CN213750251U - Automatic connection detection device for lead-acid storage battery - Google Patents

Abstract

The utility model discloses a lead acid battery automatic connection detection device, include: the sealed detection box body is internally provided with a storage battery clamping groove and a replaceable connecting cover; the replaceable connecting cover is movably arranged in the sealed detection box body and is in one-to-one correspondence with the storage battery clamping grooves, and the replaceable connecting cover is buckled with the storage battery clamping grooves and then is automatically electrically connected with the storage battery to be detected in the storage battery clamping grooves; the detection system and the automatic control device are arranged on the sealed detection box body and are used for realizing automatic control over the replaceable connecting cover so as to enable the replaceable connecting cover to be automatically connected with the storage battery to be detected; a temperature environment control panel. This automatic connection detection device can set up different temperatures to different detections, makes lead acid battery remain the standard temperature environment of settlement throughout in the testing process, guarantees to detect the accuracy of structure to can realize lead acid battery also detection device automatic connection.

Description

Automatic connection detection device for lead-acid storage battery

Technical Field

The utility model belongs to the technical field of detection device technique and specifically relates to a lead acid battery automatic connection detection device that lead acid battery detected usefulness is related to.

Background

Electric bicycles have become a tool for people to travel, and lead-acid batteries, which are the main components of electric bicycles, are most concerned because the performance of the batteries directly affects the use feeling of people. The performance of the battery must be strictly detected before the battery leaves a factory, but the battery is placed on a detection frame for detection when the lead-acid battery is detected at present. Because the ambient temperature changes with the weather, the ambient temperature required by detection can not be ensured in the detection process all the time, and the inaccuracy of detection result data is caused; meanwhile, when the lead-acid storage battery is detected, the connection mode of the lead-acid storage battery connected to the detection device is mostly the traditional connection mode, namely manual connection, screws are firstly screwed on the positive electrode and the negative electrode of the battery, then the storage battery is connected by a self-made connecting wire in a series connection mode, and then a main power line, a main voltage acquisition line and a sub voltage acquisition line are respectively connected to the corresponding batteries. The connection mode is complex and tedious in operation, if the positive electrode and the negative electrode are accidentally short-circuited during connection, sparks or electric shock can be caused, certain dangerousness exists, the phenomena of aging, corrosion and the like can occur after the collection wires, the connection wires, the screws and other articles are used for a long time, and the detection result can be seriously influenced if the replacement is not found in time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can set up different temperatures to different detections, make lead acid battery remain the standard temperature environment who sets for throughout in the testing process, guarantee to detect the accuracy of structure to can realize lead acid battery also detection device automatic connection, avoid the drawback that traditional connected mode exists, connection efficiency is high, and the security performance is good, detects accurate, the real lead acid battery automatic connection detection device of data.

The utility model discloses realize that the technical scheme that its technical purpose adopted is: an automatic connection detection device for a lead-acid storage battery, comprising:

the sealed detection box body is internally provided with a storage battery clamping groove and a replaceable connecting cover; the replaceable connecting cover is movably arranged in the sealed detection box body and is in one-to-one correspondence with the storage battery clamping grooves, and the replaceable connecting cover is buckled with the storage battery clamping grooves and then is automatically electrically connected with the storage battery to be detected in the storage battery clamping grooves;

the detection system is arranged in the sealed detection box body and is used for realizing a system for detecting the battery to be detected;

the automatic control device is arranged on the sealed detection box body and is used for automatically controlling the replaceable connecting cover to be automatically connected with the storage battery to be detected;

the temperature environment control panel is arranged on the sealed detection box body and is used for realizing a device for setting and controlling the temperature environment in the sealed detection box body.

This lead acid battery automatic connection detection device, through setting up a sealed detection box, set up battery draw-in groove and change formula connection lid in the box inside, when needs carry out all kinds of conventional detection test to the battery, will wait to detect battery card and go into inside the battery draw-in groove, then through automatic control device control change formula connection lid with wait to detect that the battery is automatic to carry out the electricity and be connected, then set for the temperature and the humidity of detection with the standard through temperature environment control panel, can realize the automated inspection to the battery. This lead acid battery automatic connection detection device, the drawback that appears in the test process in the past can fine solution can also guarantee its security when improving personnel work efficiency to enable the detection data more accurate, true. Different temperatures can be set for different detections, so that the lead-acid storage battery can always keep a set standard temperature environment in the detection process, the accuracy of the detection structure is ensured, and the automatic connection of the detection device of the lead-acid storage battery can be realized. The problem of can not satisfy simultaneously among the prior art that battery detects required different ambient temperature and convenience, the security of connection, avoid all drawbacks of traditional connected mode is solved.

Preferably, the replaceable connecting cover is provided with an electric connecting receiver. The electric connection receiver is arranged on the replaceable connection cover so that the replaceable connection cover can be started to be automatically and electrically connected with the to-be-detected storage battery in the storage battery clamping groove through the starting control key.

Preferably, the automatic control device comprises an automatic connection button and a sensor, the automatic connection button is arranged on the sealed detection box body, and the sensor is arranged in the automatic connection button and is in signal connection with an electric connection receiver on the replaceable connection cover. The automatic connection buttons and the sensors in corresponding quantity are arranged according to the quantity of the storage battery clamping grooves, and independent control and use of each replaceable connection cover can be achieved.

Preferably, the replaceable connecting cover is provided with a positive and negative electrode connecting structure, a divided electrode collecting structure, a main power supply connecting structure and an overload protection device corresponding to the battery to be detected. The positive and negative electrode connecting structures, the branch electrode collecting structures and the main power supply connecting structure are arranged on the replaceable connecting cover corresponding to the battery to be detected in advance, so that automatic electric connection between the replaceable connecting cover and the storage battery is conveniently realized, various defects caused by manual operation in the prior art are overcome, and the automatic connection operation is convenient and rapid. The overload protection device is arranged, so that the overload protection device can be fused by itself when the current is too large, and the connection between the overload protection device and the storage battery is disconnected, so that the storage battery is protected from being broken due to the too large current in the detection process.

Preferably, the positive and negative electrode connecting structure comprises positive and negative electrode connecting wires and positive and negative electrode magnetic rings electrically connected to the positive and negative electrode connecting wires; the branch electrode acquisition structure comprises a branch electrode acquisition line and a branch electrode acquisition magnetic ring electrically connected on the branch electrode acquisition line; the main power supply connecting structure comprises a main power supply line and a main power supply magnetic ring electrically connected to the main power supply line. The arrangement of the positive and negative magnetic rings, the pole separation magnetic ring and the main power supply magnetic ring is convenient for realizing quick electric connection with the positive and negative electrodes on the storage battery, the pole separation magnetic ring and the main power supply.

Preferably, a detection cavity is arranged in the sealed detection box body, the storage battery clamping grooves are respectively concavely arranged on the top surface and the bottom surface of the detection cavity, and positive and negative power supply marks are arranged in the storage battery clamping grooves; the replaceable connecting cover is arranged in the middle of the detection cavity through a group of lifting mechanisms and is arranged in pairs in a reverse mode. Set up the battery draw-in groove respectively in the top and the bottom that detect the chamber, can carry out many batteries like this and examine time measuring simultaneously, each other does not influence, can satisfy different models, and the battery of different specifications detects simultaneously.

Preferably, the temperature environment control panel is provided with a temperature control key, a humidity control key and a data display screen.

Preferably, a transparent detection door is arranged on the sealed detection box body, and an LED lamp is arranged on the inner side of the detection door. The state of battery is observed at any time to the LED lamp on the transparent detection door of accessible and transparent detection door in the testing process to can in time discover the problem and solve, appear phenomenons such as bulging, acid leakage etc. if the battery operation.

The utility model has the advantages that: this lead acid battery automatic connection detection device, the drawback that appears in the test process in the past can fine solution can also guarantee its security when improving personnel work efficiency to enable the detection data more accurate, true. Different temperatures can be set for different detections, so that the lead-acid storage battery can always keep a set standard temperature environment in the detection process, the accuracy of the detection structure is ensured, and the automatic connection of the detection device of the lead-acid storage battery can be realized.

Drawings

FIG. 1 is a schematic structural diagram of the automatic connection detection device for lead-acid storage batteries according to the present invention;

FIG. 2 is a schematic structural diagram of the lead-acid battery automatic connection detection device according to the present invention in an open state;

FIG. 3 is a schematic view of a replaceable connecting cover according to the present invention;

fig. 4 is a schematic structural diagram of the overload protection apparatus of the present invention;

in the figure: 1. the device comprises a sealed detection box body, 2, a storage battery clamping groove, 3, a replaceable connecting cover, 4, a detection system, 5, an automatic control device, 6, a temperature environment control panel, 7, a positive and negative connecting wire, 8, a positive and negative magnetic ring, 9, a branch electrode collecting wire, 10, a branch electrode collecting magnetic ring, 11, a main power line, 12, a main power magnetic ring, 13, a detection cavity, 14, a lifting mechanism, 15, a transparent detection door, 16, an LED lamp, 17, an automatic connecting button, 18 and an overload protection device.

Detailed Description

The technical solution of the present invention will be further described in detail by the following specific embodiments with reference to the accompanying drawings.

Example 1:

in the embodiment shown in fig. 1 and 2, the automatic connection detection device for the lead-acid storage battery comprises:

the device comprises a sealed detection box body 1, wherein a storage battery clamping groove 2 and a replaceable connecting cover 3 are arranged in the sealed detection box body 1; the replaceable connecting cover 3 is movably arranged in the sealed detection box body 1 and is in one-to-one correspondence with the storage battery clamping grooves 2, and the replaceable connecting cover 3 is buckled with the storage battery clamping grooves 2 and then is automatically electrically connected with the storage battery to be detected in the replaceable connecting cover;

the detection system 4 is arranged in the sealed detection box body 1 and is used for realizing a system for detecting the battery to be detected;

the automatic control device 5 is arranged on the sealed detection box body 1 and is used for automatically controlling the replaceable connecting cover 3 to be automatically connected with the storage battery to be detected;

and the temperature environment control panel 6 is arranged on the sealed detection box body 1 and is used for realizing a device for setting and controlling the temperature environment in the sealed detection box body 1.

The different ambient temperature that this application considered battery detection time measuring required and convenience, the security of connection place it in a sealed detection box 1, and this sealed detection box 1 can set up different temperatures to different experiments, and can connect automatically, avoids all drawbacks of traditional connected mode.

The replaceable connecting cover 3 can be made into a series connection of single, two, three and other different pieces according to different tests, and can be replaced when different tests are carried out. An electrical connection receiver is provided on the replaceable connection cover 3. The replaceable connecting cover is started to be automatically and electrically connected with the to-be-detected storage battery in the storage battery clamping groove through the starting control key.

The automatic control device 5 comprises an automatic connection button 17 and a sensor, wherein the automatic connection button 17 is arranged on the sealed detection box body 1, and the sensor is arranged in the automatic connection button 17 and is in signal connection with an electric connection receiver on the replaceable connection cover 3. The automatic connection buttons and the sensors in corresponding quantity are arranged according to the quantity of the storage battery clamping grooves, so that independent control and use of each replacement type connection cover can be realized, and simultaneous control over serial replacement type connection covers can also be realized.

As shown in fig. 3, the replaceable connection cover 3 is provided with a positive and negative electrode connection structure, a divided electrode collection structure, a main power supply connection structure, and an overload protection device 18 (see fig. 4) corresponding to the battery to be detected. The overload protection device 18 can be fused by itself when the current is too large, so as to disconnect the storage battery, thereby protecting the storage battery from grid breaking caused by the current being too large in the detection process.

The positive and negative electrode connecting structure comprises a positive and negative electrode connecting wire 7 and a positive and negative electrode magnetic ring 8 electrically connected on the positive and negative electrode connecting wire; the branch electrode acquisition structure comprises a branch electrode acquisition line 9 and a branch electrode acquisition magnetic ring 10 electrically connected with the branch electrode acquisition line; the main power supply connection structure comprises a main power supply line 11 and a main power supply magnetic ring 12 electrically connected to the main power supply line.

A detection cavity 13 is arranged in the sealed detection box body 1, the storage battery clamping grooves 2 are respectively and concavely arranged on the top surface and the bottom surface of the detection cavity 13, and positive and negative power supply marks are arranged in the storage battery clamping grooves 2; the replaceable connecting cover 3 is arranged in the middle of the detection cavity 13 through a group of lifting mechanisms 14 and is arranged in pairs in a reverse mode. In this embodiment, detect the chamber and be provided with two from top to bottom, battery draw-in groove 2 sets up respectively and detects the top in chamber and the bottom in chamber down last, adopts the lift cylinder in this embodiment of elevating system, and each change formula is connected and is covered 3 and will control its lift through two sets of lift cylinders, can carry out many batteries like this and examine time measuring simultaneously, and each other does not influence, can satisfy different models, and the battery of different specifications detects simultaneously.

The temperature environment control panel 6 is provided with a temperature control key, a humidity control key and a data display screen.

The sealed detection box body 1 is provided with a transparent detection door 15, and the inner side of the transparent detection door 15 is provided with an LED lamp 16. The state of battery is observed at any time to the LED lamp on the transparent detection door of accessible and transparent detection door in the testing process to can in time discover the problem and solve, appear phenomenons such as bulging, acid leakage etc. if the battery operation.

The automatic connection detection device for the lead-acid storage battery mainly comprises a sealed detection box body 1, a transparent detection door 15, a temperature environment control panel 6, a storage battery clamping groove 2, an automatic connection button 17, a replaceable connection cover 3, an equipment power switch and a lighting switch. Be provided with in the sealed detection box 1 and detect chamber 13, it can set to two-layer from top to bottom to detect chamber 13, divide every layer to detect intracavity portion and set up three group battery draw-in groove 2 respectively, battery draw-in groove 2 of lower part sets up side by side on the bottom surface that detects the chamber, and the battery draw-in groove on upper portion sets up side by side on the chamber top surface that detects the chamber, and change formula connecting cover 3 sets up with battery draw-in groove one-to-one, change formula connecting cover 3 is in pairs reverse setting at the middle part that detects the chamber, namely, change formula connecting cover on upper portion sets up towards upper portion battery draw-in groove, change formula connecting cover of lower part sets up towards the battery draw-in groove of lower part, change formula connecting cover 3 realizes going up and down through an elevating system respectively, elevating system can be lifting piston subassembly, also can be sliding connection assembly. The middle of the transparent detection door 15 is provided with a glass window, the periphery of the inner side of the transparent detection door 15 is provided with LED lamps 16, and when high and low temperature and other dangerous tests are carried out and the transparent detection door 15 cannot be opened randomly, the condition of a battery in the observation box can be opened. The temperature environment control panel 6 can adjust various temperatures, and in the embodiment, the temperature adjusting range is set to be-30 ℃ to +60 ℃, and the temperature is basically suitable for various conventional detection tests. The automatic connecting buttons 17 are respectively provided with six corresponding to 6 groups of different storage battery clamping grooves and the replaceable connecting covers, when a storage battery is placed in one storage battery clamping groove 2, the corresponding automatic connecting button 17 is pressed, the corresponding replaceable connecting cover 3 can automatically move towards the storage battery clamping groove 2, and automatic electric connection with the storage battery to be detected is achieved through the positive and negative magnetic rings 8, the pole separating and collecting magnetic ring 10 and the main power supply magnetic ring 12. As shown in fig. 2, the replaceable connection cover 3 is provided with a positive and negative connection line, a divided voltage collecting line, a main power line, and a magnetic ring and an overload protection device corresponding thereto, which are included in the single storage battery. The two ends of the storage battery clamping groove 2 are respectively marked with positive and negative pole marks, and the storage battery can be detected only after being correctly clamped according to the marks. The device power switch is used for switching on and off the total power supply of the device. The lighting switch is used for turning on and off the LED lighting lamp on the box door.

This lead acid battery automatic connection detection device, through setting up a sealed detection box, set up battery draw-in groove and change formula connection lid in the box inside, when needs carry out all kinds of conventional detection test to the battery, will wait to detect battery card and go into inside the battery draw-in groove, then through automatic control device control change formula connection lid with wait to detect that the battery is automatic to carry out the electricity and be connected, then set for the temperature and the humidity of detection with the standard through temperature environment control panel, can realize the automated inspection to the battery. This lead acid battery automatic connection detection device, the drawback that appears in the test process in the past can fine solution can also guarantee its security when improving personnel work efficiency to enable the detection data more accurate, true. Different temperatures can be set for different detections, so that the lead-acid storage battery can always keep a set standard temperature environment in the detection process, the accuracy of the detection structure is ensured, and the automatic connection of the detection device of the lead-acid storage battery can be realized. The problem of can not satisfy simultaneously among the prior art that battery detects required different ambient temperature and convenience, the security of connection, avoid all drawbacks of traditional connected mode is solved.

A connecting method of an automatic connection detection device of a lead-acid storage battery comprises the following steps: firstly, opening a transparent detection door, and clamping a storage battery to be detected into a storage battery clamping groove; then selecting a corresponding automatic connection button according to the placed position and starting the automatic connection button, transmitting a starting signal to a receiver on the replaceable connection cover by a sensor in the automatic connection button, starting a lifting mechanism to act after the receiver receives the signal, moving the replaceable connection cover to a storage battery clamping groove under the driving of the lifting mechanism, adsorbing and electrically connecting a positive magnetic ring and a negative magnetic ring on the replaceable connection cover with a positive port and a negative port of a storage battery, and electrically connecting a polar separation sampling magnetic ring and a main power supply magnetic ring correspondingly; and finally, closing the box door, setting the temperature and the humidity in the sealed detection box body through a temperature control key and a humidity control key on the temperature environment control panel, and starting a detection system to detect the storage battery when the display screen displays that a set value is reached.

Taking a normal-temperature cycle life test of the storage battery as an example, the use method is described as follows:

firstly, opening a transparent detection door 15, correctly placing a to-be-detected storage battery 18 according to the positive and negative marks of a storage battery clamping groove 2, clamping the to-be-detected storage battery 18 into the storage battery clamping groove 2, placing the positive electrode at the positive mark and placing the negative electrode at the negative mark, then selecting a corresponding automatic connection button 17 according to the position of the clamped storage battery clamping groove 2, if the to-be-detected storage battery 18 is placed in a No. 1 storage battery clamping groove 2, pressing the No. 1 automatic connection button 17 corresponding to the No. 1 storage battery clamping groove 2, moving a No. 1 replacement type connection cover 3 corresponding to the No. 1 automatic connection button 17 to the No. 1 storage battery clamping groove 2 under the driving of a lifting mechanism, and then automatically connecting, wherein the positive and negative magnetic rings 8 of the replacement type connection cover 3 are adsorbed at the positive and negative port openings of the to-be-detected storage battery 18, so as to achieve automatic electric connection, the corresponding polarization voltage and the total voltage are automatically connected through the polarization collecting magnetic ring 10 and the total power supply magnetic ring 12 to realize automatic collection, finally, the transparent detection door 15 is closed, the constant temperature of 25 ℃ is set through the temperature control key and the humidity control key on the temperature environment control panel, the relative humidity is the normal temperature, and the operation is started. So far, the storage battery to be detected can be subjected to a cycle life test in an environment with a constant temperature of 25 ℃. In the test process, the state of the battery can be observed at any time through the LED lamp and the glass window at the position of the transparent detection door 15, so that problems can be found and solved in time, such as swelling and acid leakage in the operation of the battery. Meanwhile, the detection result can be displayed through a display screen.

The replaceable connecting cover 3 is a detachable part, can be made into the replaceable connecting cover 3 in the form of serial connection of single, two, three and the like according to different tests, and can be replaced when different tests are carried out. The overload protection device in the replaceable connection cover 3 can be fused by itself when the current is too large, and the connection between the overload protection device and the battery is disconnected, so that the battery is protected from being broken due to the too large current in the test process.

The device can be fine solution in the past drawback that appears in the test process, can also guarantee its security when improving personnel work efficiency to it is more accurate, true to enable the detected data.

The above-mentioned embodiments are only a preferred embodiment of the present invention, and are not intended to limit the present invention in any way, and other variations and hairstyles can be made without departing from the technical scope of the present invention as set forth in the claims.

Claims (8)

1. The utility model provides a lead acid battery automatic connection detection device which characterized in that includes:

the device comprises a sealed detection box body (1), wherein a storage battery clamping groove (2) and a replaceable connecting cover (3) are arranged in the sealed detection box body (1); the replaceable connecting cover (3) is movably arranged in the sealed detection box body (1) and is in one-to-one correspondence with the storage battery clamping grooves (2), and the replaceable connecting cover (3) is buckled with the storage battery clamping grooves (2) and then is automatically electrically connected with the storage battery to be detected in the storage battery clamping grooves;

the detection system (4) is arranged in the sealed detection box body (1) and is used for realizing a system for detecting the battery to be detected;

the automatic control device (5) is arranged on the sealed detection box body (1) and is used for automatically controlling the replaceable connecting cover (3) to be automatically connected with the storage battery to be detected;

and the temperature environment control panel (6) is arranged on the sealed detection box body (1) and is used for realizing a device for setting and controlling the temperature environment in the sealed detection box body (1).

2. The automatic connection detection device for the lead-acid storage battery according to claim 1, characterized in that: the replaceable connecting cover (3) is provided with an electric connecting receiver.

3. The automatic connection detection device for the lead-acid storage battery according to claim 2, characterized in that: the automatic control device (5) comprises an automatic connection button (17) and a sensor, the automatic connection button (17) is arranged on the sealed detection box body (1), and the sensor is arranged in the automatic connection button (17) and is in signal connection with an electric connection receiver on the replaceable connection cover (3).

4. The automatic connection detection device for the lead-acid storage battery according to any one of claims 1 to 3, characterized in that: the replaceable connecting cover (3) is provided with a positive and negative electrode connecting structure, a divided electrode collecting structure, a main power supply connecting structure and an overload protection device (18) corresponding to the battery to be detected.

5. The automatic connection detection device for the lead-acid storage battery according to claim 4, characterized in that: the positive and negative electrode connecting structure comprises a positive and negative electrode connecting wire (7) and a positive and negative electrode magnetic ring (8) electrically connected on the positive and negative electrode connecting wire; the branch electrode acquisition structure comprises a branch electrode acquisition line (9) and a branch electrode acquisition magnetic ring (10) electrically connected with the branch electrode acquisition line; the main power supply connecting structure comprises a main power supply wire (11) and a main power supply magnetic ring (12) electrically connected to the main power supply wire.

6. The automatic connection detection device for the lead-acid storage battery according to any one of claims 1 to 3, characterized in that: a detection cavity (13) is arranged in the sealed detection box body (1), the storage battery clamping grooves (2) are respectively and concavely arranged on the top surface and the bottom surface of the detection cavity (13), and positive and negative power supply marks are arranged in the storage battery clamping grooves (2); the replaceable connecting cover (3) is arranged in the middle of the detection cavity (13) through a group of lifting mechanisms (14) and is arranged in pairs in a reverse mode.

7. The automatic connection detection device for the lead-acid storage battery according to any one of claims 1 to 3, characterized in that: the temperature environment control panel (6) is provided with a temperature control key, a humidity control key and a data display screen.

8. The automatic connection detection device for the lead-acid storage battery according to any one of claims 1 to 3, characterized in that: the sealed detection box body (1) is provided with a transparent detection door (15), and the inner side of the transparent detection door (15) is provided with an LED lamp (16).

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