KR101771014B1 - Apparatus and method for electric car battery cover air leak detection and the detection result output unit - Google Patents

Abstract

The present invention relates to an apparatus and method for detecting an air leak in an electric vehicle battery cover and outputting detection results thereof. More particularly, the present invention relates to a battery cover for an electric vehicle, , An apparatus and method for detecting air leakage of an electric automobile battery cover and outputting a detection result of the electric automobile battery cover so as to easily distinguish a good product from a defective product by attaching a bar code to the test result after checking it immediately .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a method for detecting an air leak in an electric vehicle battery cover and outputting a detection result,

The present invention relates to an apparatus and method for detecting an air leak in an electric vehicle battery cover and outputting detection results thereof. More particularly, the present invention relates to a battery cover for an electric vehicle, , An apparatus and method for detecting air leakage of an electric automobile battery cover and outputting a detection result of the electric automobile battery cover so as to easily distinguish a good product from a defective product by attaching a bar code to the test result after checking it immediately .

An electric vehicle (EV) is an automobile that uses an electric power of a battery to drive an AC or DC motor to generate power, and a battery that is indispensable to such an electric vehicle is a battery.

Generally, a battery used in an electric vehicle is modularized. The battery is provided with a positive electrode plate, a negative electrode plate and a separator inside the cell case and a battery filled with an electrolyte. The battery is charged to a rated capacity by a generator, The electrochemical action to be discharged is repeated.

As such, since the battery is a key device in an electric vehicle, it is sealed with a cover to maintain watertightness in order to protect it from an external impact.

1, the battery cover has a protruding portion 10 on one side, a fastening portion 20 for fastening bolts around the circumference, and a plurality of sub products are mounted on the cover body do.

The technology related to the battery cover for an electric vehicle is as described in the prior art documents mentioned below.

However, conventionally, since there is no equipment for testing the watertightness of the battery cover, it is necessary to treat the battery cover as a defective product.

Particularly, since it is made of a thermosetting resin, there is a serious problem because there is no method to confirm it in advance even though the defective rate is high due to a lot of deformation due to shrinkage and expansion during the cooling process.

Korea Patent Registration No. 10-03699052 (2003.01.09.) 'Battery Module Cover for Electric Vehicle' Korea Patent Registration No. 10-1345638 (2013.12.20.) 'Hybrid battery module cover for electric vehicles' Korean Patent Laid-Open No. 10-2014-0048372 (Apr. 24, 2014) 'Hybrid battery module cover for electric vehicle and manufacturing method thereof using insert molding method'

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide a battery cover for an electric vehicle, The present invention provides an apparatus and method for detecting an air leak in an electric automobile battery cover and outputting a detection result of the battery cover so that a defective product can be easily distinguished from a defective product by easily outputting the product in a bar code form.

In order to achieve the above-mentioned object, the present invention is characterized by comprising: a plate-shaped base; A plurality of LM guides arranged on an upper surface of the base in a width direction; A horizontal plate movable along the LM guide; A sliding cylinder fixed on an upper surface of the base and sliding the horizontal plate; A battery cover mold fixed to an upper surface of the base and having a shape corresponding to a battery cover on which the battery cover is seated; A mechanism frame fixed to one side of the base to form a working area and having a plurality of air cylinders capable of fixing the battery cover on the battery cover frame by entering the horizontal plate downward; A leak detection sensor installed along the circumference of the battery cover; A control unit for receiving a detection signal from the leak detection sensor and determining whether the product is good or defective; And a bar code output unit for omitting a bar code output if a defect is detected in accordance with a control signal of the control unit,
Wherein the detection value is transmitted to an external storage memory or a management DB and stored and then managed separately.
According to another aspect of the present invention, there is provided a method of inspecting a battery cover, comprising the steps of: placing a battery cover to be inspected on a battery cover frame on a horizontal plate with an o-
Moving a horizontal plate on which the battery cover to be inspected is placed to a working position;
Lowering the plurality of air cylinders provided on the mechanism frame to fix the battery cover when the horizontal plate reaches the working position;
When the fixing of the battery cover is completed, a leakage of air around the battery cover is detected by a leak detecting sensor by blowing a predetermined amount of air from the side of the battery cover frame.
And outputting a leak value detected through the bar code output device with OK when the detected level exceeds the required level value and rejecting output to the bar code output device when the required level value is exceeded, A method for detecting an air leak of an automotive battery cover and outputting a detection result is also provided.

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According to the present invention, when the battery cover for an electric vehicle is tested separately for securing the watertightness of the battery pack, the test can be easily performed, the test result can be immediately confirmed, and the battery cover can be output in the form of a barcode to be easily distinguished from the defective product. It is possible to lower the defect rate.

1 is an exemplary view showing an example of a battery cover for an electric vehicle.
2 is an exemplary photographic image of an apparatus for detecting an air leak and outputting a detection result of an electric vehicle battery cover according to the present invention.
3 is a photograph of an enlarged photograph of FIG. 2;
4 is a state view showing the use of an apparatus for detecting air leakage and outputting detection results of an electric vehicle battery cover according to the present invention.
5 is a photograph of an enlarged photograph of FIG. 4;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

As shown in Figs. 2 and 3, an apparatus for detecting an air leak and outputting a detection result of an electric vehicle battery cover according to the present invention includes a base 100. Fig.

The base 100 provides a horizontal plane as a plate-like member having a height.

A mechanism frame 200 is fixed to one side of the upper surface of the base 100 and a plurality of air cylinders are installed in the mechanism frame 200 to mount a battery cover C on the upper surface of the base 100 ) Can be fixed at a constant pressure.

A battery cover frame 110 having a shape corresponding to the battery cover C is mounted on the upper surface of the base 100. The battery cover frame 110 is mounted on the horizontal plate 120 Respectively.

At this time, the horizontal plate 120 is slidable along the LM guide 130, and the LM guides 130 are installed in a long number in the direction of the width of the base 100.

In addition, the horizontal board 120 is formed to have a size about half of the board width of the base 100, and is configured to be able to repeatedly move to a working position and a non-working position when sliding.

In this case, the working position refers to a position directly under the mechanism frame 200, and the non-working position means a position deviating from a direct lower side of the mechanism frame 200.

3, a sliding cylinder 140 is fixed to one upper surface of the width of the base 100, and a sliding cylinder (not shown) is mounted on the upper surface of the sliding cylinder 140 The end of the cylinder rod 150 connected to the horizontal plate 140 is connected and fixed to one end surface of the horizontal plate 120.

Accordingly, when the sliding cylinder 140 is operated and the cylinder rod 150 is drawn out, the horizontal plate 120 is in the non-working position. When the cylinder rod 150 is drawn, the horizontal plate 120 is moved to the LM The guide 130 is slid and moved to the work position.

5, a bar code output unit 160 is further provided on the adjacent side of the base 100 so that the result of detection can be classified into good, defective, By displaying the resultant and outputting it, the worker can attach it to one side of the battery cover C to know whether the battery cover C is good or defective before assembling the battery cover C, thereby minimizing work defects.

In addition, a control panel (not shown) having a display (not shown) may be further installed so that the detection result may be output on the screen in the vicinity of the bar code output device 160. In addition, .

A plurality of leak detecting sensors (not shown) are installed at predetermined intervals along the circumference of the battery cover frame 110. The leak detecting sensor is connected to a control unit (not shown) And is configured so as to be able to receive control relating to result processing, which is usually a controller.

Therefore, when the detection target battery cover C is seated on the battery cover frame 110, the horizontal plate 120 slides and is transported to the working position. When the detection target battery cover C reaches the working position, The battery cover C is fixed.

5, a plurality of air cylinder rods 170 connected to a plurality of air cylinders are lowered to form a fastening portion 20 (refer to FIG. 1) formed around the battery cover C. In this case, .

In this case, it is needless to say that the inside of the fastening part 20 must be sealed with an O-ring as in the case of mounting.

In this state, air may be blown from the inside of the battery cover frame 110 to detect the presence or absence of leakage.

More specifically, the leakage detection result output method is as follows.

First, the battery cover C to be inspected is placed on the battery cover frame 110 on the horizontal plate 120.

At this time, an O-ring is sealed between the battery cover C and the battery cover frame 110.

In this state, the horizontal board 120 is moved to the working position.

When the horizontal plate 120 reaches the working position, a plurality of air cylinders provided on the mechanism frame 200 are lowered to firmly fix the battery cover C.

When the fixing of the battery cover C is completed, air of a predetermined pressure is blown from the side of the battery cover frame 110 to detect whether or not the leak of the battery cover C, that is, the sealing portion 20, do.

If the detection result exceeds the required level value, NG is issued, and no value is outputted to the bar code output unit 160, so that NG can be recognized.

Conversely, when the required level value is met, an OK is issued, and the leak value detected through the barcode output unit 160 is printed.

In addition, the output value is automatically transferred to an external storage device or management DB, and is stored and managed. In the assembly line field, the barcode is read through the barcode reader.

As described above, according to the present invention, since good and defective products according to the leakage can be confirmed in advance before the actual assembly, it is possible to provide a high-quality battery cover by reducing the defective rate.

100: Base 200: Mechanism frame

Claims (4)

delete A plate-shaped base; A plurality of LM guides arranged on an upper surface of the base in a width direction; A horizontal plate movable along the LM guide; A sliding cylinder fixed on an upper surface of the base and sliding the horizontal plate; A battery cover mold fixed to an upper surface of the base and having a shape corresponding to a battery cover on which the battery cover is seated; A mechanism frame fixed to one side of the base to form a working area and having a plurality of air cylinders capable of fixing the battery cover on the battery cover frame by entering the horizontal plate downward; A leak detection sensor installed along the circumference of the battery cover; A control unit for receiving a detection signal from the leak detection sensor and determining whether the product is good or defective; And a bar code output unit for omitting a bar code output if a defect is detected in accordance with a control signal of the control unit,
Wherein the detected value is transmitted to an external storage memory or a management DB, and stored and then managed separately.
delete Placing a battery cover to be inspected on a battery cover mold on a horizontal plate with an o-ring interposed therebetween;
Moving a horizontal plate on which the battery cover to be inspected is placed to a working position;
Lowering the plurality of air cylinders provided on the mechanism frame to fix the battery cover when the horizontal plate reaches the working position;
When the fixing of the battery cover is completed, a leakage of air around the battery cover is detected by a leak detecting sensor by blowing a predetermined amount of air from the side of the battery cover frame.
And outputting a leak value detected through the bar code output device with OK when the detected level exceeds the required level value and rejecting output to the bar code output device when the required level value is exceeded, A method for detecting air leaks in an automotive battery cover and outputting detection results.

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