CN109638338B - Novel cylindrical battery chemical composition jig - Google Patents

Abstract

The invention discloses a novel cylindrical battery forming component jig which comprises a jig upper part and a jig lower part, wherein the jig upper part comprises an upper probe assembly, an upper circuit board and an upper shell, one side of the upper shell is provided with the upper circuit board, one side of the upper circuit board is provided with the upper probe assembly, the jig lower part comprises a cylindrical battery, a lower probe assembly, a lower circuit board and a lower shell, the lower circuit board is arranged on the inner side of the lower shell, the lower probe assembly is arranged on the lower circuit board, and the cylindrical battery is arranged on the upper side of the lower probe assembly through a battery supporting plate.

Description

Novel cylindrical battery chemical composition jig

Technical Field

The invention relates to the technical field of cylindrical battery formation and component separation, in particular to a novel cylindrical battery formation and component separation jig.

Background

Along with the increasing severity of energy crisis and environmental problems, the key technology of the power battery is gradually matured under the strong support of the new energy industry in China, and various power batteries are widely applied to products such as electric cars, electric motorcycles, electric bicycles, solar energy, mobile communication terminal products, energy storage and the like.

Battery formation is an indispensable procedure in the battery manufacturing process, and capacity division and formation quality are directly related to the overall performance, yield and service life of the battery in the later stage. The structural design of the jig is critical to the whole link, but the traditional equipment aiming at the capacity-dividing and formation process in the market at present commonly adopts a mode of separating a probe from the jig to realize capacity-dividing and formation. The probe is arranged in the frame, so that the whole probe is used, the installation environment is difficult, and the maintenance and diagnosis are difficult, so that the automation realization and the efficiency of the whole capacity-dividing formation process are affected to a certain extent, and meanwhile, the equipment cost is wasted greatly. With the increasing requirements of battery manufacturers on the production efficiency of batteries, the capacity-dividing and formation equipment with the traditional structure cannot meet the high requirements of battery manufacturers, and the market is waiting for a revolutionary new product to break the embarrassing situation at present.

The prior art has the following defects: 1. the fixture is separated from the probe, the alignment precision and the installation requirement on the whole equipment are high, and the equipment cost is increased, so that the production cost of the battery is increased. 2. The fixture is separated from the probe, and the probe is arranged inside the equipment, so that the maintenance diagnosis of the whole equipment, the replacement of the probe and the like can be caused.

Disclosure of Invention

The invention aims to provide a novel cylindrical battery formation component jig for solving the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a novel cylinder battery becomes composition tool, includes tool upper portion and tool lower part, tool upper portion includes probe combination, goes up circuit board and last casing, go up casing one side and install the circuit board, go up the probe combination on one side of the circuit board, the tool lower part includes cylinder battery, lower probe combination, lower circuit board and lower casing, the lower circuit board is installed under the casing inboard, lower probe combination installs on the lower circuit board, the cylinder battery passes through the battery layer board and installs in lower probe combination upside, terminal row is all installed to tool upper portion and tool lower part one side, and terminal row all corresponds electric connection with last probe combination and lower probe combination.

Preferably, the upper shell is composed of a cover plate, a front end plate, a rear side plate and two side plates, the front end plate, the rear side plate and the two side plates are vertically enclosed and installed on the periphery of one side of the cover plate, and a handle is installed on one side of the front end plate.

Preferably, the upper probe assembly comprises a probe fixing plate and upper probes, the upper probes are arranged on the probe fixing plate in a rectangular array, one side of the probe fixing plate is arranged on the upper circuit board through fixing columns, and one end of each upper probe is electrically connected with the upper circuit board.

Preferably, the lower shell comprises a jig bottom plate, a front lower sealing plate, a lower rear sealing plate, a left lower sealing plate and a right lower sealing plate, and the front lower sealing plate, the lower rear sealing plate, the left lower sealing plate and the right lower sealing plate are vertically and fixedly arranged on the periphery of one side of the jig bottom plate.

Preferably, the lower probe assembly comprises a probe mounting plate and lower probes, the lower probes are arranged on the probe mounting plate in a rectangular array, and the lower probes are correspondingly and electrically connected with the lower circuit board.

Preferably, the terminal rows are four, and two sides of the upper part of the jig and one side of the lower part of the jig are respectively and correspondingly arranged.

Compared with the prior art, the invention has the beneficial effects that: 1. the fixture is divided into an upper part and a lower part, and the two parts of probe circuits and the integrated form of the circuit board are compatible with cylindrical batteries of various specifications, so that the fixture is convenient to mount and dock, the equipment cost is low, and the probe replacement and maintenance efficiency is improved; 2. the upper and lower probes and the circuit can be quickly and accurately butted with the equipment through the end beats at the rear end of the part, so that the charging and discharging functions are realized, the product qualification rate is improved, the equipment shutdown probability is reduced, and the use and maintenance cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of an upper explosion structure of the jig according to the present invention;

fig. 3 is a schematic view of the lower explosion structure of the jig of the present invention.

In the figure: the upper part of the 1-jig, the upper circuit board, the 102-cover plate, the 103-probe fixing plate, the 104-upper probe, the 105-rear side plate, the 106-fixing column, the 107-handle, the 108-front end plate, the 109-side plate, the lower part of the 2-jig, the 201-lower circuit board, the 202-jig bottom plate, the 203-probe mounting plate, the 204-lower rear sealing plate, the 205-lower probe, the 206-right lower sealing plate, the 207-battery supporting plate, the 208-cylindrical battery, the 209-left lower sealing plate, the 210-front lower sealing plate and the 3-terminal row.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, in the embodiment of the invention, a novel cylindrical battery forming component capacity measuring tool comprises a tool upper part 1 and a tool lower part 2, wherein the tool upper part 1 comprises an upper probe assembly, an upper circuit board 101 and an upper shell, the upper circuit board 101 is installed on one side of the upper shell, the upper probe assembly is installed on one side of the upper circuit board 101 so as to be convenient for installing and fixing the upper probe assembly, the tool lower part 2 comprises a cylindrical battery 208, a lower probe assembly, a lower circuit board 201 and a lower shell, the lower circuit board 201 is installed on the inner side of the lower shell, the lower probe assembly is installed on the lower circuit board 201, the cylindrical battery 208 is installed on the upper side of the lower probe assembly through a battery supporting plate 207 so as to be convenient for inserting and fixing the cylindrical battery 208, terminal rows 3 are installed on one side of the tool upper part 1 and one side of the tool lower part 2, and a plurality of terminal rows 3 are respectively and correspondingly and electrically connected with the upper circuit board 101 and the lower circuit board 201 so as to be convenient for quickly connecting a circuit.

Preferably, the upper housing is composed of a cover plate 102, a front end plate 108, a rear side plate 105 and two side plates 109, the front end plate 108, the rear side plate 105 and the two side plates 109 are vertically enclosed and mounted on the periphery of one side of the cover plate 102, and a handle 107 is mounted on one side of the front end plate 108, so that the upper probe assembly and the outer side of the upper circuit board 101 are conveniently protected.

Preferably, the upper probe assembly includes a probe fixing plate 103 and an upper probe 104, the upper probe 104 is mounted on the probe fixing plate 103 in a rectangular array, so that the upper probe 104 is conveniently mounted and fixed, one side of the probe fixing plate 103 is mounted on the upper circuit board 101 through fixing posts 106, one end of the probe fixing plate 103 is electrically connected with the upper circuit board 101, and a circuit is arranged in an integrated form, so that the circuit is convenient to mount and dismount rapidly.

Preferably, the lower housing is composed of a jig bottom plate 202, a front lower sealing plate 210, a lower rear sealing plate 204, a left lower sealing plate 209 and a right lower sealing plate 206, and the front lower sealing plate 210, the lower rear sealing plate 204, the left lower sealing plate 209 and the right lower sealing plate 206 are vertically and fixedly mounted on the periphery of one side of the jig bottom plate 202, so as to be convenient for protecting the outer sides of the lower probe assembly and the lower circuit board 201.

Preferably, the lower probe assembly includes a probe mounting board 203 and a lower probe 205, the lower probe 205 is mounted on the probe mounting board 203 in a rectangular array, and the lower end of the lower probe 205 is electrically connected to the lower circuit board 201, so as to set the circuit into an integrated form, thereby facilitating rapid mounting and dismounting.

Preferably, the terminal strip 3 is provided with four, and tool upper portion 1 and tool lower part 2 one side are provided with two respectively correspondingly, are convenient for set up two part probe circuit and circuit board into integrated form, have improved the probe and have changed maintenance efficiency.

Working principle: the cylindrical battery 208 is inserted into the jack of the battery supporting plate 207, so that an electrode on one side of the cylindrical battery 208 is contacted with the lower probe 205, then the upper part 1 of the jig is covered, the upper probe 104 in the upper part 1 of the jig is contacted with an electrode on the other end of the cylindrical battery 208, then the terminal strip 3 is arranged on one side of the upper part 1 of the jig and one side of the lower part 2 of the jig, and the terminal strip 3 is connected with a circuit, so that the charging and discharging functions are realized, the probe replacement maintenance efficiency is improved, the product percent of pass is improved, the equipment shutdown probability is reduced, and the use and maintenance cost is reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The novel cylindrical battery component forming jig comprises a jig upper part (1) and a jig lower part (2), and is characterized in that the jig upper part (1) comprises an upper probe combination, an upper circuit board (101) and an upper shell, the upper circuit board (101) is installed on one side of the upper shell, the upper probe combination is installed on one side of the upper circuit board (101), the jig lower part (2) comprises a cylindrical battery (208), a lower probe combination, a lower circuit board (201) and a lower shell, the lower circuit board (201) is installed on the inner side of the lower shell, the lower probe combination is installed on the lower circuit board (201), the cylindrical battery (208) is installed on the upper side of the lower probe combination through a battery supporting plate (207), terminal rows (3) are installed on one side of the jig upper part (1) and one side of the lower part (2), and the terminal rows (3) are electrically connected with the upper circuit board (101) and the lower circuit board (201) correspondingly;

the upper shell is composed of a cover plate (102), a front end plate (108), a rear side plate (105) and two side plates (109), wherein the front end plate (108), the rear side plate (105) and the two side plates (109) are vertically enclosed and mounted on the periphery of one side of the cover plate (102), and a handle (107) is mounted on one side of the front end plate (108);

the lower shell consists of a jig bottom plate (202), a front lower sealing plate (210), a lower rear sealing plate (204), a left lower sealing plate (209) and a right lower sealing plate (206), and the front lower sealing plate (210), the lower rear sealing plate (204), the left lower sealing plate (209) and the right lower sealing plate (206) are vertically and fixedly arranged on the periphery of one side of the jig bottom plate (202);

the upper probe assembly comprises a probe fixing plate (103) and upper probes (104), the upper probes (104) are arranged on the probe fixing plate (103) in a rectangular array, one side of the probe fixing plate (103) is arranged on the upper circuit board (101) through fixing columns (106), and one end of each upper probe (104) is electrically connected with the upper circuit board (101).

2. The novel cylindrical battery formation component jig of claim 1, wherein: the lower probe assembly comprises a probe mounting plate (203) and lower probes (205), the lower probes (205) are arranged on the probe mounting plate (203) in a rectangular array, and the lower probes (205) are correspondingly and electrically connected with the lower circuit board (201).

3. The novel cylindrical battery formation component jig of claim 1, wherein: four terminal rows (3) are arranged, and two sides of the upper part (1) of the jig and one side of the lower part (2) of the jig are respectively and correspondingly arranged.