CN111129566A - Method and device for curing glue on positive and negative electrodes of storage battery - Google Patents

Abstract

A method and a device for curing glue on positive and negative electrodes of a storage battery comprise a rack, wherein a conveyor belt and a curing mechanism are arranged on the rack, a battery box is arranged on the conveyor belt, and the curing mechanism is arranged above the battery box and forms a curing space with the positive electrode and/or the negative electrode on the top of the battery box. Utilize this solidification equipment to carry out the local solidification to the position of battery case top positive negative pole department, the problem that needs to consume a large amount of energy when having avoided present general whole battery to carry out the whole solidification can be reduced solidification mechanism and avoid occupying a large amount of spaces, can dwindle the solidification space in a less within range again, guarantees the even of temperature in the solidification space, makes the battery follow solidification space in through the homoenergetic solidification of back, therefore can shorten solidification mechanism's length.

Description

Method and device for curing glue on positive and negative electrodes of storage battery

Technical Field

The invention relates to a glue curing method and device, in particular to a method and device for curing positive and negative glue of a storage battery.

Background

In the production process of the storage battery, the middle cover is glued to the battery box through resin, after the resin is dried, plastic on the column head of the middle cover is removed, the column head is exposed to be connected with a terminal, and at the moment, a gap is usually formed between the column head and the middle cover, so that the interior of the battery box needs to be sealed through glue added on the column head. And after the glue is added at the column cap, the terminal can be welded only after the glue is dried and solidified. At present, the glue on the column cap is dried and solidified mainly by putting the whole storage battery into a curing oven for baking.

The invention discloses a mobile storage battery curing and drying device and a sealant curing and drying method, wherein the mobile storage battery curing and drying device comprises an oven and roller guide rails, the oven is provided with rollers, the rollers can realize the sliding of the oven on the roller guide rails, the roller guide rails are paved on the ground and arranged on two sides of an operating platform, and the storage battery sealant curing work can be completed without moving a storage battery on the operating platform.

The utility model discloses a have application number CN200620107827.3 again, the name is "thermostat for battery sealed glue solidification technology" discloses a thermostat for battery sealed glue solidification technology, including the box and set up the thermostat track in injecting glue operation panel both sides, be equipped with control box and constant temperature heating system on the box, box both sides bottom is equipped with the gyro wheel, makes the thermostat can freely remove along the injecting glue operation panel. The constant temperature heating system comprises a fan, an electric heater, a temperature sensing probe and a control part connected in a control box, wherein a wind shield is arranged in the middle of the bottom of the electric heater. And baking the storage battery in a mode of moving a thermostat.

The above documents still adopt a mode of heating the whole storage battery to dry the glue, the baking range is too large, uneven heating is easily caused, the energy consumption is too high, and resources are wasted; meanwhile, the baking oven is required to be large in size, wide in occupied area and low in efficiency, and a method and a device for baking and curing the anode and cathode glue with low energy consumption and high efficiency are required.

Disclosure of Invention

The invention provides a method and a device for curing the positive and negative glue of the storage battery with low energy consumption and high efficiency, aiming at the problems of high energy consumption and low efficiency of the current method and the device for curing the positive and negative glue of the storage battery, which utilize equipment with small occupied area to uniformly cure the glue of the positive and negative electrodes of the storage battery in a short time, thereby saving energy and space.

The technical means adopted by the invention to solve the problems are as follows: a method for solidifying the glue on positive and negative electrodes of accumulator features that a solidifying unit is used to locally solidify the positive and negative electrodes on the top of accumulator case.

Furthermore, a curing mechanism of the curing device is positioned above the battery box and moves linearly relative to the battery box, and the movable local curing is carried out on the positions at the positive and negative positions of the top end of the battery box.

Furthermore, the battery box is placed on a conveyor belt of the curing device and moves forward along with the conveyor belt, two side walls of the curing mechanism are close to the battery box, the curing mechanism and the battery box enclose a curing space, the positions of the positive pole and the negative pole of the battery box are surrounded in the curing space, and the positive pole and the negative pole of the battery box are cured.

Further, the conveyer belt at solidification equipment is placed to the battery case, and two lateral walls and the battery case of solidification mechanism are close to, and solidification mechanism advances along the battery case top, and solidification mechanism encloses into a solidification space with the battery case together, surrounds the position of battery case positive and negative position in the solidification space, solidifies battery case positive and negative position.

Furthermore, a heat source is arranged at the top end inside the curing mechanism, and the parts at the positive electrode and the negative electrode of the battery box are heated and cured by adopting a radiation heating mode.

Furthermore, the single-row battery box sequentially and continuously passes through a curing space formed by the single-row battery box and the curing mechanism along the length direction, the bottom end of one side of the curing mechanism is positioned above the battery box and close to the battery box, the bottom end of the other side of the curing mechanism is positioned close to the edge of the outer side of the top end of the positive electrode and the negative electrode of the battery box in the length direction, and the positions of the positive electrode and the negative electrode of.

Furthermore, the positive and negative sides of the two rows of battery boxes are pressed close to a curing space which is formed by the curing mechanism along the length direction in sequence and continuously, the bottom ends of the two sides of the curing mechanism are respectively positioned above the two rows of battery boxes and close to the battery boxes, and the positions of the positive and negative sides of the two rows of battery boxes are surrounded in the curing space along the length direction.

Further, the single-row battery box passes through the curing space formed by the curing mechanism along the width direction, the curing mechanism and the top end of the battery box form two curing spaces, and the two curing spaces respectively surround the positive electrode and the negative electrode.

Further, the single-row battery box passes through the solidification space that forms with the solidification mechanism along width direction, and two lateral walls of solidification mechanism are located battery box along two sides department of width direction respectively and are close to the battery box, and the solidification space encloses including the whole top of battery box.

Further, the battery boxes are pressed close to the rear end of more than two rows of battery boxes and pass through the curing space formed by the curing mechanisms along the broadband direction, the outer side walls of the two curing mechanisms positioned on two sides of the conveyor belt are close to the side edges of the battery boxes positioned on two sides of the conveyor belt respectively, the two curing spaces surround the positive electrodes or the negative electrodes of the battery boxes positioned on two sides of the conveyor belt respectively, the two side walls of the other curing mechanisms are positioned above the battery boxes and close to the battery boxes, and the curing spaces of the two battery boxes respectively surround the upper surfaces of the two adjacent positive electrodes and/or the negative electrodes in the two adjacent.

The utility model provides a positive negative pole glue solidification equipment of battery, includes the frame, is equipped with conveyer belt and solidification mechanism in the frame, and the battery case sets up on the conveyer belt, and solidification mechanism sets up in the top of battery case, encloses into a solidification space with the position of battery case top positive pole and/or negative pole department.

Furthermore, the curing mechanism is of an inverted concave structure, two side walls of the curing mechanism are close to the top end of the battery box, and three concave surfaces of the curing mechanism and the top end surface of the battery box form a curing space together.

Further, a heat source is arranged at the top end and/or two sides of the concave inner part of the curing mechanism.

Further, the curing mechanism is arranged along the length direction of the conveyor belt, the curing mechanism and the conveyor belt move relatively along the length direction of the conveyor belt, and the battery box moves from one end of the curing mechanism to the other end of the curing mechanism.

Furthermore, an arched support frame is further arranged on the rack, two ends of the support frame are arranged at the positions of the rack on two sides of the conveyor belt, the curing mechanism is fixed on the support frame, and the curing mechanism is arranged above the conveyor belt through the support frame.

The invention has the beneficial effects that:

1. the invention adopts the mode of carrying out local solidification on the positive and negative electrodes of the storage battery, thereby avoiding the problem that a large amount of energy is consumed when the whole storage battery is integrally solidified in the prior art.

2. The curing mechanism and the positions at the positive and negative electrodes of the storage battery form a curing space together, so that the curing mechanism can be reduced to avoid occupying a large amount of space, the curing space can be reduced in a smaller range, the temperature in the curing space is ensured to be uniform, and the storage battery can be cured after passing through the curing space, so that the length of the curing mechanism can be shortened, the problem that the curing time is inconsistent due to the fact that the temperature in the currently universal large space is not uniform is avoided, and the storage battery can be completely cured only by prolonging the length of the curing mechanism.

Drawings

FIG. 1 is a schematic view of an overall mechanism of the embodiment;

FIG. 2 is a schematic front view of a structure according to an embodiment;

FIG. 3 is a schematic partial front view of a structure according to a second embodiment;

FIG. 4 is a schematic partial front view of another structure according to the second embodiment;

FIG. 5 is a schematic partial front view of a structure according to one embodiment;

FIG. 6 is a schematic partial front view of another structure according to the third embodiment;

FIG. 7 is a schematic partial front view of a structure according to a fourth embodiment;

FIG. 8 is a partial front view schematically illustrating another structure according to the fourth embodiment;

FIG. 9 is a partial front view of a fifth embodiment;

in the figure: 1. the device comprises a frame, 11. a motor, 12. a baffle, 13. a support frame, 2. a conveyor belt, 3. a curing mechanism, 31. a heat source and 4. a battery box.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Example one

A glue curing device for positive and negative electrodes of a storage battery is used for carrying out glue curing on a battery box after plastic at a column head is removed and glue is dispensed, and then a terminal is welded. As shown in fig. 1, the curing apparatus comprises a frame 1 on which a conveyor belt 2 driven by a motor 11 is provided, and a battery case 4 is placed on the conveyor belt 2 to advance together with the conveyor belt 2. In this embodiment, the motor 11 is disposed at the side of the frame 1, and the baffles 12 are disposed at the two sides of the conveyor belt 2 to prevent the battery box 4 from falling off from the two sides of the conveyor belt 2. In this embodiment, the frame 1 is further provided with two inverted concave-shaped support frames 13, and two ends of each support frame 13 are fixed on the frame 1 at two sides of the conveyor belt 2 and cross over the conveyor belt 2. Of course, the supporting frame 13 may also be in other forms, such as an L-shaped structure, and fixed to the frame 1 through one end of the L-shape, and the number of the supporting frames may also be selected as required.

The support frame 13 is provided with an inverted concave curing mechanism 3, the curing mechanism 3 is positioned above the battery box 4, and the curing mechanism 3 can be fixed in a height-adjustable manner from the battery box 4. The top of the inverted concave inner cavity of the curing mechanism 3 is provided with a heat source 31, and of course, the heat source 31 can also be arranged at other positions of the inner cavity of the curing mechanism 3, such as two side walls, according to actual conditions. In this embodiment, the heat source 31 heats and cures the battery box 4 by an electric heating tube, as shown in fig. 2, the battery box 4 is placed on the conveyor belt 2 along the length direction, two battery boxes 4 are attached together through the side surfaces at the positive and negative electrodes to form two rows of battery boxes 4 to be heated, the bottom ends of two side surfaces of the curing mechanism 3 are respectively close to the upper surfaces at the positive and negative electrodes of the two rows of battery boxes 4, the parts to be heated and cured at the positive and negative electrodes of the battery boxes 4 are surrounded in the inner cavity of the curing mechanism 3, the curing mechanism 3 and the parts at the positive and negative electrodes of the upper surface of the battery box 4 form a smaller curing space together, the heat source generated by the electric heating tube is surrounded in the small curing space, only the parts at the positive and negative electrodes at the top of the battery boxes 4 are heated and cured, the flow space of heat is reduced, the uniformity of the temperature in the curing. This embodiment is solidified simultaneously with the laminating of two battery casees 4, two bottoms that make solidification mechanism 3 are located two rows of battery casees 4's upper surface department respectively, only there are two gaps in bottom and battery case 4's upper surface department, guarantee through the distance between regulation solidification mechanism 3 and the battery case 4 that battery case 4 can enough pass through but can not produce the height that the friction reduces the gap as far as possible again between the two from solidification mechanism 3 below smoothly, can furthest keep the heat that heat source 31 produced in the solidification space, both conveniently control the temperature in the solidification space, the energy has been practiced thrift greatly again. Meanwhile, the outlets and inlets of the batteries at the front end and the rear end of the curing mechanism 3 can be provided with baffle plates with the bottom ends slightly higher than the tops of the batteries, so that heat is further kept in the curing space.

The number of the heat sources 31 in the curing mechanism 3 can be set according to the requirement, the length can also be set according to the model of the battery box 4, the temperature in the curing space and the like, the curing mechanism can also be arranged in a multi-section combination mode, the appropriate length can be achieved by installing the number of the sections of the curing mechanism 3 according to different curing conditions, and the type of the heat sources 31 can also adopt other modes, such as hot air blowing and the like. These fall within the range of flexible adjustment.

The quantity of solidification mechanism 3 can be according to the width setting of conveyer belt 2, and solidification mechanism 3 is two like this embodiment, carries out the heating solidification to four rows of battery casees 4 respectively, improves the utilization ratio of whole equipment.

Example two

In this embodiment, as shown in fig. 3, the battery case 4 is passed in a single row in the longitudinal direction from below the solidifying means 3, and in this case, one of the bottom edges of the two side surfaces of the solidifying means 3 is located above the battery case 4, and the other bottom edge is located on the outer side edge of the positive and negative electrodes of the battery case 4. The length of this edge may also be extended to better contain the heat within the curing space, as shown in fig. 4. The number of curing mechanisms 3 and the number of battery cases 4 in the width direction of the conveyor belt 2 are set according to the width of the conveyor belt 2.

EXAMPLE III

In this embodiment, the battery cartridges 4 pass through the curing mechanisms 3 in a single row in the width direction, as shown in fig. 5, one row of the battery cartridges 4 corresponds to two curing mechanisms 3 arranged in parallel, the bottom edge of each of the two curing mechanisms 3 having one side surface is located on the upper surface between the positive electrode and the negative electrode of the battery cartridge 4, the other two side surfaces are respectively located on the edges of the outer sides of the positive electrode and the negative electrode of the battery cartridge 4, and each curing space only surrounds the positive electrode or the negative electrode of each battery cartridge 4. Likewise, the side walls of the two curing mechanisms 3 provided at the outer edge of the positive or negative electrode of the battery case 4 may be extended to better enclose heat within the curing space.

As shown in fig. 6, two curing mechanisms 3 may be connected to each other at the side wall between the positive electrode and the negative electrode of the battery case 4 to form one M-shaped curing mechanism 3. Likewise, the side walls of the curing mechanism 3 at the outer edges of the positive or negative electrodes of the battery case 4 may also be elongated to better contain the heat within the curing space.

The number of the battery cartridges 4 and the curing mechanisms provided in the width direction of the conveyor belt 2 may be set according to the width of the conveyor belt 2 and the battery cartridges 4.

Example four

In this embodiment, the battery case 4 also passes through the lower part of the curing mechanism 3 in the width direction in a single row manner, and as shown in fig. 7, the distance of the curing mechanism 3 in the third embodiment in the width direction is increased, so that the positive and negative electrodes of the battery case 4 are all enclosed in the same curing space. At this time, as shown in fig. 8, a heat source 31 may be respectively disposed above the positive electrode and the negative electrode of the battery case in the curing mechanism 3 to ensure uniform curing of the glue at the positive electrode and the negative electrode.

The number of the battery cartridges 4 and the curing mechanisms provided in the width direction of the conveyor belt 2 may be set according to the width of the conveyor belt 2 and the battery cartridges 4.

EXAMPLE five

In this embodiment, as shown in fig. 9, a plurality of battery boxes 4 are placed on the conveyor belt 2 side by side in the width direction, the number of the battery boxes 4 is selected according to the widths of the battery boxes 4 and the conveyor belt 2, at this time, the curing mechanisms 3 have two different widths, the widths of the curing mechanisms 3 located at two sides of the conveyor belt 2 are smaller, each curing space only surrounds the positive electrode or the negative electrode of the battery box, the width of the curing mechanism 3 located in the middle is larger, and the positive electrode or the negative electrode end of two adjacent battery boxes 4 close together needs to be surrounded.

The embodiment also relates to a method for curing the glue on the positive electrode and the negative electrode of the storage battery, the curing device is used for carrying out movable local heating and curing on the positions on the positive electrode and the negative electrode at the top end of the battery box 4, the curing mechanism 3 of the curing device is arranged above the battery box 4 on the conveyor belt 2 and is different from the existing structure which completely surrounds the whole conveyor belt 2 and the battery box 4, a smaller curing space is formed by surrounding the curing mechanism 3 and the top of the battery box 4 together, the space occupied by the whole curing device is greatly reduced, the method is different from the conventional method for heating and curing the whole battery box 4, only the position on the positive electrode and the negative electrode of the battery box 4 with glue is heated, and.

And the relative motion between battery case 4 and curing mechanism 3 both can be realized through the mode that drives battery case 4 with conveyer belt 2 and gos forward, also can be realized through setting up curing mechanism 3 movable on frame 1, advancing or the mode that moves back along conveyer belt 2 through curing mechanism 3. And the placing mode of battery case 4 on conveyer belt 2 can have a plurality of, and the width of solidification mechanism 3 bottom both sides sets up according to the type and the placing mode of battery case 4. After the battery box 4 passes through the curing space formed between the curing mechanism 3 and the battery box 4, the glue at the positive and negative positions of the battery box 4 can be cured.

In the present application, the length direction of the battery case refers to the direction of the line connecting the positive electrode and the negative electrode of a single battery case, and the width direction refers to the direction perpendicular to the line connecting the positive electrode and the negative electrode of the battery case.

In the above embodiments, only the most direct components for realizing the functions and the relative connection relationship thereof are described, and the structure of each direct component, such as a circle, a square or other form, is not limited, and some auxiliary structures may be used to combine the direct components, so long as the functions are realized.

The above embodiments are provided for illustrative purposes only and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and therefore all equivalent technical solutions should fall within the scope of the present invention, and the scope of the present invention should be defined by the claims.

Claims (10)

1. A method for curing glue on positive and negative electrodes of a storage battery is characterized by comprising the following steps: the parts of the positive and negative electrodes at the top end of the battery case are partially cured by a curing device.

2. The method for curing positive and negative electrode glue for a storage battery of claim 1, wherein: the curing mechanism of the curing device is positioned above the battery box and moves linearly relative to the battery box, and the movable local curing is carried out on the positions of the positive and negative positions at the top end of the battery box.

3. The method for curing positive and negative electrode glue for a storage battery of claim 2, wherein: the battery box is placed on a conveyor belt of the curing device and moves forward along with the conveyor belt, two side walls of the curing mechanism are close to the battery box, the curing mechanism and the battery box enclose a curing space, the positions of the positive pole and the negative pole of the battery box are enclosed in the curing space, and the positive pole and the negative pole of the battery box are cured;

or the battery box is placed on a conveying belt of the curing device, two side walls of the curing mechanism are close to the battery box, the curing mechanism advances along the top end of the battery box, the curing mechanism and the battery box form a curing space together, the positions of the positive and negative positions of the battery box are surrounded in the curing space, and the positive and negative positions of the battery box are cured.

4. The method for curing positive and negative electrode glue for a storage battery of claim 2, wherein: the top end inside the curing mechanism is provided with a heat source, and the parts at the positive and negative electrodes of the battery box are heated and cured by adopting a radiation heating mode.

5. The method for curing positive and negative electrode glue for a storage battery of claim 3, wherein: the single-row battery boxes sequentially and continuously pass through a curing space formed by the single-row battery boxes and the curing mechanism along the length direction, the bottom end of one side of the curing mechanism is positioned above the battery boxes and close to the battery boxes, the bottom end of the other side of the curing mechanism is close to the edge of the outer side of the top ends of the positive and negative electrodes of the battery boxes in the length direction, and the positions of the positive and negative electrodes of the battery boxes;

or the positive and negative sides of the two rows of battery boxes sequentially and continuously pass through a curing space formed by the curing mechanism along the length direction in a close manner, the bottom ends of the two sides of the curing mechanism are respectively positioned above the two rows of battery boxes and close to the battery boxes, and the positions of the positive and negative electrodes of the two rows of battery boxes are surrounded in the curing space along the length direction;

or the single-row battery box passes through a curing space formed by the curing mechanism along the width direction, the curing mechanism and the top end of the battery box form two curing spaces, and the two curing spaces respectively surround the anode and the cathode;

or the single-row battery box passes through a curing space formed by the curing mechanism along the width direction, two side walls of the curing mechanism are respectively positioned at two side edges of the battery box along the width direction and are close to the battery box, and the whole top end of the battery box is surrounded by the curing space;

or more than two rows of battery boxes are close to the back and pass through the curing space formed with the curing mechanism along the broadband direction, the outer side walls of two curing mechanisms positioned at two sides of the conveyor belt are respectively close to the side edges of the battery boxes positioned at two sides of the conveyor belt, the two curing spaces respectively surround the positive electrodes or the negative electrodes of the battery boxes positioned at two sides of the conveyor belt, the two side walls of other curing mechanisms are both positioned above the battery boxes and are close to the battery boxes, and the curing spaces respectively surround the upper surfaces of the two positive electrodes and/or the negative electrodes close to each other in the two adjacent battery boxes.

6. The utility model provides a positive negative pole glue solidification equipment of battery, includes the frame, its characterized in that: the frame is provided with a conveyor belt and a curing mechanism, the battery box is arranged on the conveyor belt, and the curing mechanism is arranged above the battery box and forms a curing space with the position on the positive pole and/or the negative pole at the top end of the battery box.

7. The battery positive-negative pole glue curing device of claim 6, wherein: the curing mechanism is of an inverted concave structure, two side walls of the curing mechanism are close to the top end of the battery box, and three concave surfaces of the curing mechanism and the top end surface of the battery box form a curing space together.

8. The battery positive-negative pole glue curing device of claim 7, wherein: the top end and/or two sides of the concave inner part of the curing mechanism are/is provided with a heat source.

9. The battery positive-negative pole glue curing device of claim 6, wherein: the curing mechanism is arranged along the length direction of the conveyor belt, the curing mechanism and the conveyor belt move relatively along the length direction of the conveyor belt, and the battery box moves from one end of the curing mechanism to the other end of the curing mechanism.

10. The battery positive-negative pole glue curing device of claim 6, wherein: still be equipped with the arch support frame in the frame, the support frame both ends set up the position in conveyer belt both sides frame, and solidification mechanism fixes at the support frame, sets up solidification mechanism in the top of conveyer belt through the support frame.

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