CN117301006A - Prevent mistake and bump electric power maintenance instrument storing compartment of landing - Google Patents

Abstract

An electric power overhaul tool storage cabinet capable of preventing false collision from sliding belongs to the technical field of electric power overhaul tool storage cabinets, and comprises a cabinet body, a placing cavity formed in the cabinet body, a placing box arranged in the placing cavity, a limiting structure for limiting the position of the placing box and an ejecting structure for assisting in taking out the placing box. According to the invention, the position of the placement box is initially limited by arranging the limiting structure, so that the situation that the placement box slides is avoided, and the purpose of preventing the placement box from sliding out and falling due to false touch is initially achieved by arranging the connecting block, the sliding block and the handheld part and driving the limiting block to be separated from the limiting groove by pulling down the handheld part. The limiting block is further limited by the structure of hydraulic drive such as the guide pipe, the pressure receiving plate and the adjusting cavity, the pressure receiving plate and the handheld part are required to be simultaneously held, the lower handle holding part drives the limiting block to be separated from the limiting groove, and the situation that the internal tool is damaged due to the fact that the placing box slides out and falls due to false touch can be better avoided.

Description

Prevent mistake and bump electric power maintenance instrument storing compartment of landing

Technical Field

The invention belongs to the technical field of power overhaul tool storage cabinets, and particularly relates to a power overhaul tool storage cabinet capable of preventing mistaken touch and sliding.

Background

The electric power overhaul tool storage cabinet is widely applied to units and departments such as substations, centralized control stations, line work areas, electric power company customer service centers and the like with various voltage levels, and is widely used for emergency use when people are in emergency. The existing electric power overhauling tool storage cabinet is used for storing tools in a storage box, the existing storage box is of a common drawer type structural design, and the storage box is easy to touch a handle by mistake in the use process, so that the storage box slides out and falls down to cause damage to internal tools.

There is a need in the art for a new solution to this problem.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the utility model provides an electric power overhauls instrument switch board of preventing mistake touch landing is used for solving current electric power overhauls instrument switch board, and its box of placing is ordinary drawer type structural design, and the mistake touches the handle and leads to placing the box roll-off and drop and cause the impaired technical problem of inside instrument easily.

The utility model provides an electric power overhaul tool storage cabinet that anti-miss bumps landing, includes the cabinet body, the cabinet body is offered evenly distributed on its side wall that is located the front and is placed the chamber, place the inside in chamber and be provided with and place the box;

the utility model provides an electric power overhaul tool storage cabinet capable of preventing false touch from sliding off, which further comprises a limiting structure for limiting the position of the storage box;

two limit grooves which are symmetrically distributed are formed in the top of the opening side of the placement cavity;

the limiting structure is arranged on the placement box and comprises a connecting block, a second spring, a limiting block, a sliding block, a handheld part and a fourth spring; the back side of the limiting block is provided with wedge surfaces, two limiting blocks are arranged, the upper parts of the limiting blocks are correspondingly inserted into the limiting grooves in the state that the placing box is completely inserted into the placing cavity, the lower parts of the limiting blocks are embedded into the placing box, and the lower parts of the limiting blocks are connected with the connecting blocks through second springs; the side part of the connecting block is fixedly connected with one side of the sliding block, and the lower part of the connecting block is fixedly connected with the upper part of the fourth spring; the lower part of the fourth spring is fixedly connected with the placement box; the sliding block is vertically arranged with the connecting block, and the other side of the sliding block penetrates through the placing box and is fixedly connected with the hand-held part; the placement box is provided with a through hole at a position penetrated by the sliding block, and the longitudinal length of the through hole is larger than the sum of the height of the limiting block and the height of the sliding block.

A liquid storage cavity is formed in the handheld part; the inner wall of the liquid storage cavity is connected with an extrusion plate in a sliding manner; a pressure receiving plate is connected between the two sliding blocks in a sliding manner, the pressure receiving plate is arranged in parallel with the extrusion plate, and the pressure receiving plate is fixedly connected with the extrusion plate through two connecting rods; the hydraulic oil is filled between one side of the extrusion plate far away from the connecting rod and the liquid storage cavity;

limiting holes are formed in the opposite sides of the two connecting blocks, and adjusting cavities which are coaxially distributed with the limiting holes are formed in the connecting blocks; the inner wall of the placement box is connected with two limit posts which are arranged corresponding to the limit holes in a sliding manner; a third spring is fixedly connected between one end of the limiting column far away from the connecting block and the inner wall of the placement box;

a conduit is arranged in the connecting block; one end of the guide pipe is communicated with the adjusting cavity, and the other end of the guide pipe is communicated with the liquid storage cavity; the inner wall of the adjusting cavity is connected with a push rod in a sliding manner;

the other end of the limiting column is spliced with the limiting hole in a state that hydraulic oil is not extruded into the adjusting cavity;

in the state that hydraulic oil extrudes into the adjusting cavity, one end of the ejector rod is contacted with the surface of the limiting column under the pushing of the hydraulic oil, and the limiting column is pushed to be separated from the limiting hole.

The placing box is provided with a transparent plate in an embedded mode on the side wall of the placing box, which is positioned on the front face.

The utility model provides an electric power overhaul tool storage cabinet that prevent bumping landing by mistake, still includes the pop-up structure that is used for assisting to place the box and takes out, pop-up structure includes guide chamber, first spring, roof and guide bar; the guide cavities are arranged on two side surfaces adjacent to the front surface of the placement box, the two guide cavities are positioned at the far ends of the front surface side, the inner walls of the guide cavities are connected with a top plate in a sliding manner, and a first spring is arranged in the guide cavities; one end of the first spring is fixedly connected with the end head of the guide cavity, and the other end of the first spring is fixedly connected with one side of the top plate; the other side surface of the top plate is connected with one end head of the guide rod; the other end of the guide rod penetrates out of the placement box and is fixedly connected with the inner wall of the placement cavity.

Through the design scheme, the invention has the following beneficial effects:

1. according to the invention, the limiting structure is arranged, the position of the placing box is initially limited when the placing box is placed in the placing cavity, the situation that the placing box slides is avoided, the connecting block, the sliding block and the handheld part are arranged, the limiting block can be driven to be separated from the limiting groove by pulling down the handheld part, a key is not required to be independently opened, the placing box is used under an emergency condition, and the purpose of preventing the placing box from sliding out and falling due to false touch can be initially achieved.

2. According to the invention, the guide pipe, the pressure receiving plate, the connecting rod, the extruding plate, the adjusting cavity, the ejector rod, the limiting hole, the limiting column and the third spring are arranged, so that the situation that the internal tool is damaged due to the fact that the placing box slides out and falls down to cause the error touch can be better avoided by simultaneously holding the pressure receiving plate and the handheld part, so that the pressure receiving plate drives the extruding plate to push the limiting column to separate from the limiting hole and then the lower handle holding part drives the limiting block to separate from the limiting groove.

3. Through setting up pop-up structure and transparent plate, can observe the instrument of placing box inside storage through the transparent plate when the user needs the use instrument to take corresponding instrument fast and overhaul, strive for the time for the maintenance, pop-up structure can be in the spacing back of removing placing the box will place the box and pop-up a distance simultaneously, the staff of being convenient for takes the instrument fast.

Drawings

The invention is further described with reference to the drawings and detailed description which follow:

FIG. 1 is a schematic diagram of a power overhaul tool storage cabinet capable of preventing false touch sliding off;

FIG. 2 is a schematic distribution diagram of a limiting groove and a placing cavity after a longitudinal section of an electric power overhaul tool storage cabinet for preventing false collision and sliding off;

FIG. 3 is a schematic diagram showing connection between an ejection structure and a placement box in a storage cabinet of an electric power overhaul tool for preventing false collision and sliding off;

FIG. 4 is a schematic diagram showing connection between a limiting structure and a placement box in a storage cabinet of an electric power overhaul tool for preventing false collision and sliding off;

fig. 5 is an enlarged view of a in fig. 4.

In the figure: the device comprises a 1-cabinet body, a 101-placing cavity, a 102-limiting groove, a 2-placing box, a 201-transparent plate, a 3-ejecting structure, a 301-guiding cavity, a 302-first spring, a 303-top plate, a 304-guiding rod, a 401-connecting block, a 402-second spring, a 403-limiting block, a 404-sliding block, a 405-hand-held part, a 406-liquid storage cavity, a 407-connecting rod, a 408-extruding plate, a 409-pressure-bearing plate, a 410-guide pipe, a 411-adjusting cavity, a 412-ejector rod, a 413-third spring, a 414-limiting column and a 415-fourth spring.

Description of the embodiments

As shown in fig. 1 to 5, an electric power overhaul tool storage cabinet capable of preventing false touch and sliding down includes: the cabinet body 1, one side of the cabinet body 1 is provided with uniformly distributed placing cavities 101, the inside of the placing cavities 101 is provided with placing boxes 2, the inner top wall of the placing cavities 101 is provided with two limit grooves 102 which are symmetrically distributed, and one side of each placing box 2 is embedded and provided with a transparent plate 201; the ejecting structure 3 is arranged in the placing box 2, and the ejecting structure 3 is used for assisting in taking out the placing box 2; limit structure, limit structure sets up in placing the inside of box 2, and limit structure is used for cooperating spacing groove 102 to placing the position of box 2 spacing, and the setting of transparent plate 201 can look over the instrument of placing box 2 inside and depositing through transparent plate 201 when the user looks for the instrument to the staff looks for the instrument fast.

As shown in fig. 1 to 5, the pop-up structure 3 includes two guide cavities 301 formed on one side of the placement box 2 far away from the transparent plate 201, a top plate 303 is slidably connected to an inner wall of the guide cavity 301, a first spring 302 is fixedly connected between one side of the top plate 303 and an inner wall of the guide cavity 301, a guide rod 304 is disposed on the other side of the top plate 303, one end of the guide rod 304 contacts with a surface of the top plate 303, the other end of the guide rod 304 penetrates the placement box 2 and is fixedly connected with an inner wall of the placement cavity 101, the guide rod 304 can push the top plate 303 to slide in the guide cavity 301 during the process of inserting the placement box 2 into the placement cavity 101, and meanwhile, the first spring 302 can be extruded.

As shown in fig. 1 to 5, the limiting structure comprises two connecting blocks 401 which are connected in a sliding manner and are symmetrically distributed in the placement box 2, a fourth spring 415 is fixedly connected between the bottom of the connecting block 401 and the inner wall of the placement box 2, limiting blocks 403 are connected in a sliding manner on the inner wall of the connecting block 401, the upper ends of the limiting blocks 403 penetrate through the connecting block 401 and extend into the adjacent limiting grooves 102, a wedge surface is arranged on one side, close to the guide rod 304, of each limiting block 403, a second spring 402 is fixedly connected between the bottom of each limiting block 403 and the inner wall of the corresponding connecting block 401, sliding blocks 404 are fixedly connected to one sides, far away from the guide rod 304, of the two connecting blocks 401, the other ends of the sliding blocks 404 penetrate through the placement box 2 and are fixedly connected with a handheld portion 405, a liquid storage cavity 406 is formed in the interior of the handheld portion 405, a pressure receiving plate 409 is connected between the two sliding blocks 404, and a connecting rod 407 with two numbers of pressure receiving plates 409 are fixedly connected to one side, close to the handheld portion 405;

when the placement box 2 is inserted into the placement cavity 101, the wedge surface of the limiting block 403 can be extruded through the inner wall of the placement cavity 101, so that the pushing limiting block 403 is contracted into the interior of the connecting block 401 and simultaneously compresses the second spring 402 until the placement box 2 is placed in place, at the moment, the limiting block 403 is positioned at the limiting groove 102, the limiting block 403 can be driven to reset under the action of the second spring 402, the limiting block 403 can be blocked by the limiting groove 102 when inserted into the limiting groove 102, and the placement box 2 is prevented from being pulled outwards to achieve the effect of limiting the position of the placement box 2, and meanwhile, the situation that the first spring 302 drives the placement box 2 to pop out can be avoided;

when the placing box 2 needs to be taken out, the hand-held part 405 is pulled to move downwards, two sliding blocks 404 can be driven to move downwards, two connecting blocks 401 can be driven to move downwards in synchronization in the process (the fourth spring 415 can be extruded in the process of moving downwards the connecting blocks 401), when the hand-held part 405 is loosened, the connecting blocks 401 can be driven to reset under the action of the fourth spring 415), and then the limiting block 403 can be contracted into the placing box 2, so that the limiting block 403 is separated from the limiting groove 102, the placing box 2 can be pulled outwards, the placing box 2 can be assisted to be popped out under the action of the pop-up structure 3 in the process, and a user can conveniently take tools.

As shown in fig. 1 to 5, the other end of the connecting rod 407 penetrates through the handheld portion 405 and is fixedly connected with an extrusion plate 408 which is in sliding connection with the inner wall of the liquid storage cavity 406, hydraulic oil is filled between one side of the extrusion plate 408, which is far away from the connecting rod 407, and the liquid storage cavity 406, limiting holes are formed in the opposite sides of the two connecting blocks 401, two limiting columns 414 which are respectively corresponding to the two limiting holes are slidingly connected with the inner wall of the placing box 2, a third spring 413 is fixedly connected between one end of the limiting column 414, which is far away from the connecting blocks 401, and the inner wall of the placing box 2, the other end of the limiting column 414 extends to the inside of the adjacent limiting hole, an adjusting cavity 411 which is coaxially distributed with the limiting holes is formed in the inside of the connecting blocks 401, an ejector rod 412 is slidingly connected with the inner wall of the adjusting cavity 411, one end of the ejector rod 412 is in contact with the surface of the limiting column 414, a guide pipe 410 is arranged in the inside of the connecting blocks 401, one end of the guide pipe 410 is communicated with the adjusting cavity 411, and the other end of the guide pipe 410 is communicated with the liquid storage cavity 406;

when placing box 2 and accomodating in placing the inside of chamber 101, spacing post 414 cooperation spacing hole at this moment carries out spacingly to the position of connecting block 401, thereby can prevent connecting block 401 to move down, in order to avoid the mistake to touch handheld portion 405 and move down and lead to relieving the effect of spacing to placing box 2, when needing to take out and placing box 2, the user is through holding pressure plate 409 (pressure plate 409 is the rubber material component) and extrusion, thereby can drive pressure plate 409 and move to handheld portion 405 direction, and then drive connecting rod 407 makes the inside hydraulic oil of stripper plate 408 extrusion stock solution chamber 406, receive extruded hydraulic oil can pour into the inside of adjusting chamber 411 through pipe 410, thereby promote through the extrusion of hydraulic oil, make ejector pin 412 top move spacing post 414 and spacing hole separation (compress spacing post 414 simultaneously), and then release the spacing effect to connecting block 401, thereby can pull down handheld portion 405 and drive connecting block 401 and move down and make stopper 403 and spacing to place box 2, place box 2 and release handheld portion 405 and can drive 401 under the effect of fourth spring 415 and reset, thereby the spacing hole can move to spacing post 414 again, the inside of adjusting chamber 411 is convenient for the inside of adjusting the inside of ejector pin 412 top of adjusting the inside of the connecting block 412 under the effect of connecting block 412.

When the invention is used, a tool is placed in the placement box 2, the placement box 2 is inserted into the placement cavity 101 for storage and placement, a user can hold the pressure receiving plate 409 and squeeze the pressure receiving plate 409 in the process, so that the pressure receiving plate 409 is driven to drive the connecting rod 407 to squeeze the hydraulic oil in the liquid storage cavity 406 by the squeezing plate 408, the hydraulic oil is further led into the adjusting cavity 411 under the action of the guide pipe 410, the ejector rod 412 can be pushed to push the limit post 414 to be separated from the limit hole, the limit of the connecting block 401 can be relieved, the hand-held part 405 is pulled down to enable the connecting block 401 to drive the limit block 403 to be separated from the limit groove 102, the limit effect of the placement box 2 is relieved, the placement box 2 can be driven to be outwards ejected for a certain distance under the action of the ejecting structure 3 at the moment, the user can conveniently take the tool, the placement box 2 can be extruded to the wedge surface of the limit block 403 to be contracted into the interior of the connecting block 401 in the process of placing box 101, the placement box 2 can not be influenced until the placement box 2 is placed in the place, the limit post can be pushed to be separated from the limit hole under the action of the second spring 402, the limit post can be prevented from being inserted into the interior of the limit post 401 under the action of the limit groove, and the limit post can be prevented from being mistakenly inserted into the limit groove 401 under the condition of the normal condition of the placing box 2.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (4)

1. The utility model provides an electric power overhauls instrument storing compartment of landing is bumped in mistake, includes the cabinet body (1), evenly distributed's place chamber (101) have been seted up on its positive lateral wall that is located to the cabinet body (1), place the inside in chamber (101) and be provided with place box (2), characterized by: the device also comprises a limiting structure for limiting the position of the placement box (2);

two limit grooves (102) which are symmetrically distributed are formed in the top of the opening side of the placement cavity (101);

the limiting structure is arranged on the placement box (2) and comprises a connecting block (401), a second spring (402), a limiting block (403), a sliding block (404), a handheld part (405) and a fourth spring (415); the back sides of the limiting blocks (403) are arranged to be wedge surfaces, the limiting blocks (403) are provided with two, the upper parts of the limiting blocks (403) are correspondingly inserted into the limiting grooves (102) in the state that the placing box (2) is completely inserted into the placing cavity (101), the lower parts of the limiting blocks (403) are embedded into the placing box (2), and the lower parts of the limiting blocks (403) are connected with the connecting blocks (401) through the second springs (402); the side part of the connecting block (401) is fixedly connected with one side of the sliding block (404), and the lower part of the connecting block (401) is fixedly connected with the upper part of the fourth spring (415); the lower part of the fourth spring (415) is fixedly connected with the placement box (2); the sliding block (404) is vertically arranged with the connecting block (401), and the other side of the sliding block (404) penetrates through the placement box (2) and is fixedly connected with the hand-held part (405); the placement box (2) is provided with a through hole at a position penetrated by the sliding block (404), and the longitudinal length of the through hole is larger than the sum of the height of the limiting block (403) and the height of the sliding block (404).

2. The anti-false touch sliding power overhaul tool storage cabinet according to claim 1, characterized in that: a liquid storage cavity (406) is formed in the handheld part (405); the inner wall of the liquid storage cavity (406) is connected with a squeezing plate (408) in a sliding way; a pressure receiving plate (409) is connected between the two sliding blocks (404) in a sliding manner, the pressure receiving plate (409) is arranged in parallel with the extrusion plate (408), and the pressure receiving plate (409) is fixedly connected with the extrusion plate (408) through two connecting rods (407); the extruding plate (408) is filled with hydraulic oil between one side far away from the connecting rod (407) and the liquid storage cavity (406);

limiting holes are formed in the opposite sides of the two connecting blocks (401), and adjusting cavities (411) which are distributed coaxially with the limiting holes are formed in the connecting blocks (401); the inner wall of the placement box (2) is connected with two limit posts (414) which are arranged corresponding to the limit holes in a sliding manner; a third spring (413) is fixedly connected between one end of the limiting column (414) far away from the connecting block (401) and the inner wall of the placement box (2);

a conduit (410) is arranged inside the connecting block (401); one end of the conduit (410) is communicated with the adjusting cavity (411), and the other end of the conduit (410) is communicated with the liquid storage cavity (406); an ejector rod (412) is connected to the inner wall of the adjusting cavity (411) in a sliding manner;

the other end of the limiting column (414) is spliced with the limiting hole in a state that hydraulic oil is not extruded into the adjusting cavity (411);

in a state that hydraulic oil is extruded into the adjusting cavity (411), one end of the ejector rod (412) is contacted with the surface of the limiting column (414) under the pushing of the hydraulic oil, and the limiting column (414) is pushed to be separated from the limiting hole.

3. The anti-false touch sliding power overhaul tool storage cabinet according to claim 1, characterized in that: the placing box (2) is embedded and provided with a transparent plate (201) on the side wall of the placing box, which is positioned on the front face.

4. The anti-false touch sliding power overhaul tool storage cabinet according to claim 1, characterized in that: the device also comprises an ejecting structure (3) for assisting in taking out the placement box (2), wherein the ejecting structure (3) comprises a guide cavity (301), a first spring (302), a top plate (303) and a guide rod (304); the guide cavities (301) are formed in two side faces adjacent to the front face of the placement box (2), the two guide cavities (301) are located at the far ends of the front face sides, the inner walls of the guide cavities (301) are connected with top plates (303) in a sliding mode, and first springs (302) are further arranged in the guide cavities (301); one end of the first spring (302) is fixedly connected with the end head of the guide cavity (301), and the other end of the first spring (302) is fixedly connected with one side of the top plate (303); the other side surface of the top plate (303) is connected with one end head of the guide rod (304); the other end of the guide rod (304) penetrates through the placement box (2) and is fixedly connected with the inner wall of the placement cavity (101).