CN210379838U - Multidimensional damping type intelligent Internet of things power distribution cabinet - Google Patents

Abstract

A multidimensional damping type intelligent Internet of things power distribution cabinet comprises a shell, an inner frame, a limiting mechanism and a damping mechanism, wherein an accommodating cavity for accommodating the inner frame is formed in the shell; the limiting mechanism is arranged between the outer wall of the inner frame and the side surface of the accommodating cavity, enables the inner frame to only move up and down, and comprises two fixed blocks arranged on the side surface of the accommodating cavity at intervals, a supporting rod supported between the two fixed blocks, a moving block capable of being sleeved on the supporting rod in a moving up and down mode, two first springs respectively arranged between the fixed blocks and the moving block, and a limiting block, wherein one end of the limiting block is connected with the outer side surface of the moving block, and the other end; damping mechanism prevents that the inside casing from contacting with holding the chamber when reciprocating, including setting up at the inside casing top surface and holding the first damping mechanism between the chamber top surface and setting up at the inside casing bottom surface and holding the second damping mechanism between the chamber bottom surface, through stop gear and damping mechanism's cooperation, avoid bumping between casing and the inside casing, improve the stability of switch board in the transportation, guaranteed the life of switch board.

Description

Multidimensional damping type intelligent Internet of things power distribution cabinet

Technical Field

The utility model belongs to the switch board field, concretely relates to multidimension shock attenuation formula intelligence thing networking switch board.

Background

The thing networking switch board is formed by steel processing and is used for protecting the cupboard of the normal work of components and parts, and thing networking switch board preparation material generally divide into hot-rolled steel plate and cold-rolled steel sheet two kinds, and the cold-rolled steel sheet is softer than hot-rolled steel plate, more is fit for the preparation of thing networking switch board, and thing networking switch board usage is extensive, mainly used chemical industry, environmental protection trade, electric power system, metallurgical system, nuclear power industry, fire control safety monitoring and traffic industry etc.. But present thing networking switch board shock attenuation effect is poor, and some devices in the switch board all have relative vibrations at many times in the in-process of transportation or installation, and the switch board can all produce vibrations under the condition that receives external disturbance in addition, and the device that has been the inside for a long time like this receives the not hard up that vibrations can become, directly even breaks, can't satisfy the user demand, awaits further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's shortcoming, providing a multidimension shock attenuation formula intelligence thing networking switch board.

The utility model adopts the following technical scheme:

a multidimensional damping type intelligent Internet of things power distribution cabinet comprises a shell, an inner frame, a limiting mechanism and a damping mechanism, wherein an accommodating cavity for accommodating the inner frame is formed in the shell; the limiting mechanism is arranged between the outer wall of the inner frame and the side surface of the accommodating cavity, enables the inner frame to only move up and down, and comprises two fixed blocks arranged on the side surface of the accommodating cavity at intervals, a moving rod supported between the two fixed blocks, a moving block capable of being sleeved on the moving rod in a moving up and down mode, two first springs respectively arranged between the fixed blocks and the moving block, and a limiting block, wherein one end of the limiting block is connected with the outer side surface of the moving block, and the other end of the; the damping mechanism prevents the inner frame from contacting with the accommodating cavity when moving up and down, and comprises a first damping mechanism arranged between the top surface of the inner frame and the top surface of the accommodating cavity and a second damping mechanism arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity.

Furthermore, the shake mechanism includes the first gasbag that supports between inside casing top surface and the chamber top surface of holding, the symmetry sets up two second gasbags relative with the inside casing lateral wall in the chamber side of holding, set up the extrusion stem relative with the inside casing lateral wall at second gasbag front end and pipe that is used for connecting first gasbag and second gasbag, during the inside casing upward movement, the air that extrudees first gasbag messenger first gasbag gets into the second gasbag, drive extrusion stem along the direction motion that is close to the inside casing lateral wall to extrusion stem and inside casing lateral wall contact restriction inside casing upward movement.

Furthermore, the first damping mechanism also comprises a guide assembly, the guide assembly is used for guiding the inner frame moving upwards to reset and comprises a guide frame, a moving block, a second spring, a steel cable and a connecting block, the guide frame is arranged on the side surface of the accommodating cavity and extends downwards along the height, and a placing cavity is formed in the guide frame; the motion block can move up and down and is arranged in the placing cavity; the second spring is arranged in the placing cavity, one end of the second spring is connected with the bottom surface of the moving block, and the other end of the second spring is connected with the bottom surface of the placing cavity; the connecting block is arranged on the side surface of the inner frame; one end of the steel cable is connected with the connecting block, the other end of the steel cable extends into the placing cavity and is connected with the bottom surface of the moving block, when the inner frame moves upwards, the steel cable drives the moving block to move downwards, and the second spring is in a compressed state; after the inner frame is limited by the extrusion rod, the second spring is reset to drive the moving block to move upwards so that the inner frame is reset.

Further, the guide assembly further comprises a guide wheel arranged in the accommodating cavity, one end of the steel cable is connected with the connecting block, and the other end of the steel cable bypasses the guide wheel to extend to the placing groove to be connected with the moving block.

Furthermore, a placing frame opposite to the side wall of the inner frame is arranged on the side face of the accommodating cavity, the second air bag is arranged on the placing frame, and one end of the extrusion rod extends into the placing frame and is connected with the second air bag.

Furthermore, the second damping mechanism comprises two telescopic blocks, two limiting frames, a supporting rod, a supporting component and a third spring, wherein the two telescopic blocks are arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity in an up-down opposite mode; the supporting rod is arranged between the two telescopic blocks; the two limiting frames are respectively arranged at two ends of the supporting rod, and the limiting frames can be arranged on the supporting rod in a reciprocating manner; the supporting assembly is arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity and is rotatably connected with the limiting frame; the third spring sets up in spacing frame, and one end is connected the other end with spacing frame with the bracing piece and is connected, inside casing downstream, and flexible piece shrink makes the supporting component rotate and drives spacing frame removal compression third spring.

Furthermore, the supporting assembly comprises a first adjusting rod and a second adjusting rod, the first adjusting rod is rotatably connected between the limiting frame and the bottom surface of the inner frame, the second adjusting rod is rotatably connected between the limiting frame and the bottom surface of the accommodating cavity, the inner frame moves downwards, and the telescopic block contracts to enable the first adjusting rod and the second adjusting rod to rotate to drive the limiting frame to move to compress the third spring.

Furthermore, the bottom surface of the inner frame is provided with a supporting top plate, the bottom surface of the accommodating cavity is provided with a supporting bottom plate, and the two telescopic blocks are arranged between the supporting top plate and the supporting bottom plate in an up-down opposite mode.

It can be known from the above description of the present invention, compared with the prior art, the beneficial effects of the present invention are: the limiting mechanism and the damping mechanism are arranged between the inner frame and the accommodating cavity, the limiting mechanism enables the inner frame to only move up and down due to bumping in the transportation process of the power distribution cabinet, the side wall of the inner frame is prevented from contacting with the side surface of the accommodating cavity, the damping mechanism can prevent the inner frame from contacting with the accommodating cavity when moving up and down, a certain distance is kept between the shell and the inner frame, collision between the shell and the inner frame is avoided, the stability of the power distribution cabinet in the transportation process is improved, and the service life of the power distribution cabinet is ensured;

the first damping mechanism comprises a first air bag, a second air bag, an extrusion rod and a guide pipe, when the inner frame moves upwards, the first air bag is extruded to enable air in the first air bag to enter the second air bag, the extrusion rod is driven to move along the direction close to the side wall of the inner frame until the extrusion rod is contacted with the side wall of the inner frame, the inner frame is clamped, the inner frame is limited to continue to move upwards, and collision between the inner frame and the top surface of the accommodating cavity is prevented;

the first damping mechanism further comprises a guide assembly, the guide assembly guides the inner frame moving upwards to reset and comprises a guide frame, a moving block, a second spring, a steel cable and a connecting block, when the inner frame moves upwards, the steel cable drives the moving block to move downwards to extrude the second spring, and when the inner frame is limited by the extrusion rod, the second spring resets to drive the moving block to move upwards to pull the steel cable to reset the inner frame;

the second damping mechanism comprises a telescopic block, limiting frames, supporting rods, supporting components and a third spring, when the inner frame moves downwards, the telescopic block is compressed to enable the supporting components to rotate to drive the two limiting frames to move in opposite directions, the third spring is compressed, gravity is dispersed onto the third spring, collision between the bottom surface of the inner frame and the bottom surface of the containing cavity is prevented, the stability of the power distribution cabinet in the transportation process is improved, and the service life of the power distribution cabinet is guaranteed.

Drawings

Fig. 1 is a schematic view of the specific structure of the present invention;

FIG. 2 is a schematic structural view of a second damping mechanism;

FIG. 3 is a schematic structural view of a limiting mechanism;

FIG. 4 is a schematic structural view of a first damping mechanism;

in the figure, 1-shell, 2-inner frame, 3-limiting mechanism, 4-first damping mechanism, 5-second damping mechanism, 11-containing cavity, 31-fixed block, 32-moving rod, 33-moving block, 34-first spring, 35-limiting block, 41-first air bag, 42-second air bag, 43-extruding rod, 44-conduit, 45-placing frame, 46-guiding component, 461-guiding frame, 4611-placing cavity, 462-moving block, 463-second spring, 464-steel cable, 465-connecting block, 466-guide wheel, 51-supporting top plate, 52-supporting bottom plate, 53-telescopic block, 54-supporting rod, 55-limiting frame, 56-third spring, 57-supporting component, 571-a first adjusting rod, 572-a second adjusting rod.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1 to 4, a multidimensional damping type intelligent internet of things power distribution cabinet comprises a shell 1, an inner frame 2, a limiting mechanism 3 and a damping mechanism.

The shell 1 is a square shell, and an accommodating cavity 11 for accommodating the inner frame 2 is formed in the shell.

The inner frame 2 is arranged in the accommodating cavity 11 and jolts up and down along with the shell 1 during transportation.

The limiting mechanisms 3 are arranged between the outer wall of the inner frame 2 and the side surface of the accommodating cavity 11, so that the inner frame 2 can only move up and down, the limiting mechanisms 3 are arranged in a plurality of numbers, the circumference of the limiting mechanisms is distributed between the outer wall of the inner frame 2 and the side surface of the accommodating cavity 11, the limiting mechanisms comprise two fixed blocks 31 which are arranged at the side surface of the accommodating cavity 11 and opposite to the side wall of the inner frame 2 at intervals, a moving rod 32 which is supported between the two fixed blocks 31, a moving block 33 which can be sleeved on the moving rod 32 in a moving up and down mode, two first springs 34 which are respectively arranged between the fixed blocks 31 and the moving block 33, and limiting blocks 35 of which one end is connected with the outer side surface of the moving block 33 and one end is contacted with the outer wall of the inner frame 2, the inner frame 2 can only move up and down due to vertical jolts, the service life of the power distribution cabinet is ensured.

Damper can prevent that inside casing 2 from reciprocating when with holding chamber 11 contact, including setting up at the inside casing 2 top surface and holding the first damper 4 between the 11 top surfaces of chamber and setting up at the inside casing 2 bottom surface and holding second damper 5 between the 11 bottom surfaces of chamber, make inside casing 2 can not collide with switch board casing 1 in the switch board transportation through first damper 4 and second damper 5, improve the stability of switch board in the transportation, guarantee the life of switch board.

The first shock absorption mechanism 4 comprises two first air bags 41, two second air bags 42, two placing frames 45, a squeezing rod 43, a guide pipe 44 and a guide assembly 46, wherein the two first air bags 41 are arranged between the top surface of the inner frame 2 and the top surface of the accommodating cavity 11 at intervals; the two second air bags 42 are symmetrically arranged on the side surface of the accommodating cavity 11, are opposite to the side wall of the inner frame 2 and are respectively connected with the two first air bags 41; the two placing frames 45 are symmetrically arranged on the side surface of the accommodating cavity 11 and opposite to the side wall of the inner frame 2, and are respectively arranged corresponding to the two first air bags 41, and the second air bags 42 are arranged in the placing frames 45; the extrusion rod 43 is arranged at the front end of the second air bag 42 and is opposite to the side wall of the inner frame 2 to extrude the second air bag 42; one end of the conduit 44 is connected to the first air cell 41, and the other end is connected to the second air cell 42, when the inner frame 2 moves upward, the first air cell 41 is pressed to make the air in the first air cell 41 enter the second air cell 42, and the pressing rod 43 is driven to move in the direction close to the side wall of the inner frame 2 until the pressing rod 43 contacts the side wall of the inner frame 2, so as to limit the upward movement of the inner frame 2.

The guiding assembly 46 is used for guiding the inner frame 2 moving upwards to reset, is arranged above the limiting mechanism 3, and comprises a guiding frame 461, a moving block 462, a second spring 463, a connecting block 465, a steel cable 464 and a guide wheel 466, wherein the guiding frame 461 is arranged on the side surface of the accommodating cavity 11, extends downwards along the height direction and is opposite to the side surface of the inner frame 2, and a placing cavity 4611 is formed in the guiding frame 461; the motion block 462 can move up and down and is arranged in the placing cavity 4611; a second spring 463 with one end connected to the bottom surface of the motion block 462 and the other end connected to the top surface of the placing chamber 4611 is disposed in the placing chamber 4611; the connecting block 465 is arranged on the outer wall of the inner frame 2; one end of the steel cable 464 is connected with the connecting block 465, and the other end extends into the placing cavity 4611 to be connected with the bottom surface of the moving block 462; the guide wheel 466 is rotatably arranged on the top surface of the fixed block 461, one end of the steel cable 464 is connected with the connecting block 462, the other end of the steel cable 464 bypasses the guide wheel 466 and extends into the placing groove 4611 to be connected with the moving block 462, when the inner frame 2 moves upwards, the steel cable 464 drives the moving block 462 to move downwards, the second spring 463 is in a compressed state, and after the inner frame 2 is limited by the extrusion rod 43, the second spring 463 resets to drive the moving block 462 to move upwards to reset the inner frame 2.

The second damping mechanism 5 comprises a supporting top plate 51, a supporting bottom plate 52, two telescopic blocks 53, two limiting frames 55, a supporting rod 54, a supporting component 57 and a third spring 56, wherein the supporting top plate 51 is arranged on the bottom surface of the inner frame 2; the supporting bottom plate 52 is arranged at the bottom surface of the accommodating cavity 11 opposite to the supporting top plate 51; the two telescopic blocks 53 are oppositely arranged between the supporting top plate 51 and the supporting bottom plate 52 up and down, one telescopic block 53 is connected with the supporting top plate 51, and the other telescopic block 53 is connected with the supporting bottom plate 52; the supporting rod 54 is arranged between the two telescopic blocks 53, and two opposite side surfaces of the supporting rod 54 are respectively contacted with the two telescopic blocks 53; the two limit frames 55 are respectively arranged at two ends of the support rod 54, and the limit frames 55 can be arranged on the support rod 54 in a reciprocating way; the third spring 56 is arranged in the limit frame 55, one end of the third spring is connected with the support rod 54, and the other end of the third spring is connected with the limit frame 55; the supporting assembly 57 is disposed between the supporting top plate 51 and the supporting bottom plate 52, and is rotatably connected to the limiting frame 55, and includes a first adjusting rod 571 rotatably connected between the limiting frame 55 and the supporting top plate 51 and a second adjusting rod 572 rotatably connected between the limiting frame 55 and the supporting bottom plate 52, the first adjusting rod 571 and the second adjusting rod 572 are symmetrically disposed with respect to the axis of the supporting rod 54, the inner frame 2 moves downward, the telescopic block 53 extends and retracts to enable the first adjusting rod 571 and the second adjusting rod 572 to rotate to drive the two limiting frames 55 to move in opposite directions to compress the third spring 56, so as to disperse gravity onto the third spring 56, thereby preventing collision between the bottom surface of the inner frame 2 and the bottom surface of the accommodating cavity 11.

The working principle is as follows: when the inner frame 2 moves upwards, the steel cable 464 drives the motion block 462 to move downwards to compress the second spring 463, the inner frame 2 extrudes the first air bag 41, air in the first air bag 41 enters the second air bag 42 to push the extrusion rod 43 to move towards the direction close to the inner frame 2 until the extrusion rod 43 contacts with the side wall of the inner frame 2 to limit the upward movement of the inner frame 2, and then the second spring 463 resets to drive the motion block 462 to move upwards to reset the inner frame 2; when inside casing 2 downstream, flexible piece 53 is flexible to make first regulation pole 571 and second regulation pole 572 rotate and drive fixed frame 55 and remove compression third spring 56, the power that will receive disperses on third spring 56, then third spring 56 resets and drives inside casing 2 and resets, cooperation through stop gear 3 and damper, make and keep certain distance between casing 1 and the inside casing 2, avoid colliding between casing 1 and the inside casing 2, improve the stability of switch board in the transportation, the life of switch board has been guaranteed.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited thereby, and all equivalent changes and modifications made within the scope of the claims and the specification should be considered within the scope of the present invention.

Claims (8)

1. The utility model provides a multidimension shock attenuation formula intelligence thing networking switch board which characterized in that: the damping device comprises a shell, an inner frame, a limiting mechanism and a damping mechanism, wherein the shell is provided with an accommodating cavity for accommodating the inner frame; the limiting mechanism is arranged between the outer wall of the inner frame and the side surface of the accommodating cavity, enables the inner frame to only move up and down, and comprises two fixed blocks arranged on the side surface of the accommodating cavity at intervals, a moving rod supported between the two fixed blocks, a moving block capable of being sleeved on the moving rod in a moving up and down mode, two first springs respectively arranged between the fixed blocks and the moving block, and a limiting block, wherein one end of the limiting block is connected with the outer side surface of the moving block, and the other end of the; the damping mechanism prevents the inner frame from contacting with the accommodating cavity when moving up and down, and comprises a first damping mechanism arranged between the top surface of the inner frame and the top surface of the accommodating cavity and a second damping mechanism arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity.

2. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 1, characterized in that: the first damping mechanism comprises a first air bag supported between the top surface of the inner frame and the top surface of the containing cavity, two second air bags symmetrically arranged on the side surface of the containing cavity and opposite to the side wall of the inner frame, an extrusion rod arranged at the front end of each second air bag and opposite to the side wall of the inner frame, and a guide pipe used for connecting the first air bags and the second air bags.

3. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 2, characterized in that: the first damping mechanism further comprises a guide assembly, the guide assembly is used for guiding the inner frame moving upwards to reset and comprises a guide frame, a moving block, a second spring, a steel cable and a connecting block, the guide frame is arranged on the side surface of the accommodating cavity and extends downwards along the height, and a placing cavity is formed in the guide frame; the motion block can move up and down and is arranged in the placing cavity; the second spring is arranged in the placing cavity, one end of the second spring is connected with the bottom surface of the moving block, and the other end of the second spring is connected with the bottom surface of the placing cavity; the connecting block is arranged on the side surface of the inner frame; one end of the steel cable is connected with the connecting block, the other end of the steel cable extends into the placing cavity and is connected with the bottom surface of the moving block, when the inner frame moves upwards, the steel cable drives the moving block to move downwards, and the second spring is in a compressed state; after the inner frame is limited by the extrusion rod, the second spring is reset to drive the moving block to move upwards so that the inner frame is reset.

4. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 3, characterized in that: the guide assembly further comprises a guide wheel arranged in the accommodating cavity, one end of the steel cable is connected with the connecting block, and the other end of the steel cable bypasses the guide wheel to extend to the placing groove and is connected with the moving block.

5. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 2, characterized in that: the side face of the accommodating cavity is provided with a placing frame opposite to the side wall of the inner frame, the second air bag is arranged on the placing frame, and one end of the extrusion rod extends into the placing frame and is connected with the second air bag.

6. The multi-dimensional damping type intelligent Internet of things power distribution cabinet according to any one of claims 1 to 5, characterized in that: the second damping mechanism comprises two telescopic blocks, two limiting frames, a supporting rod, a supporting component and a third spring, and the two telescopic blocks are oppositely arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity from top to bottom; the supporting rod is arranged between the two telescopic blocks; the two limiting frames are respectively arranged at two ends of the supporting rod, and the limiting frames can be arranged on the supporting rod in a reciprocating manner; the supporting assembly is arranged between the bottom surface of the inner frame and the bottom surface of the accommodating cavity and is rotatably connected with the limiting frame; the third spring sets up in spacing frame, and one end is connected the other end with spacing frame with the bracing piece and is connected, inside casing downstream, and flexible piece shrink makes the supporting component rotate and drives spacing frame removal compression third spring.

7. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 6, characterized in that: the supporting assembly comprises a first adjusting rod and a second adjusting rod, the first adjusting rod is rotatably connected between the limiting frame and the bottom surface of the inner frame, the second adjusting rod is rotatably connected between the limiting frame and the bottom surface of the accommodating cavity, the inner frame moves downwards, and the telescopic block contracts to enable the first adjusting rod and the second adjusting rod to rotate to drive the limiting frame to move to compress the third spring.

8. The multi-dimensional shock absorption type intelligent Internet of things power distribution cabinet according to claim 6, characterized in that: the bottom surface of the inner frame is provided with a supporting top plate, the bottom surface of the containing cavity is provided with a supporting bottom plate, and the two telescopic blocks are oppositely arranged between the supporting top plate and the supporting bottom plate.

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