CN212654747U

CN212654747U - Translation structure of logistics big data device

Info

Publication number: CN212654747U
Application number: CN202020579808.0U
Authority: CN
Inventors: 不公告发明人
Original assignee: Beijing Xinche Technology Co ltd
Current assignee: Beijing Xinche Technology Co ltd
Priority date: 2020-04-17
Filing date: 2020-04-17
Publication date: 2021-03-05
Anticipated expiration: 2030-04-17

Abstract

The utility model relates to a big data device technical field, a commodity circulation big data device translation structure, including the device body, device body below is equipped with the shock attenuation board, be fixed with spring one between shock attenuation board and the device body, both ends all weld the dog about the shock attenuation board top, device body left and right sides all is equipped with the baffle for being located the dog inboard, evenly be fixed with a plurality of spring two between baffle and the device body, shock attenuation board below four corners department all is equipped with trapezoidal plate, trapezoidal plate periphery is equipped with the movable frame, trapezoidal plate four sides all open the spout, movable frame inside wall top all is fixed with the slider, slider and spout sliding connection, the movable block has all welded below of the movable frame inner wall left and right sides, the lateral groove has all opened to the relative one side of two movable blocks, be equipped with the shifting plate in the lateral groove; the beneficial effects of the utility model reside in that: the device is convenient to move and fix, external impact can be effectively relieved, and internal elements of the device body are protected.

Description

Translation structure of logistics big data device

Technical Field

The utility model belongs to the technical field of big data device technique and specifically relates to a big data device translation structure of commodity circulation is related to.

Background

The logistics big data device provides professional data service and analysis service for development, research and decision of logistics industry through various advanced data acquisition and intelligent analysis technologies and by combining extensive investigation and research and post processing.

The appearance of big data device of commodity circulation is great, leads to the transport very inconvenient, so install the gyro wheel bottom the device usually, nevertheless because the frictional force on gyro wheel and ground is less, so move to predetermineeing after the position easy to take place vibrations on ground or suffer striking back position and change when the device, and the device removes the in-process and leads to the connecting wire fracture easily to at the striking in-process, lead to easily that device inner member is impaired, cause the unnecessary loss, to above-mentioned problem, the utility model provides a big data device translation structure of commodity circulation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a big data device translation structure of commodity circulation, this kind of big data device translation structure of commodity circulation, the removal and the fixing of the device of being convenient for, and can effectually alleviate outside striking, the internal component of protection device body to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a translation structure of a logistics big data device comprises a device body, wherein a damping plate is arranged below the device body, a first spring is fixed between the damping plate and the device body, stop blocks are welded at the left end and the right end above the damping plate, baffle plates positioned on the inner sides of the stop blocks are arranged at the left side and the right side of the device body, and a plurality of second springs are uniformly fixed between the baffle plates and the device body;

trapezoidal plates are arranged at four corners below the damping plate, movable frames are arranged on the peripheries of the trapezoidal plates, sliding grooves are formed in four sides of each trapezoidal plate, sliders are fixed above the inner side walls of the movable frames, the sliders are connected with the sliding grooves in a sliding mode, movable blocks are welded below the left side and the right side of the inner wall of each movable frame, side grooves are formed in opposite sides of the two movable blocks, a shifting plate is arranged in each side groove, a limiting groove is formed in the outer side face of the shifting plate, a limiting rod is fixed at the bottom of each side groove, the limiting rods extend into the limiting grooves and are connected with the limiting grooves in a sliding mode, a third spring is fixed in each side groove, the limiting rods penetrate through the third spring, connecting rings are welded above the movable frames, X-shaped plates are welded among the four connecting rings, limiting plates located above the movable blocks are welded on the left side and the right side of each trapezoidal plate, and supporting rods are fixed between the outer, trapezoidal board below is fixed with through the screw and is located two universal wheel between the limiting plate, the fixed electric telescopic handle in device body below, electric telescopic handle runs through the shock attenuation board and fixes with the X template, device body front end lower right corner is equipped with the button, button and electric telescopic handle electric connection.

Preferably, the first spring is provided with a plurality of springs which are evenly distributed on the left side and the right side of the electric telescopic rod, and the stop block is located on the outer side of the first spring.

Preferably, a rubber block is fixed on the inner side of the stop block, and the outer side of the baffle plate is in contact with the rubber block.

Preferably, the moving plate extends out of a side groove notch, and the distance between the moving plate and the side face of the universal wheel is 3-5 cm.

Preferably, the inner side above the moving plate is arranged in a downward inclined mode, the lower portion of the limiting plate is arranged in an inward inclined mode, and the distance between the bottom of the limiting plate and the top surface of the moving plate is smaller than 5 cm.

Preferably, the size of the outer end of the moving plate is larger than the size of the notch of the side groove.

Preferably, the width between the two limiting plates is larger than the diameter of the universal wheel.

Compared with the prior art, the beneficial effects of the utility model are that:

through the arrangement of the baffle and the second spring, the impact force can be favorably relieved when the device body is impacted, so that the impact force cannot be directly applied to the device body, the impact force on the device body can be effectively relieved, through the fixation of the rubber block on the inner side of the baffle, when the second spring rebounds after the impact, the baffle can avoid overlarge reaction force when the rebounding baffle of the second spring moves outwards, unnecessary damage is avoided, the baffle can be prevented from generating larger noise when contacting with the baffle through the arrangement of the rubber block, and meanwhile, the reaction force when the baffle moves outwards can be further relieved through the arrangement of the rubber block;

the movable frame can move downwards to be in contact with the ground to enable the universal wheels to be incapable of moving by arranging the button, the electric telescopic rod, the X-shaped plate, the connecting ring and the movable frame, the device body is fixed, the phenomenon that the device body is moved after being impacted to cause the breakage of the connecting wire is avoided, and the movable frame is moved upwards to be separated from the ground, so that a user can move the device body through the universal wheels conveniently;

the movable block, the moving plate and the third spring are arranged, so that excessive dust can be prevented from entering the movable frame when the device body is in a fixed state, the limiting rod is arranged to control the horizontal movement of the moving plate, the situation that the position of the moving plate deviates during movement to cause the extrusion deformation of the third spring and damage is avoided, and the movable block is arranged to increase the supporting force of the movable frame when the device body is in the fixed state;

through setting up spring two, do benefit to and alleviate its power of rocking when the device body removes, do benefit to the protection to device body internal element.

Drawings

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

fig. 2 is a schematic top view of the connection ring of the present invention;

FIG. 3 is a schematic cross-sectional view of the trapezoidal plate of the present invention;

fig. 4 is a schematic top view of the trapezoidal plate of the present invention.

The labels in the figure are: 1-the device body; 2-a damping plate; 3-a first spring; 4-a stop block; 5-a baffle plate; 6-spring two; 7-trapezoidal plate; 8-a movable frame; 9-a movable block; 10-side groove; 11-moving the plate; 12-a limiting groove; 13-a limiting rod; 14-spring three; 15-a chute; 16-a slide block; 17-a connecting ring; 18-X type board; 19-a limiting plate; 20-a support bar; 21-universal wheels; 22-an electric telescopic rod; 23-push button.

Detailed Description

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

Please refer to fig. 1 to 4:

a translation structure of a logistics big data device comprises a device body 1, wherein a damping plate 2 is arranged below the device body 1, a first spring 3 is fixed between the damping plate 2 and the device body 1, stop blocks 4 are welded at the left end and the right end above the damping plate 2, baffle plates 5 positioned on the inner sides of the stop blocks 4 are arranged at the left side and the right side of the device body 1, and a plurality of second springs 6 are uniformly fixed between the baffle plates 5 and the device body 1; the springs I3 are provided with a plurality of springs I3, the springs I3 are uniformly arranged on the left side and the right side of the electric telescopic rod 22, and the stop blocks 4 are positioned on the outer sides of the springs I3; a rubber block is fixed on the inner side of the baffle 4, and the outer side of the baffle 5 is in contact with the rubber block;

when device body 1 suffers the striking, the striking dynamics can be alleviated through the compression of spring two 6 to baffle 5, make the striking can not directly apply to device body 1 on, can effectively alleviate the striking to device body 1, through at the inboard fixed rubber piece of dog 4, when suffering striking back spring two 6 kick-backs, the reaction force when dog 4 can avoid spring two 6 to kick-back baffle 5 to move outward is too big, avoid causing the unnecessary harm, produce great noise when can avoiding baffle 5 and dog 4 to contact through setting up the rubber piece, can further alleviate the reaction force when baffle 5 moves outward simultaneously through setting up the rubber piece.

Trapezoidal plates 7 are arranged at four corners below the damping plate 2, movable frames 8 are arranged on the peripheries of the trapezoidal plates 7, sliding grooves 15 are formed in four sides of each trapezoidal plate 7, sliding blocks 16 are fixed above the inner side walls of the movable frames 8, the sliding blocks 16 are connected with the sliding grooves 15 in a sliding mode, movable blocks 9 are welded below the left side and the right side of the inner wall of each movable frame 8, side grooves 10 are formed in opposite sides of the two movable blocks 9, moving plates 11 are arranged in the side grooves 10, limiting grooves 12 are formed in the outer side faces of the moving plates 11, limiting rods 13 are fixed at the bottoms of the side grooves 10, the limiting rods 13 extend into the limiting grooves 12 and are connected with the limiting grooves in a sliding mode, spring three 14 is fixed in each side groove 10, the limiting rods 13 penetrate through the spring three 14, connecting rings 17 are welded above the movable frames 8, X-shaped plates 18 are welded among the four connecting rings 17, limiting plates 19 located above the movable blocks 9 are welded on the left side and the right side of the, universal wheels 21 positioned between the two limiting plates 19 are fixed below the trapezoidal plate 7 through screws, an electric telescopic rod 22 is fixed below the device body 1, the electric telescopic rod 22 penetrates through the damping plate 2 to be fixed with the X-shaped plate 18, a button 23 is arranged at the lower right corner of the front end of the device body 1, and the button 23 is electrically connected with the electric telescopic rod 22;

when the device body 1 needs to be moved, the electric telescopic rod 22 can be driven to drive the X-shaped plate 18 to move upwards by pressing the button 23, the X-shaped plate 18 drives the movable frame 8 to move upwards by the connecting ring 17, the movable frame 8 drives the movable plate 11 to move upwards along the outer side surface of the limit plate 19 by the movable block 9, the limit plate 19 extrudes the movable plate 11 to move towards the side groove 10 in the moving process, the third spring 14 is extruded to contract when the movable plate 11 moves, the limit rod 13 moves into the limit groove 12, the limit rod 13 is arranged to be beneficial to controlling the horizontal movement of the movable plate 11, the situation that the position is deviated when the movable plate 11 moves to cause the extrusion deformation of the third spring 14 and damage is avoided, when the X-shaped plate 18 moves to be contacted with the damping plate 2, the electric telescopic rod 22 is closed by pressing the button 23 to stop the movement of the movable frame 8, at the moment, the, the second spring 6 relieves the shaking force of the device body 1 in the moving process, and protects the internal elements of the device body 1;

when the mobile completion needs fixing device body 1, make electric telescopic handle 22 drive X template 18 move down through pressing button 23, X template 18 drives movable frame 8 through go-between 17 and moves down, movable frame 8 drives through movable block 9 and moves board 11 and move down along limiting plate 19 lateral surface, until go-between 17 move down to contact with trapezoidal plate 7 top surface when, press button 23 to close electric

telescopic handle

22, 8 bottom surfaces of movable frame contact with ground this moment, device body 1 is fixed, avoid device body 1 to suffer to take place to remove after the striking and lead to the connecting wire fracture.

The moving plate 11 extends out of a notch of the side groove 10, the distance between the moving plate 11 and the side face of the universal wheel 21 is 3-5 cm, in the downward moving process of the moving plate 11, the compressed spring III 14 rebounds to push the moving plate 11 to move outwards, when the movable frame 8 moves to be in contact with the bottom face, the moving plate 11 completes the outward movement, if the angle of the universal wheel 21 is in an inclined state when the device body 1 is fixed, the moving plate 11 moves downwards to be separated from the limiting plate 19 and then pushes the universal wheel 21 to enable the angle to be in a state shown in a figure 3, so that the moving plate 11 moves inwards to the maximum extent, excessive dust is prevented from entering the movable frame 8 when the device body 1 is in a fixed state, and the movable block 9 is arranged to increase the supporting force of the movable frame 8 when the device body 1 is in the fixed state;

the inner side above the moving plate 11 is arranged in a downward inclined manner, the lower side of the limiting plate 19 is arranged in an inward inclined manner, the distance between the bottom of the limiting plate 19 and the top surface of the moving plate 11 is less than 5cm, the moving plate 11 is convenient to move upwards along the outer side surface of the limiting plate 19 when moving upwards, and the limiting plate 19 is favorable for extruding the moving plate 11 to move towards the side groove 10;

the size of the outer end of the moving plate 11 is larger than the size of the notch of the side groove 10, so that the moving range of the moving plate 11 can be limited, and the moving plate 11 is prevented from moving out of the side groove 10 when moving inwards;

the width between two limiting plates 19 is greater than the diameter of universal wheel 21, avoids the too close distance between limiting plate 19 to lead to hindering universal wheel 21 to rotate, influences the removal of device body 1.

It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims

1. The utility model provides a big data device translation structure of commodity circulation, includes device body (1), its characterized in that: a damping plate (2) is arranged below the device body (1), a first spring (3) is fixed between the damping plate (2) and the device body (1), stop blocks (4) are welded at the left end and the right end above the damping plate (2), baffle plates (5) positioned at the inner sides of the stop blocks (4) are arranged at the left side and the right side of the device body (1), and a plurality of second springs (6) are uniformly fixed between the baffle plates (5) and the device body (1);

damping plate (2) below four corners department all is equipped with trapezoidal plate (7), trapezoidal plate (7) periphery is equipped with movable frame (8), spout (15) have all been opened to trapezoidal plate (7) four sides, movable frame (8) inside wall top all is fixed with slider (16), slider (16) and spout (15) sliding connection, movable block (9) have all been welded to the below of movable frame (8) inner wall left and right sides, two lateral groove (10) have all been opened to the relative one side of movable block (9), be equipped with in lateral groove (10) and move board (11), it has spacing groove (12) to move board (11) lateral surface, lateral groove (10) tank bottom is fixed with gag lever post (13), gag lever post (13) extend to in spacing groove (12) and rather than sliding connection, lateral groove (10) internal fixation has spring three (14), gag lever post (13) runs through spring three (14), the welding of activity frame (8) top has go-between (17), four the welding has X template (18) between go-between (17), trapezoidal plate (7) below the left and right sides all welds limiting plate (19) that are located movable block (9) top, be fixed with bracing piece (20) between limiting plate (19) outside and trapezoidal plate (7) below, trapezoidal plate (7) below is located two through the fix with screw universal wheel (21) between limiting plate (19), install fixed electric telescopic handle (22) in body (1) below, electric telescopic handle (22) run through and pass shock attenuation board (2) and X template (18) and fix, it is equipped with button (23) to install body (1) front end lower right corner, button (23) and electric telescopic handle (22) electric connection.

2. The logistics big data device translation structure of claim 1, wherein: the spring I (3) is provided with a plurality of springs, the springs I (3) are evenly distributed on the left side and the right side of the electric telescopic rod (22), and the stop block (4) is located on the outer side of the springs I (3).

3. The logistics big data device translation structure of claim 1, wherein: the inner side of the stop block (4) is fixed with a rubber block, and the outer side of the baffle plate (5) is in contact with the rubber block.

4. The logistics big data device translation structure of claim 1, wherein: move board (11) and extend out side groove (10) notch, move between board (11) and universal wheel (21) side distance and be 3~5 cm.

5. The logistics big data device translation structure of claim 3, wherein: move board (11) top inboard and be the downward sloping and arrange, limiting plate (19) below is the inward sloping and arranges, the distance of limiting plate (19) bottom and moving board (11) top surface is less than 5 cm.

6. The logistics big data device translation structure of claim 1, wherein: the size of the outer end of the moving plate (11) is larger than that of the notch of the side groove (10).

7. The logistics big data device translation structure of claim 1, wherein: the width between the two limiting plates (19) is larger than the diameter of the universal wheel (21).