CN111505347A - Battery testing device and testing method - Google Patents

Abstract

The embodiment of the application provides a battery testing device and a testing method, which comprises a base, a testing device and a testing device, wherein the base is provided with a first surface and a second surface opposite to the first surface; the positioning die is arranged on the first surface and used for fixing a battery; the mounting die is arranged on the first surface and is adjacent to the positioning die, a probe is further arranged in the mounting die, an adapter is arranged on the mounting die, and the adapter is used for being connected with a battery measuring instrument; the battery test board is arranged in the installation mould and is used for being electrically connected with the battery, and the probes can be in contact with the battery test board; the circuit board is stacked on one side, far away from the first surface, of the battery testing board and is electrically connected with the battery testing board, and the installation die is electrically connected with the battery testing board through the battery testing board. The battery testing device can improve the production efficiency and the product quality.

Description

Battery testing device and testing method

Technical Field

The present disclosure relates to testing technologies, and in particular, to a battery testing apparatus and a testing method.

Background

At present, with the progress of society and the development of technology, electronic devices become a very important product in people's life, and batteries are generally required in the electronic devices to provide energy for the electronic devices.

After the battery is produced, further testing needs to be performed on the product quality of the battery, for example, the voltage of the battery needs to be detected.

However, in the operation process, the battery and the main board connecting seat are easy to buckle, so that the battery and the main board connecting seat are damaged, and the quality safety is poor.

Disclosure of Invention

The embodiment of the application provides a battery testing device and a testing method, which can improve the safety in the process of testing a battery and improve the safety of a product.

The embodiment of the application provides a battery testing arrangement, includes:

a base having a first face and a second face opposite the first face;

the positioning die is arranged on the first surface and used for fixing a battery;

the mounting die is arranged on the first surface and is adjacent to the positioning die, a probe is further arranged in the mounting die, an adapter is arranged on the mounting die, and the adapter is used for being connected with a battery measuring instrument;

the battery test board is arranged in the installation mould and is used for being electrically connected with the battery, and the probes can be in contact with the battery test board;

the circuit board is stacked on one side, far away from the first surface, of the battery testing board and is electrically connected with the battery testing board, and the installation die is electrically connected with the battery testing board through the battery testing board.

The embodiment of the application also provides a battery testing method, and the battery testing device comprises the following steps:

fixing a battery in the positioning die;

scanning an identification of the battery using a scanning gun;

the battery is measured using a battery gauge.

The battery testing device and the testing method provided by the embodiment of the application comprise a base, a testing module and a testing module, wherein the base is provided with a first surface and a second surface opposite to the first surface; the positioning die is arranged on the first surface and used for fixing a battery; the mounting die is arranged on the first surface and is adjacent to the positioning die, a probe is further arranged in the mounting die, an adapter is arranged on the mounting die, and the adapter is used for being connected with a battery measuring instrument; the battery test board is arranged in the installation mould and is used for being electrically connected with the battery, and the probes can be in contact with the battery test board; the circuit board is stacked on one side, far away from the first surface, of the battery testing board and is electrically connected with the battery testing board, and the installation die is electrically connected with the battery testing board through the battery testing board. Fix the battery in the orientation mode, battery and battery survey test panel electric connection, the battery surveys test panel and installation mould electric connection, and the contact is surveyed with the battery to the probe, and the adapter is connected with the battery tester, and when testing the battery, the battery just can be tested to the direct observation battery tester, and need not be at test in-process with battery and circuit board lock joint to improve production efficiency, improve product quality.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic front view of a battery testing apparatus according to an embodiment of the present disclosure.

Fig. 2 is a schematic back view of a battery testing apparatus according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a battery testing apparatus according to an embodiment of the present application.

Fig. 4 is another schematic structural diagram of a battery testing apparatus according to an embodiment of the present disclosure.

Fig. 5 is a schematic flowchart of a battery testing method according to an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a battery testing device 100 and a testing method. The battery is used in electronic equipment. It should be noted that the electronic device may be a smart phone, a tablet computer, or other devices, and may also be a game device, an AR (Augmented Reality) device, an automobile, a data storage device, an audio playing device, a video playing device, a notebook, a desktop computing device, or other devices.

Referring to fig. 1, fig. 1 is a schematic front view of a battery testing apparatus 100 according to an embodiment of the present disclosure. The battery testing apparatus 100 includes a base 10, a positioning mold 30, a mounting mold 20, a battery testing board 40, a circuit board 50, a mounting frame 60, and a scan gun 80.

In some embodiments, the battery testing device 100 includes a base 10, a positioning mold 30, a mounting mold 20, a battery test board 40, and a circuit board 50. The base 10 has a first face 10A and a second face 10B opposite to the first face 10A. The positioning die 30 is disposed on the first surface 10A, and the positioning die 30 is used for fixing a battery. The installation mould 20 sets up first face 10A, and with the adjacent setting of location mould 30, still be provided with probe 70 in the installation mould 20, be provided with the adapter on the installation mould 20, the adapter is used for being connected with the battery measuring apparatu. The battery test board 40 is arranged in the mounting die 20, the battery test board 40 is used for being electrically connected with the battery, and the probes 70 can be in contact with the battery test board 40. The circuit board 50 is stacked on one side of the battery test board 40 far away from the first surface 10A, and is electrically connected with the battery test board 40, and the mounting die 20 is electrically connected with the battery test board 40 through the battery test board 40.

The first surface 10A is a top surface of the base 10, and the second surface 10B is a bottom surface of the base 10. The first surface 10A is used for placing the positioning die 30, the mounting die 20, the battery test board 40, and the like. The second face 10B is used to carry the entire battery test apparatus 100. Of course, the first side 10A and the second side 10B are not specific to positions, but are only used for better describing the embodiment of the present application.

It should be noted that, the positioning die 30 is disposed adjacent to the mounting die 20, which means that the mounting die 20 and the positioning die 30 are both located on the first surface 10A. In fact, the positional relationship between the positioning die 30 and the mounting die 20 on the base 10 is not particularly limited.

It should be noted that the base 10 is a rectangular parallelepiped structure, and of course, the base 10 may also be a cube structure or other structures. In the embodiment of the present application, details of the specific structure of the base 10 are not described. Wherein, a switch, a signal input hole, etc. are arranged on the base 10. The base 10 is provided with a ground point. The grounding point is used for conducting away static electricity. Preventing static electricity from damaging the circuit board 50.

It should be noted that the battery tester may be a multimeter or other power testing devices. In the embodiment of the present application, no limitation is imposed on which device is specifically adopted by the battery tester.

In the description of the present application, are electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

The battery testing device 100 provided by the embodiment of the application comprises a base 10, a first testing unit, a second testing unit and a second testing unit, wherein the base 10 is provided with a first surface 10A and a second surface 10B opposite to the first surface 10A; the positioning die 30 is arranged on the first surface 10A, and the positioning die 30 is used for fixing a battery; the mounting die 20 is arranged on the first surface 10A, is adjacent to the positioning die 30, and is further provided with a probe 70 inside the mounting die 20, and the mounting die 20 is provided with an adapter which is used for being connected with a battery measuring instrument; a battery test board 40, the battery test board 40 being disposed in the mounting mold 20, the battery test board 40 being used for electrically connecting with the battery, the probes 70 being contactable with the battery test board 40; and the circuit board 50 is overlapped on one side, away from the first surface 10A, of the battery test board 40 and is electrically connected with the battery test board 40, and the mounting die 20 is electrically connected with the battery test board 40 through the battery test board 40. Fix the battery in the location mould 30, battery and battery test panel 40 electric connection, battery test panel 40 and installation mould 20 electric connection, probe 70 and battery test panel 40 contact, the adapter is connected with the battery tester, and when testing the battery, the battery can be tested to the direct observation battery tester, and need not buckle the battery with circuit board 50 at the test in-process to improve production efficiency, improve product quality.

Referring to fig. 1, 2 and 3, the mounting frame 60 is disposed on the first surface 10A and located at an upper end of the mounting mold 20, and a scanning gun 80 is disposed on the mounting frame 60, where the scanning gun 80 is used for scanning an identifier of the battery to mark the battery.

The mark on the battery may be a two-dimensional code, a barcode, or the like. The specific presentation form of the identifier in the embodiment of the present application is not particularly limited. The scanning gun 80 scans the markings on the batteries so that the batteries that have been measured can be marked. Repeated measurements of the cell are avoided. Of course, the scan gun 80 may be connected to a computer or the like, which stores more specific information about the corresponding battery. In the implementation of the application, the battery is marked by the scanning gun 80, so that the test information of the battery can be more accurately stored. For the batch test of the batteries, the data statistics can be carried out on the batch batteries, the quality of the batteries can be controlled macroscopically, and a more effective guide is provided for the production of the batteries.

In the description of the present application, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

In some embodiments, an adjusting portion 90 is disposed on the mounting bracket 60, the scanning gun 80 is mounted on the adjusting portion 90, and the adjusting portion 90 is movable on the mounting bracket 60 to adjust the position of the scanning gun 80.

The position of the scanning gun 80 is adjusted by the movement of the adjusting part 90, so that the scanning gun 80 can better correspond to the battery, and the scanning gun 80 can conveniently scan the mark of the battery.

In some embodiments, the adjusting portion 90 includes a sliding block 91, a connecting plate 92, and a mounting plate 93, the mounting frame 60 is provided with a sliding rail 61, the sliding block 91 is slidable in the sliding rail 61, the connecting plate 92 is fixedly connected to the sliding block 91, the connecting plate 92 is provided with a sliding track 921, the mounting plate 93 is slidable in the sliding track 921, and the scanning gun 80 is fixedly connected to the mounting plate 93.

The slide block 91 slides in the slide rail 61, and the relative height of the scanner gun 80 from the battery can be adjusted, and the relative position of the scanner gun 80 and the battery surface can be adjusted when the mounting plate 93 slides in the slide passage 921. Through the sliding block 91 and the movement in the sliding rail 61 and the sliding of the mounting plate 93 in the slide way 921, the scanning gun 80 can be adjusted from multiple directions, so that the position adjustment of the scanning gun 80 is more flexible. The method can better correspond to the identification of the battery.

In some embodiments, the sliding rail 61 extends perpendicular to the first surface 10A, and the mounting plate 93 is parallel to the first surface 10A. The extending direction of the slide rail 61 is perpendicular to the first surface 10A, the adjusting part 90 moves in the slide rail 61, and the adjusting part 90 can move in the slide rail 61 to drive the scanning gun 80 to move, so that the relative position of the scanning gun 80 and the battery can be adjusted. The adjusting part can drive the scanning gun 80 to move through the movement of the adjusting part on the sliding rail 61, so that the scanning gun 80 and the battery can be adjusted to be in parallel.

It is understood that the extending direction of the slide rail 61 may not be perpendicular to the first surface 10A, and the extending direction of the slide rail 61 may be inclined to the first surface 10A. Of course, the mounting plate 93 may be disposed obliquely to the first surface 10A.

In some embodiments, the mounting plate 93 may also rotate along the attachment plate 92, such that the scan gun 80 may also rotate with the mounting plate 93. With this structure, the scanning angle of the scanning gun 80 is changed to better correspond to the battery.

The positioning die 30 is fixedly connected with the base 10, a positioning cavity 31 is formed in the positioning die 30, the battery is placed in the positioning cavity 31, the positioning die 30 further comprises a limiting portion 32, and the size of the positioning cavity 31 can be adjusted by the limiting portion 32.

The stability of the battery can be maintained by fixing the battery in the positioning cavity 31. Thus, the stability of the electrical connection is ensured when the battery is tested. The test of the battery is more accurate. The size of the positioning cavity 31 is adjusted by the limiting part 32. This allows the battery test apparatus 100 to accommodate more medium size batteries. Making the battery test apparatus 100 more versatile.

In some embodiments, the position-limiting portion 32 includes a first positioning block 321 and a second positioning block 322, the first positioning block 321 is slidable along a first direction in the positioning cavity 31 and is fixed in the positioning cavity 31, the second positioning block 322 is slidable along a second direction in the positioning cavity 31 and is fixed in the positioning cavity 31, and the first direction is perpendicular to the second direction.

The first positioning block 321 limits the battery in the first direction, and the second positioning block 322 limits the battery in the second direction. The battery is limited from multiple directions. The fixation of the battery can be more secured.

It should be noted that the limiting portion 32 may include one positioning block, two positioning blocks, or even three positioning blocks to change the size of the positioning cavity 31. The specific number of the limiting blocks in the limiting part 32 is not limited in the embodiment of the present application. Of course, the first direction and the second direction may be arranged crosswise. In the embodiment of the present application, other relative positional relationships between the first direction and the second direction are not specifically limited.

In some embodiments, handles 11 are disposed on two sides of the base 10, the handles 11 include a mounting seat 111 and a handle portion 112, the mounting seat 111 is fixed on a side wall of the base 10, and the handle portion 112 is rotatably connected to the mounting seat 111.

In some embodiments, the base 10, the positioning mold 30, the mounting mold 20, and the mounting frame are made of antistatic materials. The antistatic material may include an antistatic organic glass plate (antistatic acrylic plate), an antistatic PVC plate (antistatic PVC plate), an antistatic PC plate (antistatic polycarbonate plate), an antistatic PET plate (polyethylene terephthalate) and the like. In the embodiment of the present application, it is not particularly limited which kind of the antistatic material is specifically used for the base 10, the positioning die 30, the mounting die 20, and the mounting frame.

Referring to fig. 4, another structural schematic diagram of a battery testing apparatus 100 is provided in the present embodiment. The difference between the present embodiment and the above embodiments is that a transparent window 12 is disposed on the base 10 in the present embodiment. The base 10 includes a receiving space therein. The accommodating space may be used to accommodate a power tester. The cell tester is placed in the transparent window 12. The test data of the power tester can be observed through the transparent window 12.

In the embodiment of the present application, the battery tester is placed in the accommodating space in the base 10. Test data for the cell was observed by looking directly through the transparent window. This way the electronic battery gauge can be protected.

The battery testing device 100 and the testing method provided by the embodiment of the application comprise a base 10, a testing module and a testing module, wherein the base 10 is provided with a first surface 10A and a second surface 10B opposite to the first surface 10A; the positioning die 30 is arranged on the first surface 10A, and the positioning die 30 is used for fixing a battery; the mounting die 20 is arranged on the first surface 10A, is adjacent to the positioning die 30, and is further provided with a probe 70 inside the mounting die 20, and the mounting die 20 is provided with an adapter which is used for being connected with a battery measuring instrument; a battery test board 40, the battery test board 40 being disposed in the mounting mold 20, the battery test board 40 being used for electrically connecting with the battery, the probes 70 being contactable with the battery test board 40; and the circuit board 50 is overlapped on one side, away from the first surface 10A, of the battery test board 40 and is electrically connected with the battery test board 40, and the mounting die 20 is electrically connected with the battery test board 40 through the battery test board 40. Fix the battery in the location mould 30, battery and battery test panel 40 electric connection, battery test panel 40 and installation mould 20 electric connection, probe 70 and battery test panel 40 contact, the adapter is connected with the battery tester, and when testing the battery, the battery can be tested to the direct observation battery tester, and need not buckle the battery with circuit board 50 at the test in-process to improve production efficiency, improve product quality.

Referring to fig. 5, the embodiment of the present application further includes a battery testing method, which uses the battery testing apparatus 100 to test a battery. The specific testing steps comprise:

and 201, fixing the battery in the positioning cavity 31.

It should be noted that the battery is placed in the positioning cavity 31, and the positions of the first positioning block 321 and the second positioning block are moved, so that the battery is firmly fixed in the positioning cavity 31.

The identity of the battery is scanned 202 using the scanning gun 80.

The mark on the battery may be a two-dimensional code, a barcode, or the like. The specific presentation form of the identifier in the embodiment of the present application is not particularly limited. The scanning gun 80 scans the markings on the batteries so that the batteries that have been measured can be marked. Repeated measurements of the cell are avoided. Of course, the scan gun 80 may be connected to a computer or the like, which stores more specific information about the corresponding battery. In the implementation of the application, the battery is marked by the scanning gun 80, so that the test information of the battery can be more accurately stored. For the batch test of the batteries, the data statistics can be carried out on the batch batteries, the quality of the batteries can be controlled macroscopically, and a more effective guide is provided for the production of the batteries.

And 203, measuring the battery by using a battery measuring instrument.

It should be noted that the battery measuring instrument is a multimeter. After the universal meter is connected with the adapter, the measurement data of the battery can be obtained by directly observing the universal meter.

By adopting the method, the battery is fixed in the positioning die 30, the battery is electrically connected with the battery testing board 40, the battery testing board 40 is electrically connected with the mounting die 20, the probe 70 is contacted with the battery testing board 40, the adapter is connected with the battery tester, when the battery is tested, the battery can be tested by directly observing the battery tester, and the battery and the circuit board 50 do not need to be buckled in the testing process, so that the production efficiency is improved, and the product quality is improved.

The cover plate, the manufacturing method of the cover plate and the electronic device provided by the embodiments of the present application are described in detail above. The principles and implementations of the present application are described herein using specific examples, which are presented only to aid in understanding the present application. Meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A battery testing apparatus, comprising:

a base having a first face and a second face opposite the first face;

the positioning die is arranged on the first surface and used for fixing a battery;

the mounting die is arranged on the first surface and is adjacent to the positioning die, a probe is further arranged in the mounting die, an adapter is arranged on the mounting die, and the adapter is used for being connected with a battery measuring instrument;

the battery test board is arranged in the installation mould and is used for being electrically connected with the battery, and the probes can be in contact with the battery test board;

the circuit board is stacked on one side, far away from the first surface, of the battery testing board and is electrically connected with the battery testing board, and the installation die is electrically connected with the battery testing board through the battery testing board.

2. The battery testing device of claim 1, further comprising a mounting frame disposed on the first surface and located at an upper end of the mounting die, wherein a scanning gun is disposed on the mounting frame, and the scanning gun is configured to scan the identifier of the battery to mark the battery.

3. The battery testing apparatus of claim 2, wherein the mounting frame is provided with an adjustment portion, the scan gun being mounted on the adjustment portion, the adjustment portion being movable on the mounting frame to adjust a position of the scan gun.

4. The battery testing device according to claim 3, wherein the adjusting portion comprises a sliding block, a connecting plate and a mounting plate, a sliding rail is arranged on the mounting frame, the sliding block can slide in the sliding rail, the connecting plate is fixedly connected with the sliding block, a slide way is arranged on the connecting plate, the mounting plate can slide in the slide way, and the scanning gun is fixedly connected with the mounting plate.

5. The battery testing device of claim 4, wherein the sliding rail extends perpendicularly to the first surface, and the mounting plate is parallel to the first surface.

6. The battery testing device according to claim 1, wherein the positioning mold is fixedly connected with the base, a positioning cavity is formed in the positioning mold, the battery is placed in the positioning cavity, the positioning mold further comprises a limiting portion, and the size of the positioning cavity can be adjusted by the limiting portion.

7. The battery testing device according to claim 6, wherein the position-limiting portion comprises a first positioning block and a second positioning block, the first positioning block is slidable along a first direction in the positioning cavity and fixed in the positioning cavity, the second positioning block is slidable along a second direction in the positioning cavity and fixed in the positioning cavity, and the first direction is perpendicular to the second direction.

8. The battery testing device of claim 1, wherein handles are disposed on two sides of the base, each handle comprises a mounting seat and a handle portion, the mounting seat is fixed on the side wall of the base, and the handle portion is rotatably connected with the mounting seat.

9. The battery testing device of any one of claims 1 to 8, wherein the base, the positioning die, the mounting die and the mounting frame are made of antistatic materials.

10. A battery testing method characterized by using the battery testing apparatus according to any one of claims 1 to 8, comprising the steps of:

fixing a battery in the positioning cavity;

scanning an identification of the battery using a scanning gun;

the battery is measured using a battery gauge.

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