KR100217399B1 - Gasket existing testing apparatus of lithium battery - Google Patents

Abstract

The present invention relates to a gasket presence inspection apparatus for inspecting whether or not a gasket (GASKET) placed in the upper side of a can is placed in a process of assembling and producing a lithium battery (Li / M _n O ₂ BATTERY). When the lithium battery 1 into which the gasket 1-2 is inserted is inserted into the settling groove 13 of the index table 10 and intermittently rotated and transferred, the spring 34 is held by the pusher 24. The probe 32, which is shot at -2), contacts the gasket (1-2) while checking the resistance to check whether the gasket (1-2) is inserted, and the probe (32) is the gasket (1-2). ) Whether the gasket (1-2) is inserted immediately or not depending on whether or not it comes into contact with the can (1-1), there is no fear of misjudgment, and the inspection time is shortened to improve the inspection efficiency. But the structure is so simple that there is no fear of failure.

Description

Lithium Battery Gasket Inspection System

The present invention relates to a gasket presence inspection apparatus for inspecting whether or not a gasket (GASKET) placed in the upper side of a can is placed in a process of assembling and producing a lithium battery (Li / MnO ₂ BATTERY).

This is explained in more detail.

In the process of assembling and producing a lithium battery (Li / MnO ₂ BATTERY), a tab terminal is provided inside a can and a device to be rotated is embedded and a gasket is placed thereon. As described above, the present invention provides an apparatus for checking and checking whether a gasket is placed on an inner upper side of a can, and detects contact resistance by using a probe to inspect the presence or absence of a gasket.

Typically, the gasket presence inspection device is mounted on the index table 10 together with other devices as shown in FIG. 1, and the index table 10 is provided with a rotating disc 12 in a conventional starting device. It is to be rotated intermittently by the angle of the more detailed description of the structure and operation relationship will be omitted.

A belt conveyor 2 is provided at one side of the index table 10, and an introduction guide 3 fixed to the support bracket 5 on the belt conveyor 2 is provided with a guide 11 of the index table 10. It is addressed from one side so that the lithium battery 1 can be introduced into the settling groove 13 of the rotating disc 12, starting at a predetermined angle (in this embodiment, the rotating table rotates intermittently by 60 degrees). The gasket existence inspection device 20 for checking whether the gasket is placed on the device while maintaining the rotation, and the defective battery discharge device 15 for selecting and discharging cans in which the gasket is not placed, and a tab terminal is provided. Insulation resistance test device 16 for inspecting the insulation state of the can and the element, and another defective battery discharge device 15 for selecting and discharging the battery having the poor insulation state and the lithium battery having passed such inspection ( One) A discharge guide (4) for transferring to the next process are provided at the belt conveyor (2) of the same line.

In particular, the induction guide 14 is provided at the tip of the discharge guide 4 in order to facilitate the discharge of the lithium battery 1 in the discharge guide (4).

In particular, the induction guide 14 is provided at the tip of the discharge guide 4 in order to facilitate the discharge of the lithium battery 1 in the discharge guide (4).

The present invention is to provide a gasket presence inspection apparatus 30 by improving the gasket presence inspection apparatus 20 that can automatically inspect the presence or absence of the gasket during the inspection process as described above.

Conventionally, when inspecting the state in which the gasket (1-2) is placed in the can (1-1), it was carried out by an artificial method.

That is, since the production line of the lithium battery 1 was not automated conventionally, the gasket presence inspection apparatus was not proposed.

Therefore, in the related art, the process of placing the can 1-1 of the lithium battery 1 transferred by the belt conveyor on a pallet and then placing the gasket 1-2 by an artificial method was performed. ) Cans (1-1) placed on another pallet were transferred to the next process.

This artificial settlement method has a problem that can not only significantly reduce productivity due to slow settling speed, but also organically connect the front and back processes, and also fail to pick out the defective products without the gasket (1-2) installed. Due to the problem of producing a defective battery, there was also a closure to reduce the reliability of the quality.

In order to solve such a problem, a gasket presence inspection apparatus proposed by the applicant as a patent application No. 96-41981 has been proposed.

2 is an exemplary view showing a gasket presence inspection apparatus 20 previously filed by the person, and is configured as follows.

In the case where the lithium battery 1 conveyed by the rotating disk 12 of the index table 10 is supported by the support plate 21, the cylinder 25 is placed on the outer side where the lithium battery 1 is stopped. It is fixed by the bracket 27 and the pusher 24 is fixed to the rod, and the laser displacement sensor 21 is connected to the controller 28 on the upper side of the fixed lithium battery 1 and fixed by any fixing means. It was provided.

The focus of light generated by the laser displacement sensor 21 is configured to detect the inner and outer circumferences of the gasket 1-2.

The laser displacement sensor 21 has a combination of a light emitting unit and a light receiving unit, which is a light emitting detection element, by applying a triangulation measurement, and is generated by the operation of a semiconductor laser driving circuit. It is condensed through the lens and irradiated (fired) to the object. The light reflected from the object collects the focus on the light position detecting element through the light receiving lens, and the focus is also moved by the displacement of the object, so the position of the focus is detected to detect the displacement amount to the object. .

The conventional gasket presence inspection apparatus 20 configured as described above operates as follows.

When the lithium battery 1 is transferred by the rotation of the rotary disk 12 of the index table 10, the pusher 24 moves forward by the operation of the cylinder 25 to detain the lithium battery 1.

When the power supply is supplied to the laser displacement sensor 21 by the operation of the controller while the lithium battery 1 is detained, and the power is supplied to the laser displacement sensor 21, the semiconductor laser driving circuit operates as described above. In the laser, light is generated and received through the light emitting lens of the light emitting unit 22. The received focus is detected by the light position detecting element, and then amplified through the signal amplification circuit. On the basis of the thickness of the gasket 1-2, it is determined that the gasket 1-2 exists, and when it is less than that, the gasket 1-2 is determined.

However, the gasket presence inspection apparatus 20 using the laser displacement sensor 21 operated in this way is pointed out as the following problems.

As shown in FIG. 3 (a), since the roundness of the can 1-1, that is, the outer circumferential surface of the can 1-1, is slightly deformed, the complete concentric circles 1-4 cannot be achieved. As shown in FIG. 1, when the pitch 1-3 arrives at the inner circumferential surface of the can 1-1 and the gasket 1-2 is inserted, the gasket 1-1 is formed by the inner circumferential surface of the deformed can 1-1. Since 2) is also inserted while being deformed, the inner surface of the gasket 1-2 is also unable to form a concentric circle 1-4.

As described above, when the gasket 1-2 is inspected by the laser displacement sensor 21 even though the gasket 1-2 does not form a concentric circle, the light emitted from the light beam 22 after emitting light is gasket 1-2. ), The reflection position is changed according to the curved irregularities. Therefore, the light received from the light receiving unit 23 is greatly out of the light receiving position, so that the gasket 1-2 is inserted into the can 1-1. As a result, the laser displacement sensor 21 commits an error that prevents the gasket 1-2 from being detected.

When such an error occurs, the inspection efficiency is inferior because the operator must continue the operation of the machine after identifying the identification while the operation of the machine is stopped.

The present invention is to provide a gasket presence inspection apparatus that can solve the above problems.

An object of the present invention is to provide a gasket presence inspection apparatus that can perform inspection irrespective of incomplete roundness of a can and improve inspection efficiency and increase productivity by preventing an error of inspection.

Another object of the present invention is to provide a gasket presence inspection apparatus that has an extremely simple structure so that inspection can be automatically performed as the index table is intermittently operated.

It is still another object of the present invention to provide a gasket presence inspection apparatus that does not have a risk of failure by allowing inspection to be performed by a contact method by a probe.

The above and other objects of the present invention are to rotate the lithium battery 1 placed in the settling groove 13 by the intermittent rotation of the index table 10, the outer side of the settling groove 13 And a probe unit 31 having a pusher 24 operated by a cylinder 25 and having a probe 32 on the upper side so that the probe 32 is shot by a spring 34-2. 32 is achieved by the gasket presence inspection apparatus 30, characterized in that the metal material is connected to the measuring unit 40 by a wire.

Since the lithium battery 1 having the gasket 1-2 inserted therein is inserted into the settling groove 13 of the index table 10 and is intermittently rotated and moved by the pusher 24. The probe 32, which is shot with the spring 34-2, in the detained state is in contact with the gasket 1-2, thereby checking the resistance to check whether the gasket 1-2 is inserted.

1 is an illustration of a state where a conventional gasket presence inspection apparatus is provided on an index table.

2 is an exemplary view showing a conventional gasket presence inspection apparatus.

3 (a) is a plan view showing the roundness of the can,

3 (b) is a cross-sectional view taken from the upper side of the can.

4 is a view illustrating a state in which a gasket presence inspection apparatus according to the present invention is provided on an index table.

5 is an exemplary view showing a gasket presence inspection apparatus according to the present invention.

6 is an exemplary view showing a probe unit in the gasket presence inspection apparatus according to the present invention.

7 is an enlarged cross-sectional view taken from the screw portion of the plug unit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: lithium battery 1-1: can

1-2: Gasket 1-3: Pitch

1-4: Concentric Circle 2: Belt Conveyor

3: inlet guide 4: outlet guide

5: support bracket 10: index table

11: guide 12: rotating disc

13: Settlement Home 14: Induction Guide

15: bad battery discharge device 16: insulation resistance tester

20,30: Gasket presence inspection device 21: laser displacement sensor

22 light emitting unit 23 light receiving unit

24 pusher 25 cylinder

26: pedestal 27: bracket

28: controller 31: plug unit

32: probe 33: housing

34: rocking rod 34-1: snap ring

34-2: Spring 35: Coupling

36: nut part 36-1: nut cap

36-2: Threaded section 36-3: Rotating cap

36-4: Bearing 37: Shaft

40: measuring unit

The above and other objects and features of the present invention will be more clearly understood from the following detailed description based on FIGS. 4 to 7.

4 is an exemplary view showing a state in which the gasket presence inspection apparatus 30 according to the present invention is installed on a model index table 10, and FIG. 5 is a detailed view of the gasket presence inspection apparatus 30 according to the present invention. As an exemplary view showing an embodiment, it is provided immediately behind the retracting guide 3 of the belt conveyor 2 among the settled grooves 13 formed in the rotating disc 12 of the index table 10.

On the outside of the settling groove 13, a pusher 24 moved forward and backward by the cylinder 25 was provided. The pusher 24 is to hold the transferred lithium battery 1 and to contact the can 1-1 so that the resistance can be inspected. The pusher 24 is formed of a metallic material or the can 1-1. ) Is made of a metal material is connected to the same wire as the measurement unit 40.

The probe unit 31 is provided on the upper side of the lithium battery 1 placed in the settling groove 13.

Probe unit 31 mandrel the coupling 35 to the shaft 37 in the housing 33, the first portion of the coupling 35 is fixed to the metal probe 32 of the coupling 35 and the second end snap ring (34) The swing bar 34 into which -1) is fitted is to be shot by the spring 34-2.

In particular, the shaft 37 of the coupling 35 with the probe 32 is mandrel-mounted by the nut part 36, but the nut part 36 is a nut cap 36 having a screw part 36-2 formed on an outer circumference thereof. It is provided with the rotating cap 36-3 in which the bearing 36-4 intervened inside -2).

The nut portion 36 is to be screwed to the screw portion 33-1 formed in the housing 33, that is, while the nut cap (36-37) is inserted into the rotary cap (36-3). When 1) is rotated using a tool such as screwdriver (not shown), the tightening is completed.

The operation relationship will be described below.

After operation of the belt conveyor 2, the lithium battery 1 being transferred along the inlet guide 3 is placed in the settling groove 13 of the rotating disc 12 of the index table 10, and then the index table 10. In operation, the lithium battery 1 moves toward the gasket presence inspection apparatus 30 according to the present invention as shown in FIG.

When the lithium battery 1 is moved toward the gasket presence inspection apparatus 30, the probe 32 shot by the spring 34-2 is mounted on the inner side of the gasket 1-2, and the cylinder 25 is operated. The can 1-1 is detained as the pusher 24, and the metal part of the pusher 24 is in close contact with the can 1-1.

In this state, the pusher 24 and the probe 32 are connected to the measurement unit 40, but the probe 32 is prevented from conducting because the contact with the can 1-1 is prevented by the gasket 1-2. Therefore, no resistance value appears in the measurement unit 40.

On the other hand, when the gasket 1-2 is not inserted into the can 1-1, the probe 32 is in direct contact with the can 1-1, so that the probe 32 and the pusher 24 are moved to the can 1-1. Since the state becomes conductive by 1), the resistance value appears in the measurement unit 40. In this way, when the resistance value appears in the measurement unit 40, the gasket 1-2 is displayed.

As described above, according to the present invention, whether or not the probe 32 is in contact with the gasket 1-2 or the can 1-1 is immediately determined whether the gasket 1-2 is inserted. There is no fear of occurrence, inspection time is shortened, and the inspection efficiency is improved, and the structure is so simple that there is no fear of failure.

Claims (3)

In order to rotate and transfer the lithium battery 1 placed in the settling groove 13 by the intermittent rotation of the index table 10, the cylinder 25 is operated outside the settling groove 13. It is provided with a pusher 24 and the probe unit 31 is provided with a probe 32 to the upper side to be shot by the spring 34-2, the pusher 24 and the probe 32 is made of a metal material measuring unit ( Gasket presence inspection device of a lithium battery (Li / MnO ₂ BATTERY), characterized in that connected to the wire 40). According to claim 1, the probe unit 31 mandrel the coupling 35 to the shaft 37 inside the housing 33, but the metal probe 32 is fixed to the first half of the coupling 35 Gasket presence inspection device of a lithium battery (Li / MnO ₂ BATTERY), characterized in that the swinging rod 34 is fitted in the second half is snapped by the spring (34-2) is inserted into the snap ring (34-1). The shaft 37 of the coupling 35 with the probe 32 in particular is provided with a mandrel by the nut part 36. The nut part 36 has a screw part 36-2 on its outer circumference. Gasket presence inspection apparatus of a lithium battery (Li / MnO ₂ BATTERY), characterized in that provided with a rotating cap (36-3) in which a bearing (36-4) is interposed inside the formed nut cap (36-2).