CN219739707U - Cabinet power distribution management equipment - Google Patents

Abstract

The utility model relates to the technical field of electrical equipment, in particular to equipment for managing cabinet power distribution, which comprises a power distribution manager and two damping components, wherein the damping components comprise a mounting plate, two supports, a guide rail, two first springs, a sliding block and a connecting piece; the guide rail is used for providing the direction for first spring and slider, and the connecting piece is used for connecting slider and power distribution manager, transmits vibration force, and when power distribution manager received vibrations in use or transportation, the power distribution manager can take place to remove because of vibrations, and power distribution manager drives the connecting piece and removes, and the connecting piece drives the slider and removes, and the slider slides along the guide rail and to first spring application of force for first spring takes place to stretch out and draw back, utilizes first spring can provide the cushioning effect, avoids power distribution manager to lead to the electric elements on the power distribution manager impaired because of the excessive power of vibrations.

Description

Cabinet power distribution management equipment

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to equipment for distributing and managing cabinet power.

Background

The cabinet power distribution manager plays a role in normally operating all electric equipment in the associated machine room, and has higher electrical index requirements, but all parts assembled by the cabinet power distribution manager are inconvenient to operate and read data.

The prior art CN206149667U discloses a rack power distribution manager at present, including mounting bracket and connector assembly, the mounting bracket is including first installation department and the second installation department that becomes the contained angle setting, and set up the end cover that is used for the integral erection fixed at first installation department and second installation department both ends, all offer the through-hole that is used for holding the rectangle of connector assembly on first installation department and the second installation department, the both sides edge that the through-hole is relative is provided with the installation strip that is used for installing fixed connector assembly, the mounting hole has been seted up on the installation strip, be provided with the connecting piece on the connector assembly, the connecting piece can dismantle and insert and establish in the mounting hole, make this rack power distribution manager be convenient for operation and reading through this kind of setting.

However, in the above manner, the cabinet power distribution manager is lack of a buffer structure when being subjected to vibration, so that when the cabinet power distribution manager is subjected to vibration in the process of transportation or use, electrical elements on the cabinet power distribution manager are easily damaged due to excessive vibration force.

Disclosure of Invention

The utility model aims to provide cabinet power distribution management equipment which can provide shock absorption for a power distribution manager when the power distribution manager is vibrated, so that damage to electrical elements on the power distribution manager caused by overlarge vibration force of the power distribution manager is avoided.

In order to achieve the above purpose, the utility model provides a cabinet power distribution management device, which comprises a power distribution manager and two shock absorption components, wherein the two shock absorption components are positioned at two sides of the power distribution manager, and each shock absorption component comprises a mounting plate, two supports, a guide rail, two first springs, a sliding block and a connecting piece;

the two supports are fixedly connected with the mounting plate respectively and are positioned on two sides of the mounting plate; the guide rail is fixedly connected with the two supports respectively and is positioned between the two supports; the two first springs are fixedly connected with the two supports respectively, are positioned at the side edges of the two supports respectively, and are penetrated by the guide rail respectively; the sliding block is in sliding connection with the guide rail, is fixedly connected with the two first springs respectively, and is positioned between the two first springs; the connecting piece is fixedly connected with the sliding block, fixedly connected with the power distribution manager and positioned between the sliding block and the power distribution manager.

Wherein the connecting piece comprises a buffer piece and an end cover; the buffer piece is fixedly connected with the sliding block and is positioned at the side edge of the sliding block; the end cover is fixedly connected with the buffer piece, fixedly connected with the power distribution manager and positioned between the buffer piece and the power distribution manager.

Wherein the buffer comprises an outer column, a second spring and an inner column; the outer column is fixedly connected with the sliding block and is positioned at the side edge of the sliding block; the second spring is fixedly connected with the outer column and is positioned in the outer column; the inner column is fixedly connected with the second spring, fixedly connected with the end cover and positioned between the second spring and the end cover.

Wherein the shock absorbing assembly further comprises a mounting bolt; the mounting bolt is in threaded connection with the mounting plate and penetrates through the mounting plate.

Wherein the shock absorbing assembly further comprises a spacer; the gasket is fixedly connected with the mounting plate and is positioned on the side edge of the mounting plate.

According to the cabinet power distribution management equipment, screw holes are formed in the cabinet, the whole cabinet power distribution management equipment is convenient to install, the two supports are used for supporting the guide rail, the guide rail is used for providing guidance for the first spring and the sliding block, the connecting piece is used for connecting the sliding block with the power distribution manager and transmitting vibration force, when the power distribution manager is vibrated in the using or transporting process, the power distribution manager moves due to vibration, the connecting piece is driven to move by the power distribution manager, the sliding block is driven to move by the connecting piece, slides along the guide rail and applies force to the first spring, the first spring stretches, the first spring can provide buffering function, damage of electric elements on the power distribution manager due to overlarge vibration force is avoided, friction force is also provided between the first spring and the guide rail, the sliding block and the guide rail can be reduced through the friction force, and continuous power distribution of the sliding block is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an overall cross-sectional view of a first embodiment of the present utility model.

Fig. 3 is a schematic overall structure of a second embodiment of the present utility model.

101-power distribution manager, 102-damper assembly, 103-mounting plate, 104-support, 105-guide rail, 106-first spring, 107-slider, 108-connector, 109-bumper, 110-end cap, 111-outer post, 112-second spring, 113-inner post, 201-mounting bolt, 202-spacer.

Detailed Description

The first embodiment of the utility model is as follows:

referring to fig. 1-2, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, and fig. 2 is a cross-sectional overall view of the first embodiment of the present utility model.

The utility model provides cabinet power distribution management equipment, which comprises a power distribution manager 101 and two shock absorption assemblies 102, wherein each shock absorption assembly 102 comprises a 103, two supports 104, a guide rail 105, two first springs 106, a sliding block 107 and a connecting piece 108; the connector 108 includes a bumper 109 and an end cap 110; the buffer 109 includes an outer post 111, a second spring 112, and an inner post 113; by the above scheme, vibration can be provided for the power distribution manager 101 when the power distribution manager 101 is subjected to vibration, so that damage to electrical elements on the power distribution manager 101 caused by excessive vibration force of the power distribution manager 101 is avoided.

For this embodiment, each electrical element is installed on the power distribution manager 101, so as to perform power distribution management on the electrical equipment.

Wherein, the two damping components 102 are positioned at two sides of the power distribution manager 101, and the two supports 104 are respectively and fixedly connected with the mounting plate 103 and positioned at two sides of the mounting plate 103; the guide rail 105 is fixedly connected with the two supports 104 respectively and is positioned between the two supports 104; the two first springs 106 are respectively fixedly connected with the two supports 104, are respectively positioned at the side edges of the two supports 104, and are respectively penetrated by the guide rails 105; the sliding block 107 is slidably connected with the guide rail 105, and is fixedly connected with the two first springs 106 respectively, and is positioned between the two first springs 106; the connecting piece 108 is fixedly connected with the sliding block 107, fixedly connected with the power distribution manager 101 and located between the sliding block 107 and the power distribution manager 101. Screw holes are formed in the power distribution manager 103, the whole cabinet power distribution management equipment is convenient to install by means of bolts, the two supports 104 are used for supporting the guide rails 105, the guide rails 105 are used for guiding the first springs 106 and the sliding blocks 107, the connecting pieces 108 are used for connecting the sliding blocks 107 with the power distribution manager 101 and transmitting vibration force, when the power distribution manager 101 is vibrated in the using or transporting process, the power distribution manager 101 moves due to vibration, the power distribution manager 101 drives the connecting pieces 108 to move, the connecting pieces 108 drive the sliding blocks 107 to move, the sliding blocks 107 slide along the guide rails 105 and apply force to the first springs 106, the first springs 106 can provide buffering action, the situation that the power distribution manager 101 is damaged by electric elements on the power distribution manager 101 due to overlarge vibration force is avoided, friction force exists between the first springs 106 and the guide rails 105, the sliding blocks 107 are continuously reduced through the vibration force of the sliding blocks 107, and the continuous vibration force of the sliding blocks 107 can be avoided.

Secondly, the buffer member 109 is fixedly connected to the slider 107 and located at a side edge of the slider 107; the end cap 110 is fixedly connected to the buffer member 109, and is fixedly connected to the power distribution manager 101, and is located between the buffer member 109 and the power distribution manager 101. The end cover 110 is used for connecting the buffer 109 and the power distribution manager 101, when the power distribution manager 101 is vibrated in the use or transportation process, the power distribution manager 101 moves due to vibration, the power distribution manager 101 drives the end cover 110 to move, the end cover 110 applies force to the buffer 109, the buffer 109 can be used for providing a buffer function, and damage to electrical elements on the power distribution manager 101 due to overlarge vibration force of the power distribution manager 101 is avoided.

Meanwhile, the outer column 111 is fixedly connected with the sliding block 107 and is positioned at the side edge of the sliding block 107; the second spring 112 is fixedly connected with the outer column 111 and is positioned inside the outer column 111; the inner post 113 is fixedly connected with the second spring 112, fixedly connected with the end cover 110, and located between the second spring 112 and the end cover 110. When the power distribution manager 101 is vibrated during use or transportation, the power distribution manager 101 moves due to vibration, the power distribution manager 101 drives the end cover 110 and the inner column 113 to move, the inner column 113 applies force to the second spring 112, so that the second spring 112 stretches and contracts, the second spring 112 can provide a buffer effect, damage to electrical elements on the power distribution manager 101 caused by overlarge vibration force of the power distribution manager 101 is avoided, the outer column 111 is used for providing guidance for the second spring 112 and the inner column 113, friction is provided between the second spring 112 and the outer column 111, friction is also provided between the inner column 113 and the outer column 111, the thrust of the power distribution manager 101 to the outer column 111 can be continuously reduced through friction, and continuous movement of the outer column 111 is avoided, so that continuous shaking of the power distribution manager 101 is avoided.

When the utility model is used, screw holes are formed on the power distribution manager 103, so that the whole cabinet power distribution management equipment is convenient to mount, two supports 104 are used for supporting the guide rail 105, the guide rail 105 is used for providing guidance for the first spring 106 and the sliding block 107, the connecting piece 108 is used for connecting the sliding block 107 and the power distribution manager 101, vibration force is transmitted, when the power distribution manager 101 is vibrated in the using or transporting process, the power distribution manager 101 moves due to vibration, the power distribution manager 101 drives the end cover 110 and the inner column 113 to move, the inner column 113 applies force to the second spring 112, so that the second spring 112 stretches and contracts, the second spring 112 can provide buffering function, and meanwhile, the situation that an electric element on the power distribution manager 101 is damaged due to overlarge vibration force is avoided, when the power distribution manager 101 is vibrated, the outer column 111 drives the sliding block 107 to move, the sliding block 107 drives the end cover 110 and the inner column 113 to move along the guide rail 105, and the first spring 106 can provide great buffering function for the first spring 106, and the situation that the electric element on the power distribution manager 101 is damaged due to the fact that the first spring 106 stretches and the first spring 106 is stressed is damaged is provided; friction force is arranged between the first spring 106 and the guide rail 105, friction force is also arranged between the sliding block 107 and the guide rail 105, and the thrust of the connecting piece 108 to the sliding block 107 can be continuously reduced through the friction force, so that the sliding block 107 is prevented from continuously moving, and the power distribution manager 101 is prevented from continuously shaking; the outer column 111 is used for guiding the second spring 112 and the inner column 113, meanwhile, friction force exists between the second spring 112 and the outer column 111, friction force exists between the inner column 113 and the outer column 111, thrust of the power distribution manager 101 to the outer column 111 can be continuously reduced through friction force, continuous movement of the outer column 111 is avoided, and continuous shaking of the power distribution manager 101 is avoided.

The second embodiment of the utility model is as follows:

on the basis of the first embodiment, please refer to fig. 3, wherein fig. 3 is a schematic diagram of the overall structure of the second embodiment of the present utility model.

The utility model provides cabinet power distribution management equipment which further comprises a mounting bolt 201 and a gasket 202.

For the present embodiment, the mounting bolt 201 is screwed with the mounting plate 103 and penetrates the mounting plate 103. The mounting bolts 201 are used for connecting the mounting board 103 with a mounting plane, so that the cabinet power distribution management device is integrally mounted.

The gasket 202 is fixedly connected with the mounting plate 103, and is located at a side edge of the mounting plate 103. The spacer 202 prevents wear between the mounting plate 103 and the mounting plane.

When the utility model is used, the mounting bolts 201 are used for connecting the mounting plate 103 with a mounting plane, so that the whole cabinet power distribution management equipment is mounted, and the gasket 202 can avoid abrasion between the mounting plate 103 and the mounting plane.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.

Claims (5)

1. A cabinet power distribution management device comprises a power distribution manager, and is characterized in that,

the shock absorber also comprises two shock absorbing components;

the two damping components are positioned at two sides of the power distribution manager and comprise a mounting plate, two supports, a guide rail, two first springs, a sliding block and a connecting piece;

the two supports are fixedly connected with the mounting plate respectively and are positioned on two sides of the mounting plate; the guide rail is fixedly connected with the two supports respectively and is positioned between the two supports; the two first springs are fixedly connected with the two supports respectively, are positioned at the side edges of the two supports respectively, and are penetrated by the guide rail respectively; the sliding block is in sliding connection with the guide rail, is fixedly connected with the two first springs respectively, and is positioned between the two first springs; the connecting piece is fixedly connected with the sliding block, fixedly connected with the power distribution manager and positioned between the sliding block and the power distribution manager.

2. The cabinet power distribution management apparatus as recited in claim 1, wherein,

the connecting piece comprises a buffer piece and an end cover; the buffer piece is fixedly connected with the sliding block and is positioned at the side edge of the sliding block; the end cover is fixedly connected with the buffer piece, fixedly connected with the power distribution manager and positioned between the buffer piece and the power distribution manager.

3. A cabinet power distribution management apparatus as claimed in claim 2, wherein,

the buffer piece comprises an outer column, a second spring and an inner column; the outer column is fixedly connected with the sliding block and is positioned at the side edge of the sliding block; the second spring is fixedly connected with the outer column and is positioned in the outer column; the inner column is fixedly connected with the second spring, fixedly connected with the end cover and positioned between the second spring and the end cover.

4. The cabinet power distribution management apparatus as recited in claim 1, wherein,

the damping assembly further comprises a mounting bolt; the mounting bolt is in threaded connection with the mounting plate and penetrates through the mounting plate.

5. The cabinet power distribution management apparatus as recited in claim 4, wherein,

the shock absorbing assembly further includes a spacer; the gasket is fixedly connected with the mounting plate and is positioned on the side edge of the mounting plate.