CN107768726B - Lithium ion polymer power battery formation fixture device - Google Patents

Abstract

The lithium ion polymer power battery formation fixture device comprises a plurality of battery fixture assemblies used for being in contact with lithium ion polymer power battery lugs and battery fixture stop block fixing assemblies used for guiding the lithium ion polymer power battery lugs, wherein each battery fixture assembly comprises a battery fixture body, a left battery fixture voltage needle, a right battery fixture current needle and a battery fixture fixing plate, one end of each left battery fixture voltage needle and one end of each right battery fixture current needle are mounting ends, and the other end of each right battery fixture voltage needle and one end of each right battery fixture current needle are turned over to one side to form a contact end face used for being in contact with each battery lug; the battery clamp stop block fixing assembly comprises a battery clamp stop block fixing plate and at least two battery clamp stop blocks, wherein the battery clamp stop block fixing plate is used for being connected with external position adjusting equipment, and the battery clamp stop blocks are used for guiding battery lugs. The beneficial effects of the invention are as follows: the device is simple and convenient to replace; the left voltage pin of the battery clamp and the right current pin of the battery clamp adopt a multi-piece structure, so that the contact resistance can be reduced, and the contact is good; the battery lugs are guided, so that the automatic production is convenient.

Description

Lithium ion polymer power battery formation fixture device

Technical Field

The invention relates to a lithium ion polymer power battery formation clamp device.

Background

With the development of the lithium ion polymer battery industry, the existing lithium ion polymer power battery formation fixture device cannot meet the development requirements of the lithium ion polymer power battery industry on batch and automation due to the problems of poor contact, inconvenient operation and the like.

Disclosure of Invention

In order to solve the problems of poor contact, inconvenient operation and the like of the conventional lithium ion polymer power battery formation clamp device, the invention provides the lithium ion polymer power battery formation clamp device which is good in contact and simple to operate.

The invention relates to a lithium ion polymer power battery formation clamp device, which is characterized in that: the battery clamp comprises a plurality of battery clamp assemblies used for being contacted with lithium ion polymer power battery lugs and battery clamp stop block fixing assemblies used for guiding the lithium ion polymer power battery lugs, wherein each battery clamp assembly comprises a battery clamp body, a battery clamp left voltage pin, a battery clamp right current pin and a battery clamp fixing plate, one end of each battery clamp left voltage pin and one end of each battery clamp right current pin are mounting ends, the other end of each battery clamp right current pin is turned to one side to form a contact end surface used for being contacted with each battery lug, the mounting ends of each battery clamp left voltage pin and the corresponding battery clamp right current pin are respectively and parallelly mounted on the battery clamp body through corresponding fixing bolts, the wiring ends of each battery clamp left voltage pin are electrically connected with the voltage end of a power supply, and the fixing ends of each battery clamp right current pin are electrically connected with the current end of the power supply; the battery clamp body is arranged on the battery clamp fixing plate through corresponding adjusting bolts, the battery clamp assemblies are arranged in parallel, and the contact end face of the left voltage pin of the battery clamp and the contact end face of the right current pin of the battery clamp are positioned on the same side;

the battery clamp stop block fixing assembly comprises a battery clamp stop block fixing plate and at least two battery clamp stop blocks, wherein the battery clamp stop block fixing plate is used for being connected with external position adjusting equipment, the battery clamp stop block fixing plate is used for guiding battery lugs, one end of the battery clamp stop block fixing plate is in sliding connection with the battery clamp fixing plate, and the sliding direction of the battery clamp fixing plate is perpendicular to the axial direction of a left voltage needle of the battery clamp; the other end of the battery clamp stop block fixing plate is provided with a battery clamp stop block, a gap for accommodating battery lugs is reserved between two adjacent battery clamp stop blocks, the battery clamp stop blocks are in one-to-one correspondence with the battery clamp assemblies, and the distance between the two adjacent battery clamp assemblies is consistent with the distance between the two corresponding adjacent battery clamp stop blocks.

The battery clamp stop block comprises a battery clamp stop block body and a conductive steel sheet injection-molded in the battery clamp stop block body, wherein the upper part of the battery clamp stop block body is provided with a groove for accommodating the contact end face of a left voltage needle of a battery clamp or the contact end face of a right current needle of the battery clamp, the upper end of the battery clamp stop block body is fixedly connected with the lower end of a battery clamp stop block fixing plate, two opposite side faces of the lower part of the battery clamp stop block body are tapered to form two guide inclined planes, and the guide inclined planes face to a gap on the same side; the conductive steel sheet is injection-molded in the battery clamp stop body, which is close to the inside of the guide inclined plane, and two ends of the conductive steel sheet extend out of the battery clamp stop body and then are attached to the side surface of the same side of the battery clamp stop body, and the movement direction of the conductive steel sheet and the battery clamp assembly are vertical.

The battery clamp stop block body is divided into a mounting part, a conductive part and a guide part from top to bottom, the conductive part is internally embedded with a conductive steel sheet, two ends of the conductive steel sheet are attached to two side surfaces of the conductive part after extending out of the conductive part, the cross section of a groove of the conductive part is rectangular, the opening of the top of the groove extends upwards to form the mounting part, the bottom of the groove extends downwards to form the guide part, two opposite surfaces of the guide part are two intersected guide inclined surfaces, and the clearance between two adjacent guide parts is ensured to be gradually reduced from bottom to top.

The right current needle of the battery clamp is formed by mutually overlapping a plurality of current sheets, the lower edges of the current sheets are spliced together to form a current contact surface for contacting with the battery electrode lugs, smooth saw teeth are arranged on the lower edges of the current sheets along the length direction of the current sheets, and the saw-tooth lower edges of the mutually overlapped current sheets are spliced together to form a saw-tooth current contact surface.

The left voltage pin of the battery clamp is formed by mutually overlapping a plurality of voltage sheets, a voltage contact surface for contacting with the battery lug is formed by the lower edges of the voltage sheets, smooth saw teeth are arranged on the lower edges of the voltage sheets in the length direction, and the saw-tooth lower edges of the mutually overlapped voltage sheets form a saw-tooth voltage contact surface.

Two battery clamp assemblies are installed on the battery clamp stop block fixing assembly, the two battery clamp assemblies are arranged in parallel, two battery clamp stops are correspondingly installed on the lower portion of the battery clamp stop block fixing assembly, the upper surface and the lower surface of the contact end face of the left voltage pin of the battery clamp or the contact end face of the right current pin of the battery clamp fall between the top end and the bottom of the groove, and therefore the contact end face of the left voltage pin of the battery clamp or the contact end face of the right current pin of the battery clamp is ensured to be free from blocking when sliding.

The maximum height H1 of the contact end surface of the left voltage pin of the battery clamp or the contact end surface of the right current pin of the battery clamp is smaller than the thickness H2 of the conductive part of the stop block of the battery clamp.

The battery clamp stop block fixing plate of the battery clamp stop block fixing assembly and the battery clamp fixing plate of the battery clamp assembly are fixedly connected with the movable end of the power equipment capable of providing linear reciprocating motion, so that the automatic sliding connection between the battery clamp stop block fixing assembly and the battery clamp assembly is realized, and the battery clamp stop block fixing assembly is used for automatic production.

When the battery clamp is used, the left voltage pin of the battery clamp assembly and the right current pin of the battery clamp assembly are firstly fixed and locked on the battery clamp body, the left voltage pin of the battery clamp is connected with voltage, and the right current pin of the battery clamp is connected with current; during initial state, battery clamp assembly hides in battery clamp dog, can lead by battery clamp dog when battery lug gets into and guarantee to get into smoothly not touch battery clamp assembly, and battery clamp dog fixed subassembly and battery clamp assembly are mutual slip compression battery lug after getting into, battery clamp left side voltage needle, battery clamp right side current needle are contacted with battery lug by battery clamp voltage current needle tooth multichip contact surface, and the minimum injury of contact to battery lug has been guaranteed to slick and sly flank of tooth, and contact resistance has been reduced in the design of multichip, and the reduction battery that can be fine becomes the poor contact that is.

The beneficial effects of the invention are mainly shown in the following steps: 1. the device is simple and convenient to replace; 2. the left voltage pin of the battery clamp and the right current pin of the battery clamp adopt a multi-piece structure, so that the contact resistance can be reduced, and poor contact caused by battery formation can be well reduced; 3. the unique battery clamp combination design can lead the device to guide the battery lugs, and is convenient for automatic mass production.

Drawings

Fig. 1 is a block diagram of the present invention (a battery clamp assembly is received within a battery clamp block securing assembly).

Fig. 2 is a block diagram of the present invention (battery clamp assembly in contact with battery tabs).

Fig. 3 is a front view of the battery clamp assembly of the present invention.

Fig. 4 is a side view of the battery clamp assembly of the present invention.

Fig. 5 is a top view of the battery clamp assembly of the present invention.

Fig. 6 is a front view of the battery clamp stop of the present invention.

Fig. 7 is a side view of a battery clamp stop of the present invention.

Fig. 8 is a bottom view of the battery clamp stop of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings

Referring to the drawings:

embodiment 1 the invention provides a lithium ion polymer power battery formation clamp device, which comprises a plurality of battery clamp assemblies 1 used for contacting with lithium ion polymer power battery lugs and battery clamp stop block fixing assemblies 2 used for guiding the lithium ion polymer power battery lugs, wherein each battery clamp assembly 1 comprises a battery clamp body 11, a left battery clamp voltage pin 12, a right battery clamp current pin 13 and a battery clamp fixing plate 14, one end of each battery clamp left voltage pin 12 and one end of each battery clamp right current pin 13 are mounting ends, the other end of each battery clamp left voltage pin is folded to one side to form a contact end surface used for contacting with each battery lug, the mounting ends of each battery clamp left voltage pin 12 and each battery clamp right current pin 13 are respectively arranged on the battery clamp body 11 in parallel through corresponding fixing bolts, the wiring ends of each battery clamp left voltage pin 12 are electrically connected with the voltage end of a power supply, and the fixing ends of each battery clamp right current pin 13 are electrically connected with the current end of the power supply; the battery clamp body 11 is mounted on the battery clamp fixing plate 14 through corresponding adjusting bolts, the battery clamp assembly 1 is ensured to be arranged in parallel, and the contact end face of the left voltage pin 12 of the battery clamp and the contact end face of the right current pin 13 of the battery clamp are positioned on the same side;

the battery clamp stop block fixing assembly 2 comprises a battery clamp stop block fixing plate 21 and at least two battery clamp stop blocks 22, wherein the battery clamp stop block fixing plate 21 is used for being connected with external position adjusting equipment, the battery clamp stop block 22 is used for guiding battery lugs, one end of the battery clamp stop block fixing plate 21 is in sliding connection with the battery clamp fixing plate 22, and the sliding direction of the battery clamp fixing plate 21 is perpendicular to the axial direction of the battery clamp left voltage pin 12; the other end of the battery clamp stop block fixing plate 21 is provided with a battery clamp stop block 22, a gap for accommodating battery lugs is reserved between two adjacent battery clamp stop blocks 22, the battery clamp stop blocks 22 are in one-to-one correspondence with the battery clamp assemblies 1, and the distance between two adjacent battery clamp assemblies 1 is consistent with the distance between the two adjacent corresponding battery clamp stop blocks 22.

The battery clamp stop block 22 comprises a battery clamp stop block body 221 and a conductive steel sheet 222 injection-molded in the battery clamp stop block body, a groove 2211 for accommodating a contact end surface of a left voltage pin of a battery clamp or a contact end surface of a right current pin of the battery clamp is formed in the upper part of the battery clamp stop block body 221, the upper end of the battery clamp stop block body 221 is fixedly connected with the lower end of the battery clamp stop block fixing plate 21, two opposite side surfaces of the lower part of the battery clamp stop block body 221 are tapered to form two guide inclined planes 2212, and the guide inclined planes 2212 face to a gap on the same side; the conductive steel sheet 222 is injection-molded in the inner part of the battery clamp stop body 221, which is close to the guide inclined plane, two ends of the conductive steel sheet 222 extend from the battery clamp stop body 221 and then are attached to the side surface of the same side of the battery clamp stop body 221, and the conductive steel sheet 222 is perpendicular to the moving direction of the battery clamp assembly 1.

The battery clamp stop block body 221 is divided into a mounting portion, a conductive portion and a guiding portion from top to bottom, the conductive portion is embedded with a conductive steel sheet 222, two ends of the conductive steel sheet 222 are attached to two side surfaces of the conductive portion after extending out of the conductive portion, the cross section of a groove 2211 of the conductive portion is rectangular, the opening of the top of the groove 2211 extends upwards to form the mounting portion, the bottom of the groove 2211 extends downwards to form the guiding portion, two opposite surfaces of the guiding portion are two intersected guiding inclined planes 2212, and the gap between two adjacent guiding portions is guaranteed to be gradually reduced from bottom to top.

The right current needle 13 of the battery clamp is formed by mutually overlapping 5 current sheets, the lower edges of the current sheets are spliced together to form a current contact surface for contacting with the battery electrode lugs, smooth saw teeth are arranged on the lower edges of the current sheets along the length direction of the current sheets, and the saw-tooth lower edges of the mutually overlapped current sheets are spliced together to form a saw-tooth current contact surface.

The left voltage pin 12 of the battery clamp is formed by overlapping 3 voltage sheets, the lower edges of the voltage sheets jointly form a voltage contact surface for contacting with the battery lugs, smooth saw teeth are arranged on the lower edges of the voltage sheets in the length direction, and the saw-tooth lower edges of the voltage sheets overlapped with each other form a saw-tooth voltage contact surface.

Two battery clamp assemblies 1 are installed on the battery clamp stop block fixing assembly 2, the two battery clamp assemblies 1 are arranged in parallel, two battery clamp stop blocks 22 are correspondingly installed on the lower portion of the battery clamp stop block fixing assembly 2, the upper surface and the lower surface of the contact end face of the battery clamp left voltage needle 12 or the contact end face of the battery clamp right current needle 13 fall between the top end of the groove 2211 and the groove bottom, and no blocking is ensured when the contact end face of the battery clamp left voltage needle 12 or the contact end face of the battery clamp right current needle 13 slides.

The maximum height H1 of the contact end surface of the battery clamp left voltage pin 12 or the contact end surface of the battery clamp right current pin 13 is smaller than the thickness H2 of the conductive part of the battery clamp stopper 22.

The battery clamp stop block fixing plate 21 of the battery clamp stop block fixing assembly 2 and the battery clamp fixing plate 14 of the battery clamp assembly 1 are fixedly connected with the movable end of the power equipment capable of providing linear reciprocating motion, so that the automatic sliding connection of the battery clamp stop block fixing assembly and the battery clamp assembly is realized, and the battery clamp stop block fixing assembly is used for automatic production.

When the battery clamp is used, the left battery clamp voltage needle 12 and the right battery clamp current needle 13 of the battery clamp assembly 1 are firstly fixed and locked on the battery clamp body 11, the left battery clamp voltage needle 12 is connected with voltage, and the right battery clamp current needle 13 is connected with current; during initial state, battery clamp assembly 1 is hidden in battery clamp dog 22, can lead by battery clamp dog 22 when battery tab 3 gets into and guarantee to get into smoothly and not touch battery clamp assembly 1, and battery clamp dog fixed subassembly and 2 battery clamp assembly 1 are mutual slip and compress tightly battery tab 3 after getting into, battery clamp left voltage needle 12, battery clamp right current needle 13 are contacted with battery tab 3 by battery clamp voltage current needle tooth multichip contact surface, and the minimum injury of contact to battery tab 3 has been guaranteed to slick and sly flank of tooth, and contact resistance has been reduced in the design of multichip, and the reduction battery that can be fine becomes the poor contact.

The embodiments described in the present specification are merely examples of implementation forms of the inventive concept, and the scope of protection of the present invention should not be construed as being limited to the specific forms set forth in the embodiments, but also equivalent technical means that can be conceived by those skilled in the art according to the inventive concept.

Claims (2)

1. The utility model provides a lithium ion polymer power battery becomes fixture device which characterized in that: the battery clamp comprises a plurality of battery clamp assemblies used for being contacted with lithium ion polymer power battery lugs and battery clamp stop block fixing assemblies used for guiding the lithium ion polymer power battery lugs, wherein each battery clamp assembly comprises a battery clamp body, a battery clamp left voltage pin, a battery clamp right current pin and a battery clamp fixing plate, one end of each battery clamp left voltage pin and one end of each battery clamp right current pin are mounting ends, the other end of each battery clamp right current pin is turned to one side to form a contact end surface used for being contacted with each battery lug, the mounting ends of each battery clamp left voltage pin and the corresponding battery clamp right current pin are respectively and parallelly mounted on the battery clamp body through corresponding fixing bolts, the wiring ends of each battery clamp left voltage pin are electrically connected with the voltage end of a power supply, and the fixing ends of each battery clamp right current pin are electrically connected with the current end of the power supply; the battery clamp body is arranged on the battery clamp fixing plate through corresponding adjusting bolts, the battery clamp assemblies are arranged in parallel, and the contact end face of the left voltage pin of the battery clamp and the contact end face of the right current pin of the battery clamp are positioned on the same side;

the battery clamp stop block fixing assembly comprises a battery clamp stop block fixing plate and at least two battery clamp stop blocks, wherein the battery clamp stop block fixing plate is used for being connected with external position adjusting equipment, the battery clamp stop block fixing plate is used for guiding battery lugs, one end of the battery clamp stop block fixing plate is in sliding connection with the battery clamp fixing plate, and the sliding direction of the battery clamp fixing plate is perpendicular to the axial direction of a left voltage needle of the battery clamp; the battery clamp stop blocks are arranged at the other end of the battery clamp stop block fixing plate, gaps for accommodating battery lugs are reserved between two adjacent battery clamp stop blocks, the battery clamp stop blocks correspond to the battery clamp assemblies one by one, and the distance between the two adjacent battery clamp assemblies is consistent with the distance between the two corresponding adjacent battery clamp stop blocks;

the battery clamp stop block comprises a battery clamp stop block body and a conductive steel sheet injection-molded in the battery clamp stop block body, wherein the upper part of the battery clamp stop block body is provided with a groove for accommodating the contact end face of a left voltage needle of a battery clamp or the contact end face of a right current needle of the battery clamp, the upper end of the battery clamp stop block body is fixedly connected with the lower end of a battery clamp stop block fixing plate, two opposite side faces of the lower part of the battery clamp stop block body are tapered to form two guide inclined planes, and the guide inclined planes face to a gap on the same side; the conductive steel sheet is injection-molded in the inner part of the battery clamp stop block body, which is close to the guide inclined plane, two ends of the conductive steel sheet extend out of the battery clamp stop block body and then are attached to the side surface of the same side of the battery clamp stop block body, and the conductive steel sheet is perpendicular to the moving direction of the battery clamp assembly;

the battery clamp stop block body is divided into a mounting part, a conductive part and a guide part from top to bottom, the conductive part is internally embedded with a conductive steel sheet, two ends of the conductive steel sheet extend out of the conductive part and are attached to two side surfaces of the conductive part, the cross section of a groove of the conductive part is rectangular, the opening of the top of the groove extends upwards to form the mounting part, the bottom of the groove extends downwards to form the guide part, two opposite surfaces of the guide part are two intersected guide inclined planes, and the clearance between two adjacent guide parts is ensured to be gradually reduced from bottom to top;

the right current needle of the battery clamp is formed by mutually overlapping a plurality of current sheets, the lower edges of the current sheets are spliced together to form a current contact surface for contacting with the battery lug, smooth saw teeth are arranged on the lower edges of the current sheets along the length direction of the current sheets, and the saw-tooth lower edges of the mutually overlapped current sheets are spliced together to form a saw-tooth current contact surface;

the left voltage pin of the battery clamp is formed by mutually superposing a plurality of voltage sheets, the lower edges of the voltage sheets jointly form a voltage contact surface for contacting with the battery lug, smooth saw teeth are arranged on the lower edges of the voltage sheets in the length direction of the voltage sheets, and the saw-tooth lower edges of the mutually superposed voltage sheets form a saw-tooth voltage contact surface;

two battery clamp assemblies are arranged on the battery clamp stop block fixing assembly, the two battery clamp assemblies are arranged in parallel, two battery clamp stops are correspondingly arranged at the lower part of the battery clamp stop block fixing assembly, the upper and lower surfaces of the contact end face of the left voltage pin of the battery clamp or the contact end face of the right current pin of the battery clamp fall between the top end and the bottom of the groove, and no blocking is ensured when the contact end face of the left voltage pin of the battery clamp or the contact end face of the right current pin of the battery clamp slides;

the maximum height H1 of the contact end surface of the left voltage pin of the battery clamp or the contact end surface of the right current pin of the battery clamp is smaller than the thickness H2 of the conductive part of the stop block of the battery clamp.

2. A lithium ion polymer power battery formation jig device according to claim 1, wherein: the battery clamp stop block fixing plate of the battery clamp stop block fixing assembly and the battery clamp fixing plate of the battery clamp assembly are fixedly connected with the movable end of the power equipment capable of providing linear reciprocating motion, so that the automatic sliding connection between the battery clamp stop block fixing assembly and the battery clamp assembly is realized, and the battery clamp stop block fixing assembly is used for automatic production.