TWM451543U - Conductive probe alignment device for power type battery - Google Patents

Description

Alignment device for conductive probe for power battery

The present invention relates to the technical field of power batteries, and in particular to a positioning device for a conductive probe for a power battery.

This creation relates to a power battery, which refers to a battery used to provide power in a transportation vehicle, generally compared to a small battery for providing energy in a portable electronic device. In addition to power tools, electric bicycles, electric stackers, electric plant vehicles, electric golf carts, electric motors, etc., power batteries can also be extended to renewable energy storage systems, uninterruptible power systems, and fuel vehicles. Start the battery, etc.

In recent years, lithium batteries have become the mainstream of power battery development. Lithium batteries have the characteristics of light weight, large energy storage, no pollution, and are a kind of chemical battery with lithium metal salt as electrolyte.

Taking lithium batteries as an example, in the process of manufacturing, it is necessary to first process the semi-finished products through the processes of first charging, degassing, air bag cutting and formation, and the lithium battery semi-finished products in the above process. The middle system is in the form of a bag, so the lithium battery semi-finished product is also called a pouch-type battery.

It is also known that in the above-mentioned chemical conversion process, the conductive probe contacts the electrode of the semi-finished lithium battery to conduct electricity, so that the chemical composition inside the lithium battery semi-finished product is in a fluid state to form a solid chemical structure capable of storing electrical energy; In the semi-finished product before the chemical conversion process, the chemical component in the fluid state inside is filled in a soft bag body, so the bag-shaped battery needs to be continuously pressed by a uniform external force during the formation process to maintain the bag. The shape of the battery.

The above method of continuously pressing the pouch battery during the chemical conversion process comprises juxtaposing a plurality of pouch batteries in a jig, and having a partition between the pouch batteries to clamp and press the pouch battery.

In general, the manufacturing tolerance of a pouch battery is plus or minus 0.4 mm, but the juxtaposed bag-shaped battery causes accumulation of errors, so that the conductive probe in the above-described formation process cannot accurately contact the electrode of each lithium battery semi-finished product, and thus It hinders the progress of the automated process.

In summary, in the case where a plurality of power batteries are juxtaposed in the fixture to be energized to carry out a chemical conversion process, how to enable the conductive probe to automatically and accurately contact the electrodes on the battery has become a technical field. An important technical issue to improve the efficiency of automated processes.

The present invention aims to provide a aligning device for a conductive probe for a power battery, so that the conductive probe can automatically and accurately contact the electrode of the power battery.

A aligning device for a conductive probe for a power battery, comprising: a plurality of power batteries each having a pair of electrodes, and respectively disposed in a jig by a movable partition and juxtaposed therein, the fixture is placed a lifting platform disposed at one of the fixed ends of the machine to drive a lifting platform to move up and down over the fixture; a translation driver disposed on the lifting platform to drive a crossbar to the lifting platform a bottom translation; and a plurality of adjustment seats, the spacers are slidably disposed on the cross bar, and respectively receive the restraint of an elastic element, and the bottom of the adjustment seat is respectively provided with a plurality of conductive probes And a probe rod; wherein the lift platform is first lowered in the direction of the fixture, so that the probe rod is implanted in the fixture, and the crossbar is translated to make the probe rod in the fixture pass through the elastic contact The position of one of the power battery and the movable partition is detected, and the second lowering of the lifting table toward the jig causes the conductive probe to contact the electrode of the power battery.

In a further implementation, the method further includes: the length of the probe bar is greater than the conductive probe, such that the distance of the probe bar relative to the fixture is smaller than that of the conductive probe.

The bottom of the adjusting seat is respectively provided with a conductive probe in a manner deriving toward the electrode direction.

A protruding portion is formed on the crossbar, and the protruding portion is received in the adjusting seat. The elastic member is restrained between the protruding portion and the inner wall of one side of the adjusting seat to restrain the adjusting seat.

The crossbar is provided with a baffle plate carrying a negative spring, the baffle is implanted on one end side of the jig to restrain the power battery and the movable baffle from abutting each other, and an elastic element is disposed between the cross bar and the baffle. The resilient element provides a spring pressure to restrain the baffle. The elastic element is a helical compression spring. The baffle has a length greater than the probe.

The lifting drive comprises a first pneumatic cylinder disposed at a fixed end of the machine and a second pneumatic cylinder, wherein the first pneumatic cylinder drives the lifting platform to perform a first lowering in the direction of the fixture, and the second pneumatic cylinder drives the lifting The direction of the Taiji fixture was lowered for the second time.

The creation system is provided with a plurality of slideable adjusting seats on the cross bar and elastically restraining the adjusting seat, and the detecting rod on the adjusting seat is inserted into the jig The position of one of the power battery and the movable partition is detected by the elastic contact, and the position of the electrode of the power battery is known, so that the conductive probe on the adjustment seat can automatically and accurately contact the electrode of the power battery.

In order to fully understand the above technical means and its effectiveness, and to implement this creation, please refer to the implementation content and the following description:

Please refer to FIG. 1 and FIG. 2 together. FIG. 1 discloses a front view of the alignment device of the conductive probe for the present power battery, and FIG. 2 discloses a side view of FIG. 1 to illustrate that the creation alignment device includes multiple The power battery 11, a lifting drive 12, a translation driver 13, and a plurality of adjustment seats 14. The power battery 11 has a pair of electrodes 111, and the power battery 11 can be a lithium battery semi-finished product. The power battery 11 is respectively disposed in a jig 112 by a movable partition 113, and the jig 112 is placed. On a machine table 115, the power battery 11 can receive the continuous pressing of the movable partition 113 during the formation process to maintain the shape of the power battery 11. The spacing between the movable partitions 113 is adjustable, so that the movable partition 113 can positively clamp and press the power battery 11 , and in addition, the power battery 11 and the fixture are housed in the jig 112 . A gap D is formed between the inner walls of 112.

The lifting drive 12 can be a pneumatic cylinder disposed at one of the fixed ends 116 of the machine table 115 to drive an lifting table 118 to move up and down over the jig 112. The lifting platform 118 is disposed on the plurality of guide posts 117 on the side of the machine base 115 and is located above the jig 112. The lifting actuator 12 includes a first pneumatic cylinder 121 and a second pneumatic cylinder 122 disposed at the fixed end 116 of the machine base 115. The first pneumatic cylinder 121 drives the lifting platform 118 to perform the first reduction in the direction of the jig. The second pneumatic cylinder 122 drives the lifting platform 118 toward the rule With the direction of the second reduction.

Referring to FIG. 1 and FIG. 3, FIG. 3 discloses a top view of FIG. 1 for illustrating that the translation driver 13 can be a motor, and is provided with a connecting rod 131, and the connecting rod 131 passes through a stroke hole 119 on the lifting platform 118, and is lifted and lowered. A crossbar 132 at the bottom of the table 118 is coupled, and the link 131 is provided with a lifting and lowering transmission element 133. The translational driver 13 contacts the raised transmission element 133 to convert the rotational motion of the translational driver 13 into the linearity of the transmission element 133. The moving, translating transmission element 133 interlocks the link 131 to drive the crossbar 132 to translate at the bottom of the lifting platform 118.

Please refer to FIG. 1 , FIG. 4 , FIG. 5 and FIG. 6 . FIG. 4 is a perspective enlarged view of the adjusting seat of FIG. 1 , FIG. 5 is an enlarged sectional view of FIG. 4 , and FIG. 6 is related to the baffle of FIG. 1 . An enlarged cross-sectional view of the structure is used to illustrate that the adjustment seat 14 is slidably disposed on the cross bar 132 and is respectively restrained by an elastic member 141, and the elastic member 141 may be a helical compression spring. The protruding portion 144 is formed in the adjusting rod 14 , and the elastic member 141 is restrained between the protruding portion 144 and the inner wall of one side of the adjusting seat 14 to restrain the adjusting seat 14 . . The projection 144 may be a bundle of loops formed by a tightening of the bundle to the transverse axis 132.

The crossbar 132 is further provided with a baffle 134 carrying a negative spring pressure, and the baffle 134 is implanted on one end side of the jig 112 to restrain the power battery 11 and the movable partition 113 from being close to each other, and the cross bar 132 and the baffle 134 are disposed between The elastic member 141, and the elastic member 141 may be a helical compression spring, and the elastic member 141 provides a spring-loaded baffle 134.

The bottom of the adjusting base 14 is provided with a plurality of conductive probes 142 and a probe bar 143 extending in the direction of the electrodes. Wherein, the probe bar 143 has a tilted tip, The length of the rod 143 is greater than the conductive probe 142 such that the distance H1 of the probe bar 143 adjacent to the jig 112 is less than the distance H2 adjacent to the conductive probe 142, and the length of the baffle 134 is greater than the probe bar 143.

Please refer to FIG. 2, FIG. 7, FIG. 8 and FIG. 9 together. FIG. 7 to FIG. 9 respectively disclose the schematic diagram of the operation of FIG. 1 for explaining that the creation alignment device drives the lifting platform 118 toward the fixture by the lifting drive 12. The direction is degraded for the first time, and the descending lifting platform 118 drives the bottom cross bar 132 to approach the jig 112, so that the detecting rod 143 at the bottom of the adjusting seat 14 is implanted into the jig 112, and the detecting rod in the jig 112 Since the 143 has an inclined tip and the adjustment seat 14 is elastically restrained, it can slide into the gap D in the jig 112 after being in contact with the movable partition 113 or directly into the gap D in the jig 112.

The traverse drive 13 drives the crossbar 132 to translate at the bottom of the lifting platform 118. The translating crossbar 132 drives the displacement of the adjusting seat 14, so that the detecting rod 143 in the jig 112 is displaced along the adjusting seat 14 in the gap D. The position detecting rod 143 in the 112 detects the position of one of the power battery 11 and the movable partition 113 through the elastic contact, so that the conductive probe 142 at the bottom of the adjusting base 14 is correspondingly located above the electrode 111 of the power battery 11. .

Finally, the lifting platform 118 drives the lifting platform 118 to perform a second lowering in the direction of the jig, so that the conductive probe 142 accurately contacts the electrode 111 of the power battery 11.

In summary, the position matching device of the present invention detects the position of one of the power battery 11 and the movable partition 113 by the detecting rod 143 through the elastic contact by the setting of the adjusting seat 14, thereby determining the power battery 11 The position of the electrode 111 is such that the conductive probe 142 accurately contacts the electrode 111 of the power battery 11.

Through the description of the above embodiments, it is known that the creation only needs to be driven. The lifting driver 12 and the translating driver 13 can automatically make the conductive probe 142 accurately contact the electrode 111 of the power battery 11 , thereby facilitating the implementation of the automation of the power battery. For the prior art, It does make a contribution.

The above embodiments are merely illustrative of several implementations of the present invention, but are not to be construed as limiting the scope of the present invention. It should be noted that, for those of ordinary skill in the art to which the present invention pertains, a number of variations and modifications may be made without departing from the inventive concept, which are all within the scope of the present invention. Therefore, this creation should be based on the content of the request as defined in the scope of the patent application.

11‧‧‧Power battery

111‧‧‧Electrode

112‧‧‧ fixture

113‧‧‧Active partition

115‧‧‧ machine

116‧‧‧Fixed end

117‧‧‧ Guide column

118‧‧‧ Lifting platform

119‧‧‧Travel hole

12‧‧‧ Lifting drive

121‧‧‧First air cylinder

122‧‧‧Second air cylinder

13‧‧‧ translation driver

131‧‧‧ Connecting rod

132‧‧‧cross bar

133‧‧‧Transmission components

134‧‧ ‧ baffle

14‧‧‧ adjustment seat

141‧‧‧Flexible components

142‧‧‧ Conductive probe

143‧‧‧ Detecting rod

144‧‧‧ highlights

D‧‧‧ gap

H1, H2‧‧‧ distance

1 is a front view of the alignment device of the conductive probe for the present invention; FIG. 2 is a side view of FIG. 1; FIG. 3 is a plan view of FIG. 5 is an enlarged cross-sectional view of FIG. 4; FIG. 6 is an enlarged cross-sectional view of the structure of the baffle of FIG. 1. FIGS. 7 to 9 are schematic views of the operation of FIG.

11‧‧‧Power battery

111‧‧‧Electrode

112‧‧‧ fixture

113‧‧‧Active partition

115‧‧‧ machine

116‧‧‧Fixed end

117‧‧‧guides

118‧‧‧ Lifting platform

12‧‧‧ Lifting drive

121‧‧‧First air cylinder

122‧‧‧Second air cylinder

13‧‧‧ translation driver

131‧‧‧ Connecting rod

132‧‧‧cross bar

133‧‧‧Transmission components

134‧‧ ‧ baffle

14‧‧‧ adjustment seat

H1, H2‧‧‧ distance

Claims (8)

A aligning device for a conductive probe for a power battery, comprising: a plurality of power batteries each having a pair of electrodes, and respectively disposed in a jig by a movable partition and juxtaposed therein, the fixture is placed a lifting platform disposed at one of the fixed ends of the machine to drive a lifting platform to move up and down over the fixture; a translation driver disposed on the lifting platform to drive a crossbar to the lifting platform The bottom portion is translatable; a plurality of adjusting seats are disposed on the cross bar and are respectively restrained by a resilient member, wherein the bottom of the adjusting seat is respectively provided with a plurality of conductive probes and a detecting rod; and The lifting platform is lowered for the first time in the direction of the fixture, so that the probe rod is implanted in the fixture, and the crossbar is translated to enable the probe rod in the fixture to detect the power battery and the movable partition through the elastic contact In one of the positions, the lifting platform is lowered in the direction of the jig for the second time to cause the conductive probe to contact the electrode of the power battery. The alignment device for a conductive probe for a power battery according to claim 1, wherein the length of the probe is greater than the conductive probe, so that the distance of the probe relative to the fixture is less than that of the conductive Probe. The alignment device for a conductive probe for a power battery according to claim 1, wherein the bottom of the adjustment base is respectively provided with a conductive probe in a manner deriving toward the electrode. The alignment device for a conductive probe for a power battery according to claim 1, wherein a protrusion is formed on the crossbar to make the protrusion The elastic member is placed between the protruding portion and the inner wall of one side of the adjusting seat to restrain the adjusting seat. The alignment device for a conductive probe for a power battery according to claim 1, wherein the crossbar is provided with a baffle plate carrying a negative spring, the baffle being implanted on one end side of the jig to restrain the power battery and The movable partitions are close to each other, and an elastic element is disposed between the crossbar and the baffle, and the elastic element provides a spring pressure to restrain the baffle. The alignment device for a conductive probe for a power battery according to claim 4, wherein the elastic member is a helical compression spring. The alignment device for a conductive probe for a power battery according to claim 5, wherein the baffle has a length greater than the probe. The aligning device for a conductive probe for a power battery according to the first aspect of the invention, wherein the lifting drive comprises a first pneumatic cylinder and a second pneumatic cylinder disposed at a fixed end of the machine, the first pneumatic cylinder The driving platform is lowered for the first time in the direction of the jig, and the second pneumatic cylinder drives the lifting platform to perform the second lowering in the direction of the jig.