CN218727874U - Multifunctional battery test equipment - Google Patents

Abstract

The utility model provides a multifunctional battery test equipment, include: the device comprises a detection device and a main control device; the detection device is characterized in that a mobile power supply connector, a battery module wiring assembly and a main control device wiring assembly are arranged on the detection device; the energy storage device and the alternating current device are arranged in the main control device and are connected; the main control device wiring assembly is connected with the energy storage device. Through set up portable power source joint and battery module wiring subassembly on detection device for battery test equipment can connect portable power source and battery module simultaneously at the during operation, has improved the detection efficiency to the battery. Meanwhile, the energy storage device is installed in the main control device, so that the electric energy released in the discharging link is collected into the energy storage device, and when the batteries are required to be charged and detected, the stored electric energy is converted by the energy storage device under the action of the alternating current device and is transmitted to various batteries required to be charged and detected, and the utilization rate of the electric energy is improved.

Description

Multifunctional battery test equipment

Technical Field

The utility model relates to a battery testing technology field especially relates to a multi-functional battery test equipment.

Background

In the production process of the battery, the battery needs to be charged, and parameters such as internal resistance, open-circuit voltage and the like of the battery need to be detected. The existing process is that a battery is placed on a charging cabinet for charging, and then the battery is taken down and taken to detection equipment for parameter detection; meanwhile, the traditional detection method can only detect a single type of battery, such as a mobile power supply or a battery module, and not being able to detect them simultaneously, which reduces the overall efficiency of the battery detection.

Meanwhile, in the process of battery detection, a discharging link can be involved, and the traditional battery detection device cannot collect electric energy in the discharging link, so that the waste of the electric energy is caused.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention has been made to provide a multifunctional battery testing apparatus that overcomes or at least partially solves the above-mentioned problems.

In order to solve the above problem, the utility model discloses a multifunctional battery test equipment, include: the device comprises a detection device and a main control device; it is characterized in that the preparation method is characterized in that,

the detection device is provided with a mobile power supply connector, a battery module wiring assembly and a main control device wiring assembly;

an energy storage device and an alternating current device are arranged in the main control device, and the energy storage device is connected with the alternating current device;

the main control device wiring assembly is connected with the energy storage device.

Preferably, the battery module wiring assembly comprises a module first electrode interface, a module electrode connecting wire and a module second electrode interface;

one end of the module electrode connecting wire is connected with the first electrode interface of the module, and the other end of the module electrode connecting wire is connected with the second electrode interface of the module.

Preferably, the module first electrode interface comprises a module first positive electrode interface and a module first negative electrode interface;

the module electrode connecting wire comprises a module positive electrode connecting wire and a module negative electrode connecting wire;

the module second electrode interface comprises a module second positive electrode interface and a module second negative electrode interface;

two ends of the module positive electrode connecting wire are respectively connected with the module first positive electrode interface and the module second positive electrode interface;

and two ends of the module negative electrode connecting wire are respectively connected with the module first negative electrode interface and the module second negative electrode interface.

Preferably, the main control device wiring assembly comprises a main control machine first interface, a main control machine connecting wire and a main control machine second interface;

one end of the main control machine connecting line is connected with the first interface of the main control machine, and the other end of the main control machine connecting line is connected with the second interface of the main control machine;

and the second interface of the main control computer is connected with the energy storage device.

Preferably, the first interface of the main control computer comprises a first positive interface of the main control computer and a first negative interface of the main control computer;

the main control machine connecting wire comprises a main control machine anode connecting wire and a main control machine cathode connecting wire;

the second interface of the main control machine comprises a second positive interface of the main control machine and a second negative interface of the main control machine;

two ends of the main control machine anode connecting wire are respectively connected with the main control machine first anode interface and the main control machine second anode interface;

and two ends of the main control machine negative electrode connecting wire are respectively connected with the main control machine first negative electrode interface and the main control machine second negative electrode interface.

Preferably, the device further comprises a control interface device;

the control interface device is connected with the main control device.

Preferably, the detection device further comprises a temperature sensing device and a temperature alarm lamp;

the temperature sensing device is connected with the temperature alarm lamp.

Preferably, the detection device further comprises a detection main shell, and a ventilation grille is arranged on the detection main shell;

the temperature detection part in the temperature sensing device is arranged inside the detection main shell, and the temperature alarm lamp is arranged outside the detection main shell;

wherein, the ventilation grid is used for carrying out the thermal treatment to detection device.

Preferably, the detection device further comprises a mobile power supply placing plate;

the mobile power supply placing plate is arranged close to the mobile power supply joint.

Preferably, the outer surface of the mobile power supply placing plate is covered with a flame-retardant protective layer.

The utility model discloses a following advantage: through set up portable power source joint and battery module wiring subassembly on detection device for battery test equipment can connect portable power source and battery module simultaneously at the during operation, has improved the detection efficiency to the battery. Meanwhile, the energy storage device is installed in the main control device, so that the electric energy released in the discharging link is collected into the energy storage device, and when the charging detection of each battery is needed, the stored electric energy is converted by the energy storage device under the action of the alternating current device and is transmitted to various batteries needing to be charged and detected, and the utilization rate of the electric energy is improved.

Drawings

Fig. 1 is the overall structure schematic diagram of the multifunctional battery testing device of the present invention.

The reference numbers in the drawings of the specification are as follows:

temperature alarm lamp 1, ventilation grid 2, temperature-sensing device 3, the first negative electrode interface 4 of module, the first positive electrode interface 5 of module, module second positive electrode interface 6, module second negative electrode interface 7, the first positive electrode interface 8 of main control computer, the first negative electrode interface 9 of main control computer, the anodal interface 10 of main control computer second, main control computer second negative electrode interface 11, energy memory 12, exchange device 13, main control device 14, control interface device 15, portable power source places board 16, portable power source connects 17.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, the overall structure diagram of the multifunctional battery testing device of the present invention is shown, which specifically includes: the detection device and the main control device 14; it is characterized in that the preparation method is characterized in that,

the detection device is provided with a mobile power supply connector 17, a battery module wiring assembly and a main control device 14 wiring assembly;

an energy storage device 12 and an alternating current device 13 are arranged in the main control device 14, and the energy storage device 12 is connected with the alternating current device 13;

the main control device 14 is connected with the energy storage device 12. More specifically, through set up portable power source connector 17 and battery module wiring subassembly on detection device for battery test equipment can connect portable power source and battery module simultaneously at the during operation, has improved the detection efficiency to the battery. Meanwhile, the energy storage device 12 is installed in the main control device 14, so that the electric energy released in the discharging link is collected into the energy storage device 12, and when the charging detection of each battery is required, the energy storage device 12 converts the stored electric energy under the action of the alternating current device 13 and transmits the converted electric energy to various batteries required to be charged and detected, and the utilization rate of the electric energy is improved.

The embodiment of this application is through setting up portable power source joint 17 and battery module wiring assembly on detection device for battery test equipment can connect portable power source and battery module simultaneously at the during operation, has improved the detection efficiency to the battery. Meanwhile, the energy storage device 12 is installed in the main control device 14, so that the electric energy released in the discharging link is collected into the energy storage device 12, and when each battery needs to be charged and detected, the energy storage device 12 transmits the stored electric energy to various batteries needing to be charged and detected under the action of the alternating current device 13, and the utilization rate of the electric energy is improved.

Hereinafter, a multifunctional battery testing apparatus in the present exemplary embodiment will be further described.

As an example, the battery module wiring assembly includes a module first electrode interface, a module electrode connection line, and a module second electrode interface;

one end of the module electrode connecting wire is connected with the first electrode interface of the module, and the other end of the module electrode connecting wire is connected with the second electrode interface of the module.

The module first electrode interface comprises a module first positive electrode interface 5 and a module first negative electrode interface 4;

the module electrode connecting wire comprises a module positive electrode connecting wire and a module negative electrode connecting wire;

the module second electrode interface comprises a module second positive electrode interface 6 and a module second negative electrode interface 7;

two ends of the module positive electrode connecting wire are respectively connected with the module first positive electrode interface 5 and the module second positive electrode interface 6;

and two ends of the module negative electrode connecting wire are respectively connected with the module first negative electrode interface 4 and the module second negative electrode interface 7. More specifically, since the battery module is generally provided with positive and negative interfaces, in order to enable the detection device to be connected with the battery module, the first electrode interface of the module, the electrode connection line of the module and the second electrode interface of the module in the battery module wiring assembly are provided with corresponding positive and negative differences. The positive electrode interface of the battery module is connected with the second positive electrode interface 6 of the module, and the negative electrode interface of the battery module is connected with the second negative electrode interface 7 of the module. It should be noted that, in order to ensure the stability of the current in the operation process, the module electrode connecting wire is also connected with an anderson connector.

As an example, the wiring assembly of the main control device 14 includes a first interface of a main control computer, a connection line of the main control computer, and a second interface of the main control computer;

one end of the main control machine connecting line is connected with the first interface of the main control machine, and the other end of the main control machine connecting line is connected with the second interface of the main control machine;

and the second interface of the main control computer is connected with the energy storage device 12.

The first interface of the main control machine comprises a first anode interface 8 of the main control machine and a first cathode interface 9 of the main control machine;

the main control machine connecting wire comprises a main control machine anode connecting wire and a main control machine cathode connecting wire;

the second interface of the main control machine comprises a second positive electrode interface 10 of the main control machine and a second negative electrode interface 11 of the main control machine;

two ends of the positive connecting wire of the main control machine are respectively connected with the first positive interface 8 of the main control machine and the second positive interface 10 of the main control machine;

and two ends of the negative electrode connecting wire of the main control machine are respectively connected with the first negative electrode interface 9 of the main control machine and the second negative electrode interface 11 of the main control machine. More specifically, since the energy storage device 12 is provided with positive and negative interfaces, in order to enable the detection device to be connected with the energy storage device 12, the first interface of the main control computer, the connection line of the main control computer, and the second interface of the main control computer in the wiring assembly of the main control device 14 are provided with corresponding positive and negative differences. The positive interface of the energy storage device 12 is connected with the second positive interface 10 of the main control machine, and the negative interface of the energy storage device 12 is connected with the second negative interface 11 of the main control machine.

As an example, a control interface device 15;

the control interface device 15 is connected to the main control device 14. More specifically, the control interface device 15 is used for various types of information of the battery testing equipment during operation, such as voltage, current, temperature and the like during the capacity test of the mobile power supply and the battery module.

As an example, the detection device further comprises a temperature sensing device 3 and a temperature alarm lamp 1;

the temperature sensing device 3 is connected with the temperature alarm lamp 1. More specifically, the temperature sensing device 3 is used for detecting the overall temperature of the detection device during operation. When the overall temperature of the detection device is higher than a predetermined temperature value, the temperature alarm lamp 1 emits light to remind an operator of the temperature abnormality of the detection device.

As an example, the detection device further comprises a detection main shell, wherein a ventilation grille 2 is arranged on the detection main shell;

the temperature detection part in the temperature sensing device 3 is arranged inside the detection main shell, and the temperature alarm lamp 1 is arranged outside the detection main shell;

the ventilation grille 2 is used for carrying out heat dissipation treatment on the detection device. More specifically, since the detection device generates heat during operation, the detection device is provided with a ventilation grill 2 in order to reduce the heat.

As an example, the detection device further includes a mobile power supply placing board 16;

the portable power source placement board 16 is provided near the portable power source connector 17. More specifically, in order to facilitate placement of the portable power source, a portable power source placement board 16 is provided at the portable power source connector 17. The portable power source connector 17 may be of a micro-usb type, a lightning type, or a type-c type.

As an example, the outer surface of the mobile power placing panel 16 is covered with a flame retardant protective layer. More specifically, in order to prevent a burning accident from occurring in the portable power source placing panel 16 during the operation, the outer surface of the portable power source placing panel 16 is covered with a flame retardant protective layer made of a flame retardant protective material.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "include", "including" or any other variations thereof are intended to cover non-exclusive inclusion, so that a process, method, article, or terminal device including a series of elements includes not only those elements but also other elements not explicitly listed or inherent to such process, method, article, or terminal device. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or terminal apparatus that comprises the element.

The above detailed description is given to the multifunctional battery testing device provided by the present invention, and the specific examples are applied herein to explain the principle and the implementation of the present invention, and the description of the above embodiments is only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (10)

1. A multifunctional battery test apparatus comprising: the device comprises a detection device and a main control device; it is characterized in that the preparation method is characterized in that,

the detection device is provided with a mobile power supply connector, a battery module wiring assembly and a main control device wiring assembly;

an energy storage device and an alternating current device are arranged in the main control device, and the energy storage device is connected with the alternating current device;

the main control device wiring assembly is connected with the energy storage device.

2. The multifunctional battery testing apparatus of claim 1, wherein the battery module wiring assembly comprises a module first electrode interface, a module electrode connection line, and a module second electrode interface;

one end of the module electrode connecting wire is connected with the first electrode interface of the module, and the other end of the module electrode connecting wire is connected with the second electrode interface of the module.

3. The multifunctional battery test apparatus of claim 2 wherein the module first electrode interface comprises a module first positive electrode interface and a module first negative electrode interface;

the module electrode connecting wire comprises a module positive electrode connecting wire and a module negative electrode connecting wire;

the module second electrode interface comprises a module second positive electrode interface and a module second negative electrode interface;

two ends of the module positive electrode connecting wire are respectively connected with the module first positive electrode interface and the module second positive electrode interface;

and two ends of the module negative electrode connecting wire are respectively connected with the module first negative electrode interface and the module second negative electrode interface.

4. The multifunctional battery testing device of claim 1, wherein the master control device wiring assembly comprises a master control machine first interface, a master control machine connecting wire and a master control machine second interface;

one end of the main control machine connecting line is connected with the first interface of the main control machine, and the other end of the main control machine connecting line is connected with the second interface of the main control machine;

and the second interface of the main control computer is connected with the energy storage device.

5. The multifunctional battery testing device of claim 1, wherein the first interface of the master control machine comprises a first positive interface of the master control machine and a first negative interface of the master control machine;

the main control machine connecting line comprises a main control machine anode connecting line and a main control machine cathode connecting line;

the second interface of the main control machine comprises a second positive interface of the main control machine and a second negative interface of the main control machine;

two ends of the main control machine anode connecting wire are respectively connected with the main control machine first anode interface and the main control machine second anode interface;

and two ends of the main control machine negative electrode connecting wire are respectively connected with the main control machine first negative electrode interface and the main control machine second negative electrode interface.

6. The multifunctional battery testing apparatus of claim 1, further comprising a control interface device;

the control interface device is connected with the main control device.

7. The multifunctional battery testing apparatus according to claim 1, wherein the detection means further comprises a temperature sensing means and a temperature alarm lamp;

the temperature sensing device is connected with the temperature alarm lamp.

8. The multifunctional battery testing device of claim 7, wherein the detection apparatus further comprises a detection main housing, and a ventilation grille is disposed on the detection main housing;

the temperature detection part in the temperature sensing device is arranged inside the detection main shell, and the temperature alarm lamp is arranged outside the detection main shell;

wherein, the ventilation grille is used for carrying out heat dissipation treatment on the detection device.

9. The multifunctional battery testing apparatus of claim 1, wherein the detection device further comprises a mobile power supply placing board;

the mobile power supply placing plate is arranged close to the mobile power supply connector.

10. The multifunctional battery testing device according to claim 9, wherein an outer surface of the portable power source placing board is covered with a flame retardant protective layer.

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