optimal scheme of cable testing bridge for distribution control, wherein: the first side plate and the second side plate are both provided with heat dissipation holes.

The utility model has the advantages that:

(1) The second bridge frame can slide along the length direction of the first bridge frame in a reciprocating way, so that the length of the bridge frame body can be adjusted, and the cable bridge frame can be adjusted according to actual use requirements; in addition, the second bridge can be taken out of the first bridge, so that the first bridge and the second bridge can be independently used as cable bridges, and the functions are more diversified;

(2) In the utility model, the front end and the rear end of the first side plate are respectively provided with the limiting baffle, and the limiting baffle can limit the second bridge frame in the front and the rear directions in the sliding process of the second bridge frame, so that the second bridge frame is prevented from falling off from the first bridge frame in the sliding process;

(3) The utility model discloses set up a plurality of first locating holes on the first curb plate equidistance to set up the second locating hole on the second curb plate, through the position of adjustment second locating hole, make it align with different first locating holes, and the fixing of deuterogamy positioning bolt can make and keep the cable testing bridge under different length, and application scope is wider;

(4) The reinforcing rib is arranged on the first bottom plate, so that the strength of the first bottom plate is increased, meanwhile, the reinforcing rib can be matched with the chute on the second bottom plate to limit the sliding direction of the second bridge, and the second bridge is prevented from being locked with the first bridge in the sliding process;

(5) The utility model discloses all seted up the louvre on first curb plate and second curb plate, effectively increased the heat radiating area of cable testing bridge, improved the heat dispersion of cable testing bridge.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic view of an overall structure of a cable bridge for power distribution control according to the present invention;

Fig. 2 is a schematic structural diagram of a first bridge of a cable bridge for power distribution control according to the present invention;

Wherein: 100. a first bridge frame; 200. a second bridge; 110. a first base plate; 120. a first side plate; 121. a limit baffle; 210. a second base plate; 220. a second side plate; 221. a limiting clamping block; 122. a first positioning hole; 222. a second positioning hole; 300. positioning the bolt; 111. reinforcing ribs; 211. a chute; 400. and (4) heat dissipation holes.

Detailed Description

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

The length of current cable testing bridge is fixed, can't adjust as required when laying the cable, can only dock a plurality of cable testing bridge when cable testing bridge length is not enough, and it is comparatively inconvenient to use.

Referring to fig. 1 and 2, in view of this, the present embodiment provides a cable tray for distribution control having an adaptive adjustment mechanism, which includes a tray body including a first tray 100 and a second tray 200, wherein the second tray 200 can vertically extend into the first tray 100 and can slide back and forth along the length direction of the first tray 100, so as to adjust the length of the tray body.

Specifically, the first bridge 100 includes a first bottom plate 110 and first side plates 120 located at two sides of the first bottom plate 110, which are integrally formed, and limit baffles 121 are disposed on inner side surfaces of front and rear ends of the first side plates 120. The second bridge frame 200 includes a second bottom plate 210 and second side plates 220 located at two sides of the second bottom plate 210, wherein the outer side surfaces of the second side plates 220 are provided with limiting blocks 221. The first side plate 120 and the second side plate 220 are both provided with heat dissipation holes 400.

It should be noted that the width of the second bridge 200 is equal to or slightly smaller than the distance between the two limit baffles 121 arranged at the front end or the rear end of the first side plate 120. When the second bridge 200 extends into the first bridge 100 along the vertical direction, the second bridge 200 is limited by the limiting baffle 121, so that the second bridge 200 can only slide along the length direction of the first bridge 100.

In addition, the limiting block 221 on the outer side surface of the second side plate 220 is located between the two limiting baffles 121 on the same side. When the second bridge frame 200 slides back and forth along the length direction of the first bridge frame 100, the limiting baffle 121 is matched with the limiting clamping block 221, so that the second bridge frame 200 can be limited back and forth, and the second bridge frame 200 is prevented from falling off from the first bridge frame 100 in the sliding process.

Preferably, a plurality of first positioning holes 122 are formed through the first side plate 120 at equal intervals along the length direction thereof, and a second positioning hole 222 is correspondingly formed on the second side plate 220. The second alignment hole 222 can be aligned with any one of the first alignment holes 122 during the reciprocal sliding of the second bridge 200 within the first bridge 100.

It should be noted that the first positioning hole 122 and the second positioning hole 222 are both threaded holes, and after the first positioning hole 122 is aligned with the second positioning hole 222, the positioning bolt 300 can be screwed into the first positioning hole 122 and the second positioning hole 222 to fix the first side plate 120 and the corresponding second side plate 220, so as to fix the second bridge 200 in the first bridge 100.

In addition, the first base plate 110 is provided with the reinforcing ribs 111 along the length direction of the first base plate 110, and the reinforcing ribs 111 effectively increase the strength of the first base plate 110 and ensure the rigidity of the first base plate 110 during bearing load. Meanwhile, the lower end surface of the second base plate 210 is provided with a sliding groove 211 corresponding to the position of the reinforcing rib 111, when the second bridge 200 extends into the first bridge 100, the sliding groove 211 can be erected on the corresponding reinforcing rib 111, and in the sliding process of the second bridge 200, the reinforcing rib 111 is matched with the sliding groove 211 to limit the sliding direction of the second bridge 200.

In use, the second bridge 200 may be extended vertically into the first bridge 100, and then the second bridge 200 is slid along the length of the first bridge 100. During the sliding process, the front end of the second bridge 200 can extend out of the first bridge 100 and gradually extend outwards along with the movement of the second bridge 200, so that the length of the bridge body is gradually increased. After the second bridge frame 200 is moved to a predetermined position, the second positioning holes 222 are aligned with the corresponding first positioning holes 122, and then the positioning bolts 300 are screwed in, so that the second bridge frame 200 can be fixed in the first bridge frame 100, and then the cables are laid. In addition, when the use requirement of the cable bridge is low, the second bridge 200 can be taken out of the first bridge 100, so that the second bridge works as an independent cable bridge, and at the moment, the reinforcing ribs 111 on the first bridge 100 can also play a role of partition plates to separate cables, so that the ordering of cable placement is ensured.

Therefore, the utility model discloses the length of well cable testing bridge can be adjusted according to actual practical needs, and application scope is wider.

In addition to the above embodiments, the present invention may have other embodiments; all the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.

Claims (5)

1. Cable testing bridge for distribution control with self-adaptation adjustment mechanism, including the crane span structure body, its characterized in that: the bridge body comprises a first bridge (100) and a second bridge (200), the second bridge (200) can extend into the first bridge (100) in the vertical direction and can slide in the first bridge (100) in a reciprocating mode along the length direction of the first bridge (100), and one end of the second bridge (200) can extend out of the first bridge (100).

2. A cable tray for distribution control having an adaptive tuning mechanism as defined in claim 1, wherein: the first bridge (100) comprises a first bottom plate (110) and first side plates (120) arranged on two sides of the first bottom plate (110), the inner side surfaces of two ends of each first side plate (120) along the length direction of the first side plate are respectively provided with a limiting baffle (121), the second bridge (200) comprises a second bottom plate (210) and second side plates (220) arranged on two sides of the second bottom plate (210), the outer side surfaces of the second side plates (220) are respectively provided with a limiting clamping block (221),

When the second bridge frame (200) slides in a reciprocating mode along the length direction of the first bridge frame (100), the limiting clamping block (221) is located between the two limiting baffle plates (121) on the same side of the second bridge frame all the time.

3. A cable tray for distribution control having an adaptive tuning mechanism as defined in claim 2, wherein: the first side plate (120) is provided with a plurality of first positioning holes (122) at equal intervals along the length direction, the second side plate (220) is provided with second positioning holes (222), and the second positioning holes (222) can be aligned with any one of the first positioning holes (122),

The second positioning hole (222) is aligned with the first positioning hole (122) and then fixed through a positioning bolt (300).

4. A cable tray for distribution control having an adaptive tuning mechanism as defined in claim 2, wherein: the upper end face of the first bottom plate (110) is provided with a reinforcing rib (111) along the length direction of the first bottom plate, and the lower end face of the second bottom plate (210) is provided with a sliding groove (211) corresponding to the reinforcing rib (111) and allowing the reinforcing rib (111) to extend into.

5. A cable tray for distribution control having an adaptive tuning mechanism as defined in claim 2, wherein: the first side plate (120) and the second side plate (220) are both provided with heat dissipation holes (400).

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