CN111430625A

CN111430625A - Convenient structure of experimental type rapid composition module and installation method thereof

Info

Publication number: CN111430625A
Application number: CN202010316095.3A
Authority: CN
Inventors: 张计中; 叶伟军; 阮克旺; 王维乐
Original assignee: Fujian Scud Power Technology Co Ltd
Current assignee: Fujian Scud Power Technology Co Ltd
Priority date: 2020-04-21
Filing date: 2020-04-21
Publication date: 2020-07-17
Anticipated expiration: 2040-04-21
Also published as: CN111430625B

Abstract

The invention relates to a convenient structure of an experimental type quick-assembly module, which comprises a plurality of battery monomer blocks which are mutually arranged, wherein the peripheral parts of the battery monomer blocks are surrounded by a plurality of enclosing plates, the enclosing plates on the opposite sides are mutually tensioned through long screws and fastening nuts which penetrate through gaps among the battery monomer blocks, and the long screws of the enclosing plates on the opposite sides of each group are positioned on different flat layers. The convenient structure of this experiment type quick constitution module simple structure can assemble into the module that the test item used fast, and easy operation is convenient, and is efficient.

Description

Convenient structure of experimental type rapid composition module and installation method thereof

Technical Field

The invention relates to a convenient structure of an experimental quick-assembly module and an installation method thereof, belonging to the field of battery grouping technology application of battery products.

Background

With the progress and development of society, the intellectualization in the aspects of storage, family, trip and the like, the diversification of mobile consumer electronic products, and the adoption of batteries as clean energy providers, the batteries are more and more popular and favored by consumers and become an indispensable part of electronic products. In the application process, the battery is taken as an output end of energy, whether the performance of the battery core meets the use condition or not is considered through test items such as charging, discharging, high-temperature group storage and low-temperature group storage under certain conditions, the safety and the operation coefficient in the application are improved, the battery is helped to reduce the failure rate in the use process in the long-term use process, more secure service is provided for a user in the use process, the user acceptance is improved, and the method becomes a significant research subject.

However, the good-performance batteries are screened by adopting real project practice at present, project design time needs to be waited, and the module is difficult to form, namely, the development period is prolonged; it is necessary to consume resources in the development stage, i.e., to increase the expense in the development stage.

Disclosure of Invention

In view of the defects of the prior art, the technical problem to be solved by the invention is to provide a convenient structure of an experimental type quick-assembly module and an installation method thereof.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides a convenient structure of module is constituteed fast to experimental type, includes the battery monomer block that a plurality of was arranged each other, and the peripheral part of a plurality of battery monomer block surrounds through the polylith bounding wall, all strains each other through long screw rod, the fastening nut who passes the clearance between the battery monomer block between the bounding wall of opposite side, and the long screw rod of each group opposite side bounding wall is located different stratums.

Preferably, the battery cell blocks each include a battery and brackets covering both ends of the battery, the brackets are each provided with a jack for inserting the end of the battery, the brackets are each cubic in shape, and at least two annular grooves distributed vertically are formed in the peripheral surfaces of the brackets.

Preferably, the plurality of battery cell blocks are arranged in a cubic battery pack.

Preferably, the enclosing plate consists of an end plate and a side plate, positioning convex lines for embedding the ring grooves of the battery monomer block supports on the same side are arranged on the back sides of the end plate and the side plate, and a plurality of mounting through holes for penetrating long bolts are uniformly distributed on the end plate and the side plate along the positioning convex lines; the positioning convex lines of the end plates and the side plates are all positioned on different flat layers.

Preferably, the left end and the right end of the end plate are symmetrically provided with T-shaped clamping grooves, and the left end and the right end of the side plate are symmetrically provided with T-shaped clamping blocks used for being embedded into the T-shaped clamping grooves.

Preferably, the end plate and the side plate are respectively provided with two end plates which are arranged oppositely, the two side plates are arranged oppositely, long bolts penetrate through the mounting through holes of the end plate and the side plate, the long bolts penetrate through a channel formed by corresponding ring grooves of adjacent supports, and the tail ends of threads are locked by fastening nuts; the long screw rods on the end plates are transverse long screw rods, and the long screw rods on the side plates are longitudinal long screw rods.

A convenient structure installation method of an experimental quick composition module comprises the following steps: (1) two end faces of the battery are respectively covered by a bracket to form a battery single block; (2) taking a battery single block to be tested, and regularly arranging the battery single blocks to form a cubic battery pack as much as possible; (3) arranging the tool above the bracket; (4) then the end plate and the side plate respectively stick the back glue surfaces to the end surface and the side surface of the battery pack, and the positioning convex lines of the end plate and the side plate are respectively in pair-embedding fit with the annular grooves of the corresponding support; the adjacent T-shaped clamping blocks are in butt-embedded fit with the T-shaped clamping grooves; (5) inserting the transverse long screw and the longitudinal long screw into the end plate and the side plate respectively, screwing the fastening nuts on the long screws in a micro manner, pre-tightening the fastening nuts on the opposite corners (far ends) of the end surfaces respectively, locking the fastening nuts on the opposite corners (far ends) of the side surfaces according to the recommended torque, and locking the fastening nuts on the opposite corners (far ends) of the side surfaces again according to the recommended torque; and finally, locking the fastening nuts one by one until all the locking is finished, and taking down the tool to complete the assembly of the module.

Preferably, the tool is a cuboid flat plate.

Compared with the prior art, the invention has the following beneficial effects: the convenient structure of this experiment type quick constitution module simple structure can assemble into the module that the test item used fast, and easy operation is convenient, and is efficient.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a first schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a second schematic structural diagram of an embodiment of the present invention.

Fig. 3 is a second structural schematic diagram (with tool) of the embodiment of the invention.

Fig. 4 is a schematic view of the configuration of the battery cell block.

Fig. 5 is a schematic view of the construction of the side plate.

Fig. 6 is a schematic view of the configuration of the end plate.

Fig. 7 is a schematic view of the construction of the tool.

Fig. 8 is a schematic view of the construction of a cubic battery pack.

Detailed Description

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1-8, a convenient structure of experimental type rapid module assembly comprises a plurality of battery monomer blocks 1 arranged mutually, the periphery of the plurality of battery monomer blocks is surrounded by a plurality of coamings, the coamings on the opposite sides are mutually tensioned by long screws and fastening nuts 2 which pass through gaps among the battery monomer blocks, and the long screws of the coamings on the opposite sides of each group are positioned on different flat layers.

In the embodiment of the invention, each battery monomer block comprises a battery 3 and brackets 4 covering two ends of the battery, the brackets are provided with insertion holes 5 for inserting the ends of the battery, the brackets are cubic, and the four peripheral surfaces of the brackets are provided with at least two annular grooves 6 distributed up and down. The section of the ring groove is not limited to be matched in the form of semicircle, ellipse, rectangle and the like, and the material of the bracket is not limited to plastic materials such as PC, ABS and the like.

In the embodiment of the invention, a plurality of battery monomer blocks are arranged into a cubic battery pack.

In the embodiment of the invention, the enclosing plate consists of an end plate 7 and a side plate 8, positioning convex lines 9 for embedding ring grooves of the battery monomer block supports on the same side are respectively arranged on the back surfaces of the end plate and the side plate, and a plurality of mounting through holes 10 for penetrating long bolts are respectively uniformly distributed on the end plate and the side plate along the positioning convex lines; the positioning convex lines of the end plates and the side plates are all positioned on different flat layers. The shape of the positioning convex line is adapted to the ring groove.

In the embodiment of the invention, the left end and the right end of the end plate are symmetrically provided with T-shaped clamping grooves 11, and the left end and the right end of the side plate are symmetrically provided with T-shaped clamping blocks 12 used for being embedded into the T-shaped clamping grooves.

In the embodiment of the invention, two end plates and two side plates are respectively arranged, the two end plates are oppositely arranged, the two side plates are oppositely arranged, long bolts penetrate through installation through holes of the end plates and the side plates, the long bolts penetrate through a channel formed by corresponding ring grooves of adjacent supports, and the tail ends of threads are locked by fastening nuts; the long screw rods on the end plates are transverse long screw rods 13, and the long screw rods on the side plates are longitudinal long screw rods 14.

A convenient structure installation method of an experimental quick composition module comprises the following steps: (1) two end faces of the battery are respectively covered by a bracket to form a battery single block; (2) taking a battery single block to be tested, and regularly arranging the battery single blocks to form a cubic battery pack as much as possible; (3) arranging the tooling 15 above the support; (4) then the end plate and the side plate respectively stick the back glue surfaces to the end surface and the side surface of the battery pack, and the positioning convex lines of the end plate and the side plate are respectively in pair-embedding fit with the annular grooves of the corresponding support; the adjacent T-shaped clamping blocks are in butt-embedded fit with the T-shaped clamping grooves, so that the end plates and the side plates are interlocked; (5) inserting the transverse long screw and the longitudinal long screw into the end plate and the side plate respectively, screwing the fastening nuts on the long screws in a micro manner, pre-tightening the fastening nuts on the opposite corners (far ends) of the end surfaces respectively, locking the fastening nuts on the opposite corners (far ends) of the side surfaces according to the recommended torque, and locking the fastening nuts on the opposite corners (far ends) of the side surfaces again according to the recommended torque; and finally, locking the fastening nuts one by one until all the locking is finished, and taking down the tool to complete the assembly of the module. The standardization of the test plate module is beneficial to acquiring the rapid screening of the internal resistance consistency of the battery cells after grouping after the battery cells are put into a grouping mode, and the data expression of the charging and discharging depth or the charging and discharging multiplying power in grouping, and finally the establishment of a test system and the rapid formation of a database. The standardization of the battery single block can be used for preparing other auxiliary accessories, such as end plates, side plates, long screws and other accessories, by using simple dies like standard screw components, associating with the actual use of the project, testing the consistency and the charge-discharge performance of the battery, reducing the cost and the period of battery screening, and providing data support for the use of the project.

In the embodiment of the invention, the tool is a cubic flat plate.

The present invention is not limited to the above-described preferred embodiments, and any person can derive a convenient structure of experimental type rapid composition modules in various forms and a method for installing the same, according to the teaching of the present invention. All equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims

1. The utility model provides a convenient structure of quick constitution module of experiment type which characterized in that: the battery cell block comprises a plurality of battery cell blocks which are mutually arranged, the peripheral parts of the plurality of battery cell blocks are surrounded by a plurality of enclosing plates, the enclosing plates on the opposite sides are mutually tensioned through long screws and fastening nuts which penetrate through gaps among the battery cell blocks, and the long screws of the enclosing plates on the opposite sides of each group are positioned on different flat layers.

2. The convenient structure of experimental rapid composition module according to claim 1, characterized in that: the battery monomer blocks all include battery and the support of lid at battery both ends, all are equipped with the jack that is used for battery tip embedding on the support, and the shape of support is the cube and all has seted up the annular that at least twice distributes from top to bottom around.

3. The convenient structure of experimental rapid composition module according to claim 2, characterized in that: a plurality of battery monomer blocks are arranged into a cubic battery pack.

4. Convenient structure of experimental rapid makeup module according to claim 3, characterized in that: the enclosing plate consists of an end plate and a side plate, the back surfaces of the end plate and the side plate are respectively provided with a positioning convex line for embedding the annular groove of the battery monomer block bracket on the same side, and the end plate and the side plate are respectively and uniformly distributed with a plurality of mounting through holes for penetrating through the long bolts along the positioning convex lines; the positioning convex lines of the end plates and the side plates are all positioned on different flat layers.

5. Convenient structure of experimental rapid composition module according to claim 4, characterized in that: the left end and the right end of the end plate are symmetrically provided with T-shaped clamping grooves, and the left end and the right end of the side plate are symmetrically provided with T-shaped clamping blocks used for being embedded into the T-shaped clamping grooves.

6. Convenient structure of experimental rapid composition module according to claim 5, characterized in that: the end plate and the side plate are respectively provided with two blocks, the two end plates are oppositely arranged, the two side plates are oppositely arranged, long bolts penetrate through the installation through holes of the end plate and the side plate, the long bolts penetrate through a channel formed by corresponding ring grooves of adjacent supports, and the tail ends of threads are locked by fastening nuts; the long screw rods on the end plates are transverse long screw rods, and the long screw rods on the side plates are longitudinal long screw rods.

7. A method for the easy-to-construct installation of laboratory type rapid building blocks according to any of claims 1 to 6, characterized by the following steps: (1) two end faces of the battery are respectively covered by a bracket to form a battery single block; (2) taking a battery single block to be tested, and regularly arranging the battery single blocks to form a cubic battery pack as much as possible; (3) arranging the tool above the bracket; (4) then the end plate and the side plate respectively stick the back glue surfaces to the end surface and the side surface of the battery pack, and the positioning convex lines of the end plate and the side plate are respectively in pair-embedding fit with the annular grooves of the corresponding support; the adjacent T-shaped clamping blocks are in butt-embedded fit with the T-shaped clamping grooves; (5) inserting the transverse long screw and the longitudinal long screw into the end plate and the side plate respectively, screwing the fastening nuts on the long screws in a micro manner, pre-tightening the fastening nuts on the opposite corners (far ends) of the end surfaces respectively, locking the fastening nuts on the opposite corners (far ends) of the side surfaces according to the recommended torque, and locking the fastening nuts on the opposite corners (far ends) of the side surfaces again according to the recommended torque; and finally, locking the fastening nuts one by one until all the locking is finished, and taking down the tool to complete the assembly of the module.

8. The method for mounting a convenient structure of an experimental rapid component module according to claim 7, characterized in that: the tool is a cubic flat plate.