CN218085676U - Material rack for storing battery box - Google Patents

Abstract

The utility model discloses a material rack for storing a battery box, which is provided with a material rack base; the material column assemblies are vertically fixed on the periphery of the material rack base and are spaced at a certain distance from each other, each material column assembly comprises two vertical columns spaced at a certain horizontal distance, and the bottoms of the vertical columns are fixed on the periphery of the material rack base; the N support claws are mutually spaced at a certain vertical distance and are sequentially and pivotally connected between the two upright posts from the bottom to the top of the upright posts; the first end of the ith connecting rod is connected to the ith supporting claw, the second end of the ith connecting rod is connected to the (i + 1) th supporting claw, and i is more than or equal to 1 and is less than or equal to N-1. The utility model discloses set up link structure between the support claw of junior level, lower one-level support claw pushes down the mode that the tail end jack-up that the in-process tail end went upward was driven last one-level support claw was opened to the connecting rod when going, so link mechanism's linkage mode to card pause phenomenon can not appear, provides the operating efficiency.

Description

A work or material rest for battery case storage

Technical Field

The utility model belongs to the technical field of industrial robot, concretely relates to work or material rest for battery case storage.

Background

The link mechanism is one of mechanical components, and is a mechanism formed by connecting several (more than two) members with definite relative movement by using low pair (rotating pair or moving pair), and can be extensively used in transmission mechanism, and can be conveniently used for increasing force, enlarging stroke and implementing remote transmission, etc.

The existing material rack for storing the battery box mainly works by mechanical collision and interaction, when a next-stage supporting claw is pressed down, the tail end of the next-stage supporting claw moves upwards to jack up the tail end of the previous-stage supporting claw, and the front end of the next-stage supporting claw is pressed down, so that the work is carried out. The phenomenon of blocking easily appears at the in-process storage rack of feeding, influences the operating efficiency, has increased artifical maintenance time and energy. How to add link mechanism in the work or material rest that is used for battery case storage for the work or material rest that is used for battery case storage uses more convenient high-efficient, can also reduce the damage of the work or material rest that is used for battery case storage and battery case, is the utility model discloses the technical problem who solves.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a work or material rest for battery case storage among the prior art mainly leans on next-level to support the claw and pushes down in-process tail end and go upward mechanical collision upper-level and support the claw, blocks the technical problem who influences the operating efficiency easily, and aim at provides a new work or material rest for battery case storage.

The utility model discloses a work or material rest for battery case storage has:

a rack base;

a plurality of material column subassemblies are upright to be fixed the work or material rest base is peripheral and the certain distance that separates each other, the material column subassembly includes:

the bottom of the upright post is fixed on the periphery of the rack base;

n supporting claws which are mutually spaced at a certain vertical distance and are sequentially pivotally connected between the two upright posts from the bottom to the top of the upright posts, wherein N is an integer more than or equal to 2;

the first end of the ith connecting rod is connected to the ith supporting claw, the second end of the ith connecting rod is connected to the (i + 1) th supporting claw, and i is more than or equal to 1 and is less than or equal to N-1.

The utility model discloses set up link structure between the support claw of superior and subordinate, lower one-level support claw pushes down the tail end jack-up that the connecting rod when in-process tail end goes upward drove last one-level support claw and comes the mode of opening last one-level support claw, so link mechanism's linkage mode to card pause or pause phenomenon can not appear, improves the operating efficiency.

Preferably, the material column assembly comprises:

and two ends of the N stop shafts are respectively horizontally fixed on the two upright posts and abut against the upper side wall surface of the support claw.

The utility model discloses a side wall sets up the axle that ends to stop on supporting the claw for supporting the claw and opening to just in time suitable horizontal position and support the battery case, avoid excessive open mode and unable hook battery case.

Preferably, the material column assembly comprises: the supporting claws correspondingly penetrate through the pivot shafts respectively, and two ends of each pivot shaft are fixed on the two upright posts respectively; the stop shafts are parallel to the corresponding pivot shafts.

Preferably, the first end of the ith connecting rod is provided with a round hole, and the ith connecting rod is connected to the ith supporting claw through the round hole of the first end; the second end of the ith connecting rod is provided with a long slotted hole and is connected to the (i + 1) th supporting claw through the long slotted hole of the second end.

Preferably, the support claw has:

the heavy end is positioned on the outer side of the rack base;

the heavy end is integrally connected to one side of the middle part, and the middle part is connected between the two stand columns;

and the hook end is positioned on the inner side of the material rack base, and the hook end is integrally connected to the other side of the middle part.

Preferably, the rack base has a planar frame and rollers at four corners of the planar frame.

The utility model discloses an actively advance the effect and lie in:

the utility model discloses set up link structure between the support claw of superior and subordinate, lower one-level support claw pushes down the tail end jack-up that the connecting rod when in-process tail end goes upward drove last one-level support claw and comes the mode of opening last one-level support claw, so link mechanism's linkage mode to card pause or pause phenomenon can not appear, provides the operating efficiency.

The utility model discloses the unique transmission effect of application connecting rod realizes automatic transmission step by step to accurate control transmission distance and opportunity have reduced mechanical wear and have stuck the phenomenon, and it is firm to support, and more firm safety reduces manual work and maintenance duration, improves the operating efficiency.

Drawings

Fig. 1 is a schematic perspective view of a rack for storing battery boxes according to the present invention;

fig. 2 is a state diagram of the rotation process of the material column assembly 20 according to the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further explained with reference to the specific drawings.

As shown in fig. 1, the material rack for battery box storage of the present invention has a rack base 10; a plurality of material column assemblies 20 are vertically fixed on the periphery of the rack base 10, and adjacent material column assemblies 20 can be spaced at a certain distance. In this example, the rack base 10 has a planar frame 11 and rollers 12 at the four corners of the planar frame 11. As for the shape of the planar frame 11, it may be different depending on the shape of the battery case 90 to be placed, and is not particularly limited. In this example, the planar frame 11 is a square structure with several cross beams and longitudinal beams to strengthen the firmness of the stack base 10.

As shown in fig. 2, in this example, the material column assembly 20 includes two columns 21 spaced apart by a certain horizontal distance, and the bottom of the column 21 is fixed to the periphery of the rack base 10. N supporting claws 22 are vertically spaced from each other and are pivotally connected between the two upright posts 21 in sequence from the bottom to the top of the upright posts 21, wherein N is an integer not less than 2. The supporting claw 22 has a heavy end 221, namely a tail end, and is positioned outside the rack base 10; the heavy end 221, that is, the tail end, is integrally connected to one side of the middle portion 222 of the support claw 22, and the middle portion 222 is connected between the two columns 21; a hook end 223 is also a light end and is located on the inner side of the rack base 10, and the hook end 223 is integrally connected to the other side of the middle portion 222. The material column assembly 20 has N pivots 24, the middle portions 222 of the supporting claws 22 are respectively and correspondingly arranged on the pivots 24, and both ends of the pivots 24 are respectively fixed on the two upright posts 21. When the battery case 90 is not placed on the hooking end 223, the heavy end 221 is in a drooping state due to the gravity, and the hooking end 223 is in a closed state; when the battery case 90 is placed on the hooking end 223, the heavy end 221 is lifted up by the pivot shaft 24 acting as a fulcrum. When in this example, the charge column assembly 20 has N-1 links 23. The first end of the ith connecting rod 23 is provided with a round hole and is connected to the heavy end of the ith supporting claw 22 through the round hole at the first end; the second end of the ith connecting rod 23 is provided with a long slotted hole and is connected with the heavy end of the (i + 1) th supporting claw 22 through the long slotted hole of the second end, wherein i is more than or equal to 1 and is more than or equal to an integer of N-1. In this example, the connecting rod 23 is provided between the upper and lower support claws 22, and the connecting rod 23 when the tail end of the lower support claw 22 moves upward during the downward pressing process drives the tail end of the upper support claw 22 to jack up, so as to open the upper support claw 22. The linkage mode of the link mechanism can avoid the blocking phenomenon and improve the operation efficiency. The material column assembly 20 further comprises N stop shafts 25, two ends of which are respectively horizontally fixed on the two upright posts 21 and abut against the upper side wall surface of the support claw 22. The stop shafts 25 are parallel to the corresponding pivot shafts 24. When the battery box 90 is placed at the hook end 223, the support claw 22 will rotate and open with the pivot shaft 24 as the pivot, when the support claw rotates to a certain degree, the stop shaft 25 abuts against the upper side wall surface of the support claw 22, so that the support claw 22 can not rotate any more, at this time, the support claw 22 is opened to a proper horizontal position and the hook end 223 catches the battery box 90, thereby avoiding the phenomenon that the battery box 90 can not be hooked and supported due to an excessively opened state.

Every two adjacent support claws 22 are connected by a connecting rod 23, the initial state of the support claw on the 1 st layer is B, and the initial state of the support claw on the 2 nd or higher layer is A. When the 1 st layer supporting claw 22 is pressed down from the state B to the state C after the battery box 90 is placed, the 2 nd layer supporting claw 22 is correspondingly pressed down through the transmission of the connecting rod 23, and the state A is rotated to the state B to be the open state. After the battery case 90 is placed on the layer 2 holding claw 22, the pressing rotation is continued from the state B to the state C. By analogy, when the battery box 90 is placed on the supporting claw 22, the upper supporting claw 22 is pressed down to be in an open state for continuously placing the battery box, and the automation degree is achieved. In the process of installing the battery box, the supporting claws 22 are free from large mechanical abrasion and collision, and the transmission of the connecting rod is smooth without blocking phenomenon.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A rack for battery cartridge storage, having:

a rack base;

a plurality of material column subassemblies are upright to be fixed the work or material rest base is peripheral and the certain distance that separates each other, its characterized in that the material column subassembly includes:

the bottom of the upright post is fixed on the periphery of the rack base;

n supporting claws which are mutually spaced at a certain vertical distance and are sequentially pivotally connected between the two upright posts from the bottom to the top of the upright posts, wherein N is an integer more than or equal to 2;

the first end of the ith connecting rod is connected to the ith supporting claw, the second end of the ith connecting rod is connected to the (i + 1) th supporting claw, and i is more than or equal to 1 and is less than or equal to N-1.

2. The stack for battery compartment storage as claimed in claim 1, wherein said pillar assembly comprises:

and two ends of the N stopping shafts are horizontally fixed on the two upright posts respectively and abut against the upper side wall surface of the supporting claw.

3. The stack for battery compartment storage as claimed in claim 2, wherein said stock column assembly comprises:

the support claws are correspondingly arranged on the pivots respectively in a penetrating manner, and two ends of each pivot are respectively fixed on the two upright posts;

the stop shafts are parallel to the corresponding pivot shafts.

4. A rack as claimed in claim 2, wherein the rack is for battery storage

The first end of the ith connecting rod is provided with a round hole and is connected to the ith supporting claw through the round hole at the first end; the second end of the ith connecting rod is provided with a long slotted hole and is connected to the (i + 1) th supporting claw through the long slotted hole of the second end.

5. The rack for battery box storage as claimed in claim 1, wherein said supporting claw has:

the heavy end is positioned on the outer side of the material rack base;

the heavy end is integrally connected to one side of the middle part, and the middle part is connected between the two stand columns;

and the hook end is positioned on the inner side of the rack base, and the hook end is integrally connected with the other side of the middle part.

6. The stack for battery pack storage as claimed in claim 1, wherein said stack base has a planar frame and rollers at four corners of said planar frame.

Images