CN219575726U - Device for overturning medium-large density lead-acid storage battery assembly line by 180 degrees - Google Patents

Abstract

The utility model discloses a device for turning over a medium-large density lead-acid storage battery assembly line by 180 degrees, which comprises a line body, wherein a battery supporting component is arranged at the bottom of the line body, a battery clamping turning-over component is arranged at one end of the top of the line body, a turning-over motor is arranged at one side of the battery clamping turning-over component, opposite-irradiation photoelectricity is symmetrically arranged at two sides of the battery clamping turning-over component, meanwhile, a proximity switch is arranged at one side of the turning-over motor, and a battery supporting plate component is arranged at one end of the line body at the bottom of the battery clamping turning-over component; through this structure of setting, can overturn the battery voluntarily, in order to guarantee simultaneously to adapt to multiple model 1*6 battery, need do certain compensation to battery difference in height around the upset to can satisfy the production demand according to the battery size around the upset through adjusting screw and adjustable stroke cylinder, adapt to the dense battery in 1*6 of most models, reduce intensity of labour simultaneously, improve production efficiency.

Description

Device for overturning medium-large density lead-acid storage battery assembly line by 180 degrees

Technical Field

The utility model belongs to the technical field of battery assembly lines, and particularly relates to a device for turning over a medium-large density lead-acid storage battery assembly line by 180 degrees.

Background

When the prior art is used for producing large-density battery assembly sections in 1*6 with most models, the batteries are manually turned 180 degrees after the battery is subjected to dispensing and capping operation until the oven section comes out, so that the defects of low production efficiency and high labor intensity exist, and meanwhile, the problems of other potential risks such as industrial injury exist, and the like are solved.

Disclosure of Invention

The utility model aims to provide a device for overturning a medium-large density lead-acid storage battery assembly line by 180 degrees, which is used for solving the problem that 180-degree overturning operation is manually carried out on a battery after dispensing and capping operation is carried out on the battery until the oven section comes out when the large-large density battery assembly section in 1*6 with most models is produced in the prior art. The defects are that the production efficiency is low, the labor intensity is high, and other potential risks such as industrial injury exist.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a device for well high-density lead acid battery assembly line upset 180, includes the line body, the bottom of line body is provided with the battery and holds up the subassembly, press from both sides battery upset subassembly has been installed to the top one end of line body, press from both sides battery upset subassembly one side and install the upset motor, just press from both sides the bilateral symmetry of battery upset subassembly and install correlation photoelectricity, simultaneously one side of upset motor is provided with proximity switch, the one end of line body is located press from both sides battery upset subassembly's bottom has installed battery layer board subassembly.

The battery support assembly comprises a supporting plate supporting frame, an air cylinder mounting plate, an adjustable triaxial air cylinder, a jacking base plate and a jacking supporting plate, wherein the air cylinder mounting plate is connected and mounted at the bottom of a wire body through the supporting plate supporting frame, the adjustable triaxial air cylinder is mounted at the top of the air cylinder mounting plate, the jacking base plate is mounted at the bottom of the adjustable triaxial air cylinder, a plurality of jacking base plates are arranged at the top of the jacking base plate, and the jacking base plates are equidistantly arranged.

The battery layer board subassembly includes layer board fixed plate and connects the battery plate, the layer board fixed plate is installed the one end of the line body, one side of layer board fixed plate is provided with guide bearing seat, adjusting screw has been installed to guide bearing seat's inboard, adjusting screw installs hexagon nut on the last, adjusting screw's bottom is provided with adjusting hand wheel.

The battery plate is characterized in that a fixing groove is formed in the surface of the battery receiving plate, a battery pad strip is arranged at the top of the battery receiving plate, a battery pad plate is arranged at the top of the battery pad strip, a five-star handle is arranged on the battery pad strip at the bottom of the battery receiving plate, the battery pad strip and the battery pad plate are fixed in the fixing groove through the five-star handle in a rotating mode, and support plate component guide rods are arranged on two sides of the bottom of the battery receiving plate.

The top of the adjusting screw is arranged on the battery receiving plate, through holes are formed in two ends of the inner side of the guide bearing seat, and the supporting plate fixing plate penetrates through the guide bearing seat through the through holes.

The battery clamping overturning assembly comprises an overturning frame and a rotating shaft, a frame connecting plate is arranged in the battery clamping overturning assembly, the rotating shaft is rotatably installed at one end of the inner side of the overturning frame, a limit rod is installed at the edge of one end of the rotating shaft, bearing seats are arranged at two ends of the rotating shaft, and the rotating shaft is fixedly installed through the bearing seats.

A preferred rubber pad is arranged on one side of the inside of the turnover frame, an ultrathin air cylinder is arranged on the other side of the outside of the turnover frame, a linear bearing is arranged on one side of the ultrathin air cylinder positioned on the turnover frame, a battery clamping plate is connected and arranged in the interior of the turnover frame at one end of the ultrathin air cylinder, and the battery clamp plate is provided with a preferred rubber pad with the same structure on one side surface, the battery clamp plate is connected and provided with a clamp plate guide rod, the clamp plate guide rod penetrates through the linear bearing, and the battery clamp plate is guided in a limiting manner through the linear bearing and the clamp plate guide rod.

The proximity switches are horizontally arranged with two, the rotation angle of the limiting rod is one hundred eighty degrees, and the limiting rod is rotatably arranged at the top of the two proximity switches.

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

(1) In order to improve production efficiency, reduce intensity of labour and work injury rate simultaneously, and the big close battery model in the self-adaptation majority 1*6 is in order to realize 180 upset, through this structure of setting, when the big close battery equipment section in the 1*6 of production majority model, the battery carries out the point glue closing cap operation and comes out to the oven section, carry out 180 upset to the battery voluntarily, be provided with clamping mechanism and do certain antiskid measure, on fixed battery's basis, the action that makes the clamping mechanism have a upset is provided to corresponding torsion, simultaneously in order to guarantee to adapt to multiple model 1*6 battery, to the battery height difference make certain compensation around overturning, thereby can satisfy the production demand through adjusting screw and adjustable stroke cylinder before and after overturning, adapt to the big close battery in the 1*6 of most models, reduce intensity of labour simultaneously, improve production efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic top perspective view of the present utility model;

FIG. 3 is a schematic bottom perspective view of the present utility model;

FIG. 4 is a schematic view of the battery tray assembly of FIG. 1 according to the present utility model;

FIG. 5 is a schematic top view of the battery tray assembly of the present utility model;

FIG. 6 is a schematic view of the battery lift assembly of FIG. 1 according to the present utility model;

FIG. 7 is a schematic view of the battery-clamping flip assembly of FIG. 1 according to the present utility model;

FIG. 8 is a schematic top view of a battery-clamping flip assembly of the present utility model;

in the figure: 100. a wire body; 101. correlation photoelectricity; 102. a turnover motor; 103. a proximity switch; 200. a battery supporting assembly; 201. a pallet support; 202. a cylinder mounting plate; 203. an adjustable triaxial cylinder; 204. jacking the backing plate; 205. jacking the supporting plate; 300. a battery clamping overturning assembly; 301. a rotation shaft; 302. a limit rod; 303. a turnover frame; 304. a frame connecting plate; 305. a rubber cushion is optimized; 306. a battery clamping plate; 307. a linear bearing; 308. a splint guide rod; 309. an ultrathin cylinder; 310. a bearing seat; 400. a battery tray assembly; 401. a pallet fixing plate; 402. a guide bearing seat; 403. a hexagonal nut; 404. adjusting a screw; 405. an adjusting hand wheel; 406. connecting a battery plate; 407. a battery filler strip; 408. a battery backing plate; 409. five-star handle; 410. a pallet assembly guide bar; 411. a fixing groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, 2 and 3, the present utility model provides a technical solution: the utility model provides a device for medium and large density lead acid battery assembly line upset 180, specifically, including the line body 100, the bottom of line body 100 is provided with battery and holds up subassembly 200, press from both sides battery upset subassembly 300 has been installed to the top one end of line body 100, press from both sides battery upset subassembly 300 one side and install upset motor 102, press from both sides battery upset subassembly 300 and drive through upset motor 102 and rotate in the within range of one hundred eighty degrees, and press from both sides the bilateral symmetry of battery upset subassembly 300 and install correlation photoelectricity 101, one side of upset motor 102 is provided with proximity switch 103 simultaneously, battery layer board subassembly 400 has been installed to the bottom that one end of line body 100 lies in press from both sides battery upset subassembly 300.

Preferably, the battery supporting assembly 200 comprises a supporting plate supporting frame 201, a cylinder mounting plate 202, an adjustable triaxial cylinder 203, a jacking base plate 204 and a jacking supporting plate 205, wherein the cylinder mounting plate 202 is fixedly mounted at the bottom of the coil 100 through the supporting plate supporting frame 201, the stability of the battery supporting assembly 200 is guaranteed, the adjustable triaxial cylinder 203 is fixedly mounted at the top of the cylinder mounting plate 202, the jacking base plate 204 is fixedly mounted at the bottom of the adjustable triaxial cylinder 203, the jacking supporting plate 205 is provided with a plurality of jacking supporting plates 205 at the top of the jacking base plate 204, the jacking supporting plates 205 are arranged at equal intervals, and the plurality of jacking supporting plates 205 can be lifted through gaps among rollers on the coil 100 so as to be used for supporting the battery.

Preferably, the battery pallet assembly 400 comprises a pallet fixing plate 401 and a battery receiving plate 406, the pallet fixing plate 401 is rotationally fixed at one end of the wire body 100 through bolts, one side of the pallet fixing plate 401 is fixedly provided with a guide bearing seat 402, the inner side of the guide bearing seat 402 is rotationally provided with an adjusting screw 404 through threads, a hexagonal nut 403 is arranged on the adjusting screw 404 and used for limiting the adjusting screw 404, the adjusting screw 404 is guaranteed to move in an adjustable range, an adjusting hand wheel 405 is arranged at the bottom of the adjusting screw 404, the adjusting hand wheel 405 drives the adjusting screw 404 to synchronously rotate and lift during adjustment, a fixing groove 411 is formed in the surface of the battery receiving plate 406, a battery backing strip 407 is arranged at the top of the battery receiving plate 406, a battery backing plate 408 is arranged at the top of the battery backing strip 407, a five-star handle 409 is arranged at the bottom of the battery backing plate 406, the battery backing plate 407 and is rotationally fixed in the fixing groove 411 through the five-star handle 409, meanwhile, two sides of the bottom of the battery receiving plate 406 are provided with a pallet assembly guide rod 410, the distance between the two groups of battery backing strips 407 and the battery backing plate 408 is adjusted, so that the battery backing plate is placed in a different size, the battery backing plate is prevented from being placed at the bottom of the same size, and the battery backing plate is prevented from being connected with the inner side of the battery body 402 through the guide bearing seat 402, and the battery backing plate is guaranteed to be stably installed at the bottom of the battery backing plate 406, and the battery backing plate is prevented from being rotated and fixed by the through the guide bearing seat 406.

Preferably, the battery clamping overturning assembly 300 comprises an overturning frame 303 and a rotating shaft 301, a frame connecting plate 304 is fixedly arranged in the battery clamping overturning assembly 300, structural stability of the overturning frame 303 is guaranteed through the frame connecting plate 304, the rotating shaft 301 is rotatably arranged at one end of the inner side of the overturning frame 303, a limit rod 302 is rotatably arranged at one end edge of the rotating shaft 301 in a sleeved mode through bolts, bearing seats 310 are arranged at two ends of the rotating shaft 301, the rotating shaft 301 is fixedly arranged through the bearing seats 310, a best rubber cushion 305 is fixedly arranged at one side of the inner side of the overturning frame 303 through bolts, an ultrathin air cylinder 309 is fixedly arranged at the other side of the outer side of the overturning frame 303, a linear bearing 307 is fixedly arranged on one side of the ultrathin air cylinder 309 on the overturning frame 303, a battery clamping plate 306 is arranged at one end of the inner connection of the overturning frame 303, the best rubber cushion 305 with the same structure is arranged on one side surface of the battery clamping plate 306, when the battery clamping plate 306 clamps the battery, the two best good best rubber cushions 305 clamp the battery, the stability in the clamping process is improved, a guide rod 308 is fixedly arranged on the battery clamping plate 306, the guide rod 103 is arranged, the clamping plate guide rod 308 penetrates through the linear bearing 307, the linear bearing 307 and is arranged at the top of the two limit rods 103 and is close to the two limit rods 302 in a rotating mode, and is close to the top of the two limit rods and is arranged at the top of the limit rod.

The working principle and the using flow of the utility model are as follows: the device mainly comprises a battery supporting plate assembly 400, a battery supporting assembly 200 and a battery clamping overturning assembly 300, and the operation sequence and the operation mode are as follows, according to the battery supporting plate assembly 400 of different types, an adjusting screw 404 which is arranged on a guide bearing seat 402 in a screwed mode is driven by the rotation of an adjusting hand wheel 405, the adjusting screw 404 drives a battery receiving plate 406 to synchronously lift, a supporting plate assembly guide rod 410 at the bottom of the battery receiving plate 406 ensures the lifting stability by penetrating the guide bearing seat 402 during lifting, the height of the battery receiving plate 406 is adjusted to meet the requirements on the height and the size of the battery of different types (only one time for a large-density battery in 1*6 of most types), a five-star handle 409 is unscrewed, the relative distance between two groups of battery pad strips 407 and a battery pad 408 is moved in a fixed slot 411, to meet the requirements of different types of batteries in length and size, the battery supporting assembly 200 is adjusted, the height direction travel of the jacking backing plate 204 and the jacking supporting plate 205 is changed by adjusting the adjusting nuts of the adjustable triaxial cylinder 203 so as to meet the requirements of different types of batteries in height and size, when the batteries are placed on the battery backing plate 408 of the battery supporting plate assembly 400, a group of opposite-view photoelectricity 101 senses and then signals the overturning motor 102, the battery clamping overturning assembly 300 is overturned 180 degrees to the position of the battery supporting plate assembly 400 (the position of the battery clamping overturning assembly 300 can be sensed through the proximity switch 103 below the limiting rod 302), the two ultrathin cylinders 309 inside the battery clamping assembly 300 act after overturning in place to drive the battery clamping plate 306 to clamp the batteries placed on the battery supporting plate assembly 400, and when the ultrathin cylinders 309 drive the battery clamping plate 306 to move, the stability of horizontal movement is ensured through the clamp plate guide rod 307 and the linear bearing 308, a certain inclination plane is processed on the inner wall of the designed battery clamp plate 306 and the inner wall of the turnover frame 303 in consideration of the fact that the outside of the battery shell is smooth and has a certain inclination, the optimal rubber pad 305 is arranged on the battery clamp plate 306 and the inner wall of the turnover frame 303, the turnover motor 102 acts to drive the rotary shaft 301 to synchronously rotate after the battery is clamped, the clamped battery and the battery turnover assembly 300 rotates by-180 degrees, the other proximity switch 103 senses whether the limiting rod 302 is turned in place or not, the adjustable triaxial cylinder 203 in the battery supporting assembly 200 acts after the battery is turned in place, the jacking padding plate 204 and the jacking supporting plate 205 are lifted, the clamped battery is received, the two ultrathin cylinders 309 act after the magnetic switch sensing cylinder of the adjustable triaxial cylinder 203 acts, the clamped battery is loosened, the adjustable triaxial cylinder 203 acts after the magnetic switch sensing cylinder of the ultrathin cylinder 309 acts to drive the jacking padding plate 204 and the jacking supporting plate 205 to descend, the battery is placed on the wire body 100, and the motor 100 drives the battery to a next station after the magnetic switch sensing cylinder of the adjustable triaxial cylinder 203 is in place.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A device that is arranged in medium and large dense lead acid battery assembly line upset 180, its characterized in that: the battery overturning device comprises a wire body (100), a battery supporting component (200) is arranged at the bottom of the wire body (100), a battery overturning component (300) is arranged at one end of the top of the wire body (100), an overturning motor (102) is arranged at one side of the battery overturning component (300), opposite-shooting photoelectric devices (101) are symmetrically arranged at two sides of the battery overturning component (300), a proximity switch (103) is arranged at one side of the overturning motor (102), and a battery supporting plate component (400) is arranged at one end of the wire body (100) at the bottom of the battery overturning component (300).

2. A device for turning over a medium and large density lead acid battery assembly line 180 ° according to claim 1, wherein: the battery support assembly (200) comprises a supporting plate supporting frame (201), an air cylinder installing plate (202), adjustable triaxial air cylinders (203), a jacking base plate (204) and a jacking supporting plate (205), wherein the air cylinder installing plate (202) is connected and installed at the bottom of the wire body (100) through the supporting plate supporting frame (201), the adjustable triaxial air cylinders (203) are installed at the top of the air cylinder installing plate (202), the jacking base plate (204) is installed at the bottom of the adjustable triaxial air cylinders (203), and a plurality of jacking base plates (205) are arranged at the top of the jacking base plate (204) in an equidistant mode.

3. A device for turning over a medium and large density lead acid battery assembly line 180 ° according to claim 1, wherein: the battery support plate assembly (400) comprises a support plate fixing plate (401) and a battery receiving plate (406), wherein the support plate fixing plate (401) is installed at one end of the wire body (100), a guide bearing seat (402) is arranged on one side of the support plate fixing plate (401), an adjusting screw (404) is arranged on the inner side of the guide bearing seat (402), a hexagonal nut (403) is arranged on the adjusting screw (404), and an adjusting hand wheel (405) is arranged at the bottom of the adjusting screw (404).

4. A device for turning over a medium and large density lead acid battery assembly line 180 ° according to claim 3, wherein: the battery plate (406) is characterized in that a fixing groove (411) is formed in the surface of the battery plate (406), a battery backing strip (407) is arranged at the top of the battery backing strip (407), a battery backing plate (408) is arranged at the top of the battery backing strip (407), a five-star handle (409) is arranged on the battery backing strip (407) at the bottom of the battery plate (406), and the battery backing strip (407) and the battery backing plate (408) are rotationally fixed in the fixing groove (411) through the five-star handle (409), and meanwhile support plate component guide rods (410) are arranged on two sides of the bottom of the battery plate (406).

5. The device for turning over a medium and large density lead acid battery assembly line 180 ° according to claim 4, wherein: the top of the adjusting screw (404) is arranged on the battery receiving plate (406), through holes are formed in two ends of the inner side of the guide bearing seat (402), and the supporting plate fixing plate (401) penetrates through the guide bearing seat (402) through the through holes.

6. A device for turning over a medium and large density lead acid battery assembly line 180 ° according to claim 1, wherein: the battery clamping overturning assembly (300) comprises an overturning frame (303) and a rotating shaft (301), a frame connecting plate (304) is arranged in the battery clamping overturning assembly (300), the rotating shaft (301) is rotatably installed at one end of the inner side of the overturning frame (303), a limiting rod (302) is installed at one end edge of the rotating shaft (301), bearing blocks (310) are arranged at two ends of the rotating shaft (301), and the rotating shaft (301) is fixedly installed through the bearing blocks (310).

7. The apparatus for turning 180 ° of a medium and large density lead acid battery assembly line according to claim 6, wherein: the battery clamp is characterized in that a preferred rubber pad (305) is arranged on one side of the inside of the turnover frame (303), an ultrathin air cylinder (309) is arranged on the other side of the outside of the turnover frame (303), a linear bearing (307) is arranged on the turnover frame (303) on one side of the ultrathin air cylinder (309), a battery clamp plate (306) is arranged at one end of the ultrathin air cylinder (309) in an internal connection mode of the turnover frame (303), the preferred rubber pad (305) with the same structure is arranged on one side surface of the battery clamp plate (306), a clamp plate guide rod (308) is connected and arranged on the battery clamp plate (306), the clamp plate guide rod (308) penetrates through the linear bearing (307), and the battery clamp plate (306) is guided in a limiting mode through the linear bearing (307) and the clamp plate guide rod (308).

8. The apparatus for turning 180 ° of a medium and large density lead acid battery assembly line according to claim 7, wherein: the proximity switches (103) are horizontally arranged in two, the rotation angle of the limiting rod (302) is one hundred eighty degrees, and the limiting rod (302) is rotatably arranged at the tops of the two proximity switches (103).