KR20200142711A - Inspection equipment for accumulators with central automatic calibration function - Google Patents

Abstract

The present invention relates to a test apparatus for a storage battery having an automatic center calibration function. A test apparatus (1) comprises: a test terminal (11) coming into contact with a storage battery; a test terminal holder 10 to which the test terminal (11) is coupled; a terminal central tube body (20) coupled with the test terminal holder (10); a centering rubber (31) for performing a central axis correction operation; a centering rubber housing (30) surrounding the centering rubber (31); a plate (40) coupled to both sides of the centering rubber (31) and the centering rubber housing (30); a lock nut (50) for preventing the holder from being separated; a guide ring (60) coupled to the holder and the lock nut (50); a ball (70) positioned between the plate (40) and the guide ring (60); and a housing (80) surrounding the test apparatus (1). According to the present invention, even if a position of a contact terminal of the manufactured storage battery is slightly shifted during a manufacturing process, a center axis correction operation may be automatically performed while the test terminal of the test apparatus device is connected to the contact terminal, so as to improve the working efficiency of the test process.

Description

Inspection equipment for accumulators with central automatic calibration function}

The present invention relates to an inspection device for inspecting by connecting a terminal of a storage battery and a terminal of the inspection device to inspect whether the manufactured storage battery is in normal operation, and more particularly, the central position of the terminal in the manufacturing process of the storage battery The present invention relates to an inspection device in which the inspection device moves according to the center position of the wrong terminal of the storage battery even if it is formed incorrectly so that an accurate connection between terminals is established.

In general, a storage battery is composed of positive (+) and negative (-) electrode plates and electrolyte, so it is a battery that can be recharged and reused. Also known as a secondary battery, it includes zinc batteries, alkaline batteries, and mercury batteries. .

Currently, it is widely used, such as being used as a power source for automobiles, and is being driven as an alternative energy source.

When manufacturing batteries, defective products are selected through inspection processes such as insulation resistance test and voltage test. In this conventional method, the operator performs one by one inspection by using inspection equipment such as a multimeter, which is This will have a degrading problem.

Thus, by using an automated device such as Korean Patent Application Publication No. 1997-011892, the problem of lowering the productivity due to the prior art related to the battery inspection has been solved.

However, in order to go through the inspection process, accurate inspection is possible only when the inspection contact terminal of the storage battery and the center axis of the inspection terminal of the inspection equipment are connected to match, but the location of the inspection contact terminal required for inspection during the process of manufacturing the storage battery is always There are cases where it is not constructed in the correct position and is manufactured slightly shifted.

In this case, even if the battery is not defective, the contact terminal of the storage battery and the test terminal of the automated inspection equipment must contact each other with the same central axis for the inspection process, but if the location of the contact terminal is not formed at the correct position, the test terminal will contact. It is not possible to properly contact the terminal, and accordingly, the measured value is incorrectly measured or cannot be measured, so it is judged as defective.A storage battery that has not been properly inspected has a problem that it is discarded as defective or requires manual re-inspection. .

Korean Patent Publication No. 1997-011892

The present invention has been proposed to solve the above problems. Even if the contact terminal for inspection of the storage battery is slightly displaced during the manufacturing process, the present invention is automatically connected to the inspection terminal of the inspection device to check whether it is defective. The purpose of this is to improve the work efficiency of the inspection process by making an accurate connection through the central axis correction operation.

The present invention relates to an inspection device for a storage battery having a central automatic calibration function, in the inspection device (1), the inspection terminal holder 10 and the inspection terminal 11 and the inspection terminal 11 in contact with the storage battery and A centering rubber housing (30) and a centering rubber (31) and a centering rubber (31) surrounding the centering rubber (31) and centering rubber (31) for correcting the center axis and the terminal center tube body (20) coupled with the test terminal holder (10) The plate 40 coupled to both sides of the housing 30, the lock nut 50 preventing the holder from being separated, and the guide ring 60 and the plate 40 and the guide ring 60 coupled to the holder and the lock nut 50 It consists of a ball 70 and a housing 80 that surrounds the inspection device 1 and the ball 70 which is located between and is bound by the retainer 71.

In addition, the centering rubber 31 is made of rubber parts (synthetic rubber, natural rubber, silicone rubber), and one or more through portions 32 are formed to facilitate movement for the central axis correction operation.

The inspection device for storage batteries having the center automatic calibration function of the present invention is automatically centered in the process of connecting the inspection terminal of the inspection device with the contact terminal even if the location of the contact terminal of the storage battery is slightly different during the manufacturing process and does not match the position of the inspection terminal. The work efficiency of the inspection process can be improved by performing the axis calibration operation.

1 is a cross-sectional view before operation of the present invention
2 is a cross-sectional view of the present invention during operation
3 is a cross-sectional view after the operation of the present invention
Figure 4 is a perspective view of the centering rubber of the present invention

Hereinafter, in describing in detail an inspection apparatus for a storage battery having a central automatic calibration function of the present invention, as described with reference to an embodiment according to the present invention, the technology of the present invention is limited to the embodiment described in the embodiment described in this document. It is not intended to be understood as including various modifications, equivalents, and/or alternatives of embodiments of the present invention.

In addition, while describing the embodiments of the present invention, even if the operational effects according to the configuration of the present invention are not explicitly described and described, it is natural that a predictable effect by the configuration should also be recognized.

1 is a cross-sectional view before the operation of the present invention, Figure 2 is a cross-sectional view of the operation of the present invention, Figure 3 is a cross-sectional view after the operation of the present invention, Figure 4 is a perspective view of the centering rubber of the present invention.

This will be described with reference to FIGS. 1 to 4.

The inspection device 1 according to the present invention includes an inspection terminal holder 10, an inspection terminal 11, a terminal center tube 20, a terminal wire 21, a centering rubber housing 30, a centering rubber 31, and a plate (40), a lock nut (50), a guide ring (60), a ball (70), including the housing (80).

The test terminal holder 10 has a shape of'T' and has a center penetrating through it, and the inspection terminal 11 in contact with the contact terminal 2-1 of the storage battery 2 is coupled to the penetrating portion at the center.

The terminal center tube 20 has a shape of a'T' similar to the test terminal holder 10, and the terminal wire (21: or cable) passes through the center, and the test terminal holder 10 is coupled to one side. At the end, a thread is formed.

The contact terminal (2-1) and the test terminal (11) must have a concave or protruding triangle shape such as'Σ' on one side and'>' on the other side, and be interlocked.

The centering rubber housing 30 is formed so that the center is penetrated to support the centering rubber 31 in a form surrounding the terminal center tube body 20, and the centering rubber 31 is made of elastic rubber material (synthetic rubber, It is made of natural rubber, silicone rubber), and has at least one penetration part 32 formed to facilitate movement with the elasticity peculiar to rubber for corrective action of the central axis, and the through part 32 forms an arc shape, but other Can be replaced by shape.

One or more plates 40 are coupled to one or both sides of the centering rubber housing 30 and the centering rubber 31.

One surface of the plate 40 includes a plurality of balls 70 and the retainer 71 to which the balls 70 are bound is coupled, and the guide ring 60 is coupled to the guide ring 60 and the plate 40 It is combined in the form of pressing the ball 70 from the top and bottom.

The lock nut 50 is inserted through the center so as to be coupled to the terminal center tube body 20, and a thread is formed on the inner side to press the guide ring 60 of the sex part while being engaged with the screw of the terminal center tube body 20, and as a whole is assembled. Keep it.

The housing 80 serves as a case surrounding the final combined and assembled configuration.

The test terminal 11 is first coupled to the test terminal holder 10, and the terminal center tube 20 is then combined to prevent the test terminal 11 from being separated, and at the same time, a terminal connected to the test terminal 11 The holder is configured while providing a space in which the electric wire 21 is located.

The guide ring 60 is first coupled to one side of the'T'-shaped head of the holder, and then the centering rubber 31 and the centering rubber housing 30 are coupled together at a predetermined position, and the plate 40 is coupled to both sides.

Another guide ring 60 is coupled to one side of the lock nut 50 and is coupled to a screw thread formed on one side of the terminal center tube 20.

Between the plate 40 and the guide ring 60, a retainer 71 that binds at least one ball 70 and the ball 70 is positioned, and the lock nut 50 is tightened so that the ball 70 can be moved. .

The housing 80 is assembled using a piece such as a screw in order to combine all the components while preventing the separation of the retainer 71 that binds the ball 70 and the ball 70.

Hereinafter, the operation of an embodiment of the present invention will be described with reference to FIGS. 2 and 3.

The manufactured storage battery 2 must undergo various inspection processes to determine whether it is defective, and for this purpose, a contact terminal 2-1 for separate inspection is located.

The contact terminal (2-1) is manufactured to have the same central axis as the inspection terminal (11) of the inspection device (1) to be contacted for accurate inspection, but the contact terminal is located at a position that deviates from the designated central axis due to various reasons during the manufacturing process. (2-1) is formed.

In this case, because the contact terminal (2-1) and the inspection terminal (11) do not properly contact with the same central axis, the inspection value for defect determination cannot be calculated, and the operator performs re-inspection manually for reasons such as defect processing. The efficiency of

The inspection apparatus 1 of the present invention can automatically calibrate the position of the central axis where the contact terminal 2-1 deviates, and measure the correct inspection value through the inspection process.

A force is applied to the test terminal 11 so that the contact terminal 2-1 and the test terminal 11 with different central axes are in contact.

When one point of the contact terminal (2-1) and one point of the test terminal (11) come into contact, the centering rubber (31) coupled to the test terminal (11) moves as much as the position of the twisted central axis Will be automatically corrected.

More specifically, the contact terminal (2-1) and the inspection terminal (11) have a shape that can be meshed with each other, such as a depressed triangular shape such as'Σ' on one side and'>' on the other side, or protruding triangle shape. When the force is applied in the direction in which they are in contact with each other, even if the central axis is different, it slides due to the angled surface and is combined based on the same central axis.

In addition, since the centering rubber 31 uses the elasticity peculiar to rubber when the central axis is corrected, one or more through portions 32 are formed to provide a space to facilitate contraction or deformation.

In addition, the plate 40 and the guide ring 60 serve as a rail, and the ball 70 positioned between them serves as a wheel that rides on the rail, thereby facilitating the movement of the holder to correct the central axis.

After completion of the inspection, when the inspection device 1 rises, the centering rubber 31 returns to its original position due to the elasticity of the centering rubber 31.

In this way, when automatic calibration of the central axis is enabled, the inconvenience of inspection due to a twisting of the contact terminal or an inspection omission in the manufacturing process of the storage battery is reduced, thereby increasing work efficiency.

In addition, since the terminal is composed of two types of single pole or positive (+) pole and negative (-) pole, it can be used in combination with single or dual according to the option.

1: Inspection device
2: storage battery 2-1: contact terminal
10: test terminal holder 11: test terminal
20: terminal center tube 21: terminal wire
30: centering rubber housing 31: centering rubber
32: through part
40: plate
50: lock nut
60: guide ring
70: ball 71: retainer
80: housing

Claims (3)

In the inspection device 1,
A test terminal 11 in contact with the contact terminal of the storage battery;
A test terminal holder 10 to which the test terminal 11 is coupled;
A terminal center tube 20 coupled to the test terminal holder 10 and through which the terminal wire passes through the center;
A centering rubber housing 30 surrounding the centering rubber 31;
A plate 40 coupled to both sides of the centering rubber 31 and the centering rubber housing 30;
A lock nut 50 for preventing the holder from being removed;
Guide ring 60 coupled to the holder and the lock nut 50;
A ball 70 positioned between the plate 40 and the guide ring 60 and bound by a retainer 71;
A storage battery inspection device having a central automatic calibration function, characterized in that consisting of; a housing 80 surrounding the inspection device 1. The method of claim 1,
An inspection device for a storage battery having an automatic center calibration function, characterized in that it comprises a centering rubber (31) for correcting the center axis. The method of claim 2,
The centering rubber 31 is made of rubber parts (synthetic rubber, natural rubber, silicone rubber),
An inspection device for a storage battery having an automatic center calibration function, characterized in that at least one through portion 32 is formed to facilitate movement for the center axis calibration operation.

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