CN212207635U - Device for detecting battery connector of charging cabinet - Google Patents

Abstract

The utility model relates to a device for detecting a battery connector of a charging cabinet, which comprises a battery plugging unit, wherein the battery plugging unit is used for pulling out a rechargeable battery from a battery connector connected with the rechargeable battery, dragging the rechargeable battery along the pulling-out direction for a set distance, and then reversely pushing the rechargeable battery to connect the rechargeable battery to the battery connector again; the battery plugging unit repeatedly executes the actions for set times or time; in each action, the battery plugging and unplugging unit measures the torque of the rechargeable battery acting on the battery connector so as to judge the aging degree of the battery connector; the battery plugging unit comprises a reciprocating mechanism for dragging the rechargeable battery and a platform for bearing the rechargeable battery. Implement the utility model discloses a device for detecting battery connector of cabinet that charges has following beneficial effect: the test can be automatically carried out, the time is saved, the efficiency is high, and the cost is lower.

Description

Device for detecting battery connector of charging cabinet

Technical Field

The utility model relates to a battery charging field, more specifically say, relate to a device for detecting battery connector of cabinet that charges.

Background

New energy electric vehicles or electric bicycles use a large number of lithium batteries, which need to be continuously charged. Initially, these batteries were charged directly on electric vehicles or bicycles, even when they were placed indoors, which resulted in many accidents and even irreparable damage, such as fire. Then people use the special charging cabinet placed at an outdoor safe position to charge the detached battery independently so as to ensure the charging convenience and safety. These charging cabinets are typically capable of charging multiple batteries simultaneously, with a separate charging interface being provided for each battery. Because the battery charging is mainly performed by plug-in electrode type charging, after the battery charging interface (battery connectors) is subjected to plug-in operation for many times, a certain electrode may be worn first, and finally the whole charging cabinet is out of work, so that a plurality of plug-in electrode connectors in the charging cabinet need to be subjected to aging test to ensure that a plurality of battery connectors in the charging cabinet have uniform service life. Currently, this test is performed by manually inserting and extracting the battery repeatedly, which is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned artifical repeated going on of prior art, with higher costs, can not quantitative measurement's defect, provide one kind make above-mentioned test can go on automatically, high-efficient, the lower device that is used for detecting the battery connector of cabinet that charges of saving time.

The utility model provides a technical scheme that its technical problem adopted is: the device for detecting the battery connector of the charging cabinet comprises a battery plugging unit, a battery plugging unit and a battery detecting unit, wherein the battery plugging unit is used for pulling out a rechargeable battery from the battery connector connected with the rechargeable battery, dragging the rechargeable battery for a set distance along the pulling-out direction, and then reversely pushing the rechargeable battery to enable the rechargeable battery to be connected to the battery connector again; the battery plugging unit repeatedly executes the actions for set times or time; in each action, the battery plugging and unplugging unit measures the torque of the rechargeable battery acting on the battery connector so as to judge the aging degree of the battery connector; the battery plugging unit comprises a reciprocating mechanism for dragging the rechargeable battery and a platform for bearing the rechargeable battery.

Furthermore, the reciprocating mechanism comprises an air cylinder which drives an expansion rod of the air cylinder to perform linear reciprocating motion, the air cylinder is installed on an installation sheet, the installation sheet is installed on the platform, and the expansion rod of the air cylinder extends out of the edge of the platform so as to act on the battery.

Furthermore, the front end of the telescopic rod is provided with an air cylinder mounting piece, and a battery clamp used for connecting the rechargeable battery so as to apply acting force to the rechargeable battery is arranged on the air cylinder mounting piece.

Furthermore, a torque sensor is arranged between the battery clamp and the cylinder mounting piece and senses the pressure or the tensile force borne by the position of the torque sensor.

Further, the torque sensor wirelessly transmits the torque value measured by the torque sensor to an external designated device.

Furthermore, a movement assisting module is further arranged at the set position of the platform and used for reducing the friction force of the rechargeable battery when the rechargeable battery moves on the platform, so that the rechargeable battery is convenient to move.

Further, the movement auxiliary module comprises a roller strip rotating along the movement direction of the telescopic rod.

Furthermore, the battery plugging and unplugging device further comprises a manual adjusting support, the battery plugging and unplugging unit is connected to the manual adjusting support, and the position of the battery plugging and unplugging unit is adjusted through the manual adjusting support to enable the battery plugging and unplugging unit to be aligned to the selected rechargeable battery.

Further, the manual regulation support includes altitude mixture control module, level (l) ing module and platform mounting panel, the platform mounting panel is connected on the level (l) ing module, the level (l) ing module is connected on the altitude mixture control module, battery plug unit installs on the platform mounting panel.

Implement the utility model discloses a device for detecting battery connector of cabinet that charges has following beneficial effect: because the battery plugging unit is arranged, the rechargeable battery is dragged or pushed by the mechanism which does linear reciprocating motion, so that the battery can be automatically pulled out of or connected with the battery connector of the charging cabinet, the battery plugging and unplugging do not need to be carried out manually, and a large amount of testing time and labor cost can be saved; simultaneously, measure the moment that acts on above-mentioned straight reciprocating motion mechanism when plug at every turn, can carry out quantitative measurement to the battery connector of above-mentioned cabinet that charges, can judge the degree of wear of above-mentioned battery connector comparatively accurately. Therefore, the test can be automatically carried out, time and efficiency are saved, and the cost is low.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention for detecting a battery connector of a charging cabinet;

FIG. 2 is a schematic structural diagram of a battery plugging unit in the embodiment;

fig. 3 is a schematic structural view of a manual adjustment bracket in the embodiment.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1 and 2, in an embodiment of the present invention, the device for detecting the battery connector of the charging cabinet comprises a battery plugging unit, wherein the battery plugging unit is used for pulling out the rechargeable battery from the battery connector connected with the rechargeable battery, dragging the rechargeable battery along the pulling direction for a set distance, and then pushing the rechargeable battery in the opposite direction to connect the rechargeable battery to the battery connector again; the battery plugging unit repeatedly executes the actions for set times or time; in each action, the battery plugging and unplugging unit measures the torque of the rechargeable battery acting on the battery connector so as to judge the abrasion or aging degree of the battery connector; the battery plugging unit comprises a reciprocating mechanism for dragging the rechargeable battery and a platform 7 for bearing the rechargeable battery. Specifically, referring to fig. 2, the reciprocating mechanism comprises a cylinder 5 for driving a telescopic rod of the cylinder to perform linear reciprocating motion, the cylinder 5 is mounted on a mounting plate 8, the mounting plate 8 is mounted on the platform 7, and the telescopic rod of the cylinder 5 can extend out of the edge of the platform or extend to the edge of the platform 7 so as to act on the battery (not shown in the figure).

As shown in fig. 1 and 2, a cylinder mounting piece 12 is disposed at a front end (an end far away from a cylinder body of the cylinder 5) of the telescopic rod, and a battery clamp 11 for connecting the rechargeable battery so as to apply an acting force to the rechargeable battery is disposed on the cylinder mounting piece 12. A torque sensor 10 is further arranged between the battery clamp 11 and the cylinder mounting piece 12, and the torque sensor 10 senses the pressure or tension borne by the position where the torque sensor is located. In the present embodiment, the torque sensor 10 wirelessly transmits the torque value measured by the torque sensor to an external designated device.

When the charging cabinet works, external compressed air enters the electromagnetic valve 6 through the air pressure regulating filter 2, the electromagnetic valve 6 is controlled by an external control circuit, in one condition, when the compressed air enters the air cylinder 5 through the electromagnetic valve 6, the telescopic rod of the air cylinder 5 is pushed to withdraw the air cylinder body, the battery connected with the battery clamp 11 is pulled out, the battery is pulled out from a battery connector of the charging cabinet, and meanwhile, the torque sensor 10 records stress parameters and sends the stress parameters; when the air in the air cylinder 5 is exhausted, the telescopic rod extends out, so that the battery clamp 11 pushes the battery to be inserted back into the battery connector, and the force condition is recorded and sent out by the torque sensor 10. By repeating the operation, the automatic test of the battery electric connector on the charging cabinet can be realized.

In this embodiment, the battery is moved on the platform 7 when pulling out and pushing in the battery, and the battery is heavy, which generates a large friction force and requires a large force to move the battery. In order to save energy and facilitate battery movement, in this embodiment, a movement assisting module is further disposed on a set position of the platform 7, and the movement assisting module is configured to reduce friction force when the rechargeable battery moves on the platform, so that the rechargeable battery is convenient to move. As shown in fig. 2, the movement assisting module includes a roller bar 9 rotating in the moving direction of the telescopic bar. Thus, the sliding of the battery on the platform 7 becomes a movement on the roller strip 9, which can be achieved with less external force, saving energy and reducing wear on the platform 7 and the battery itself.

In this embodiment, a charging cabinet generally includes a plurality of independent locations for placing and charging batteries, which means that a charging cabinet includes a plurality of independent battery connectors disposed at different locations. In order to facilitate the battery plugging unit to be aligned to the charging positions at different positions, in this embodiment, the device further includes a manual adjusting bracket, the battery plugging unit is connected to the manual adjusting bracket, and the position of the battery plugging unit is adjusted by the manual adjusting bracket to be aligned to the selected rechargeable battery. Referring to fig. 1 and 3, in the present embodiment, the manual adjustment bracket includes a height adjustment module 4, a horizontal adjustment module 3, a base 1, and a platform mounting plate (a component connected to the right side of the horizontal adjustment module 3 in fig. 3), the platform mounting plate is connected to the horizontal adjustment module 3, the horizontal adjustment module 3 is connected to the height adjustment module 4, and the battery plugging unit is mounted on the platform mounting plate.

In a word, the manual adjusting bracket is composed of a base 1, a horizontal adjusting module 3 and a height adjusting module 4, and the position can be manually adjusted. The platform mounting panel is installed at horizontal adjustment module 3, can follow regulation height and flexible position. The platform 7 is provided with an installation sheet 8, the cylinder 5 is installed on the installation sheet 8, the front end of the cylinder 5 is provided with a cylinder installation sheet 12, the cylinder installation sheet 12 is provided with a torque sensor 10, and the front end of the torque sensor 10 is provided with a battery clamp 11. Meanwhile, the roller strip 9 is installed on the platform 7, when the battery clamp 11 pulls out the battery, the roller strip 9 on the platform 7 can support the battery to prevent the battery from falling down, the battery is pulled out and then inserted into the charging cabinet, the torque sensor 10 in the middle can record the torque parameters of pulling out and inserting, and the pulling out and inserting are carried out continuously, so that the purpose of testing the service life of each battery connector in the charging cabinet is achieved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. A device for detecting a battery connector of a charging cabinet is characterized by comprising a battery plugging unit, wherein the battery plugging unit is used for pulling a rechargeable battery out of the battery connector connected with the rechargeable battery, dragging the rechargeable battery for a set distance along the pulling direction, and then reversely pushing the rechargeable battery to be connected with the battery connector again; the battery plugging unit repeatedly executes the actions for set times or time; in each action, the battery plugging and unplugging unit measures the torque of the rechargeable battery acting on the battery connector so as to judge the aging degree of the battery connector; the battery plugging unit comprises a reciprocating mechanism for dragging the rechargeable battery and a platform for bearing the rechargeable battery.

2. The apparatus for testing battery connectors of a charging cabinet according to claim 1, wherein said reciprocating mechanism comprises a cylinder for driving a telescopic rod thereof to perform a linear reciprocating motion, said cylinder being mounted on a mounting plate, said mounting plate being mounted on said platform, the telescopic rod of said cylinder extending beyond the edge of said platform so as to act on said battery.

3. The apparatus for testing the battery connector of the charging cabinet according to claim 2, wherein the front end of the telescopic rod is provided with a cylinder mounting plate, and the cylinder mounting plate is provided with a battery clamp for connecting the rechargeable battery so as to apply a force thereto.

4. The device for detecting the battery connector of the charging cabinet as claimed in claim 3, wherein a torque sensor is further arranged between the battery clamp and the cylinder mounting plate, and the torque sensor senses the pressure or tension applied to the position of the torque sensor.

5. The apparatus for testing a battery connector of a charging cabinet according to claim 4, wherein the torque sensor wirelessly transmits the torque value measured by the torque sensor to an external designated device.

6. The device for detecting the battery connector of the charging cabinet as claimed in claim 5, wherein a movement assisting module is further disposed on the platform at a predetermined position, and the movement assisting module is used for reducing the friction force when the rechargeable battery moves on the platform, so that the rechargeable battery is convenient to move.

7. The device for testing battery connectors of a charging cabinet according to claim 6, wherein the movement assistance module comprises a roller bar that rotates in the direction of movement of the telescoping rod.

8. The device for testing the battery connectors of the charging cabinet according to any one of claims 1 to 7, further comprising a manual adjusting bracket, wherein the battery plugging unit is connected to the manual adjusting bracket, and the position of the battery plugging unit is adjusted by the manual adjusting bracket to be aligned with the selected rechargeable battery.

9. The apparatus for testing battery connectors of a charging cabinet according to claim 8, wherein the manual adjustment bracket comprises a height adjustment module, a level adjustment module, and a platform mounting plate, the platform mounting plate is connected to the level adjustment module, the level adjustment module is connected to the height adjustment module, and the battery plugging unit is mounted on the platform mounting plate.

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