KR101030450B1 - Metal inspecting apparatus of cylinder type rechargeable battery - Google Patents

Abstract

The present invention relates to a cylindrical secondary battery metal inspection device, and in the present invention, a cylindrical secondary battery metal inspection device for inspecting whether the metal portion of the cylindrical secondary battery is defective, the transfer unit for transporting the cylindrical secondary battery, and the cylindrical secondary battery is photographed A metal detection sensor that detects that the position has been reached, an illumination unit for irradiating light at an angle perpendicular to the upper surface of the cylindrical secondary battery, and a part of the light irradiated from the illumination unit is reflected vertically and then incident to the metal unit of the cylindrical secondary battery to reflect And a semi-reflective mirror that transmits a part of the reflected light in a direction parallel to the upper surface of the cylindrical secondary battery, a photographing unit for photographing the metal part of the cylindrical secondary battery, and an image image input from the photographing unit, and then analyzing the defective image. A cylinder comprising a metal portion failure reading unit for determining whether The secondary battery Metal inspection apparatus is provided.

Cylindrical secondary batteries; Metal part inspection

Description

Cylindrical Secondary Battery Upper and Lower Metal Inspection Device {METAL INSPECTING APPARATUS OF CYLINDER TYPE RECHARGEABLE BATTERY}

The present invention relates to a cylindrical secondary battery metal inspection device, and more particularly, to provide a cylindrical secondary battery metal inspection device for automatically inspecting the upper and lower metal appearance of the cylindrical secondary battery.

Lithium secondary batteries are used in mobile phones, laptops, etc., and demand for products has grown rapidly in recent years, and the automotive battery market is expected to grow rapidly when electric vehicles become commercially available.

Lithium secondary batteries can be classified into two types, cylindrical batteries and rectangular batteries. Cylindrical batteries have a cylindrical appearance and are used in notebooks, portable home appliances, and the like. The square battery has a wide hexahedral shape and is used as a cell phone and an automobile battery.

At present, the shipment process of the finished cylindrical battery product consists of an appearance inspection process and a packaging process. Appearance inspection is a process that inspects the scratches on the outer shape of the cylindrical secondary battery, which may cause the secondary battery to explode due to such scratches, and the scratches on the outer appearance cause the product to be trusted by customers. This is done because there may be side effects. Appearance inspection process of the cylindrical secondary battery is a situation that is made by hand by skilled personnel. However, since the external inspection process is subjectively performed depending on the eyes of the operator, there is a problem that the standard for inspection can be changed according to the skill of the operator and the state at the time of the inspection, and a quality problem occurs such that a defect is leaked.

The present invention has been made to solve the above problems, an object of the present invention is to automatically inspect the scratches generated in the metal parts used as + electrode and-electrode on the upper and lower surfaces of the cylindrical secondary battery, such as good or bad An object of the present invention is to provide a cylindrical upper and lower metal inspection device capable of objectively processing a good judgment.

The object of the present invention is a cylindrical secondary battery metal portion inspection device for inspecting whether the metal portion of the cylindrical secondary battery is defective, the transfer unit for transporting the cylindrical secondary battery, and the metal detection sensor for detecting that the cylindrical secondary battery has reached the shooting position And a lighting unit for irradiating light at an angle perpendicular to the upper surface of the cylindrical secondary battery, and partially reflecting the light irradiated from the lighting unit vertically and then incident and reflecting the metal unit of the cylindrical secondary battery to reflect the light. A semi-reflective mirror that transmits in a direction parallel to the upper surface of the film, a photographing part for photographing the metal part of the cylindrical secondary battery, and a metal part defect reading part for determining whether there is a defect by acquiring an image image input from the photographing part It can achieve by the cylindrical secondary battery metal part test | inspection apparatus characterized by the above-mentioned.

According to the image-based lithium secondary circular battery appearance inspection apparatus according to the present invention, since the inspection is performed by a certain inspection criteria and procedures, it is possible to ship a cylindrical secondary battery of uniform and stable quality, the quality that the defect is leaked to the customer Minimize accidents. In addition, by performing the prototype battery appearance inspection in a short time, the effect that the product productivity is greatly improved is also expected.

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

1 is a perspective view of a cylindrical secondary battery as an inspection object of the present invention. The cylindrical secondary battery is formed in a cylindrical shape as a whole and has a structure in which a packaging material for protecting a circular battery of a vinyl material is wrapped on the upper and lower surfaces of the side pillar portion. The packaging material surrounding the double side pillars is called side 10, and the circular outer portion of the upper and lower surfaces wrapped in the same packaging material will be referred to as a tube 30. The upper circular area is formed in the shape of a circle in the center and a metal part 40 serving as a pole is exposed, and a ring shape is wrapped around the + pole of the upper surface of the circular battery in the area between the metal part 40 and the upper tube 30. Washer 20, which is a part of, has a configuration in which is formed. The remaining portion of the cylindrical secondary battery 100 except for the upper metal 40 functions as a pole, and thus, a + washer and a pole are used to insert a washer 20 to more reliably prevent the short. The lower region has a simpler structure than the upper region where the exposed metal 10 portion except the tube 30 forms a negative pole.

The metal part is located at the center of the upper and lower surfaces of the cylindrical secondary battery and used as a + terminal and a-terminal. In order to check for appearance defects such as scratches on the metal part, it is important to irradiate the metal part with illumination accurately. In the present invention, a method of using a semi-reflective mirror to irradiate light on the upper and lower center metal parts without interfering with the transfer of the cylindrical secondary battery and a method of inclining the light at an angle of 20 ° or less inclined.

Figure 2 is a cylindrical secondary battery upper metal part inspection apparatus of an embodiment according to the present invention. The metal part inspection apparatus shown in FIG. 2 includes a transfer part 55 for transporting the cylindrical secondary batteries 102, 103, and 104 to be inspected, and a metal detection sensor for sensing that the cylindrical secondary battery 104 has reached the photographing position. 450), the lighting unit 420 for irradiating light at an angle perpendicular to the upper surface of the cylindrical secondary battery 104, reflects a portion of the light emitted from the lighting unit 420 vertically, and then incident and reflects the metal unit of the cylindrical secondary battery 104. A semi-reflective mirror 900 for transmitting a part of the reflected light in a direction parallel to the upper surface of the cylindrical secondary battery 104, a photographing unit 410 for photographing a metal part of the cylindrical secondary battery, and an input from the photographing unit 410. It is characterized in that it comprises a metal part failure reading unit 460 for determining whether there is a failure by analyzing the image image after obtaining the image image and an extraction unit for extracting the cylindrical secondary battery determined as a failure.

The semi-reflective mirror 900 has an angle adjuster which can easily adjust the angle so that the illumination is effectively irradiated on the upper surface of the cylindrical secondary battery. Substantially, the central axis of the light reflected from the upper surface of the cylindrical secondary battery metal part is incident on the upper surface of the cylindrical secondary battery while maintaining the angle slightly rather than exactly matching the incident angle of the photographing part 410 occurs. It was easier to identify damaged scratches. For this reason, in order to obtain a more accurate image of the metal portion, it is preferable to further include a separate photographing unit installed while maintaining a slight oblique angle in addition to the photographing unit 410 installed in the direction shown in FIG.

The metal sensor 450 may be easily implemented using an optical sensor such as an infrared sensor, an electronic sensor, or a mechanical sensor. As the lighting unit 420, it is preferable to use a white LED light source having a relatively good straightness, but not limited thereto. A semi-reflective mirror 900 is used to irradiate the light emitted from the lighting unit 420 to the upper metal part of the cylindrical secondary battery 104, and light loss is generated due to the semi-reflective mirror 900. That is, when energy of 100 is irradiated to the semi-reflective mirror 900 from the illumination unit 420, only 50 of the energy is irradiated to the upper metal part of the cylindrical secondary battery. Assuming that total reflection occurs in the upper metal part, light having energy of 50 is reflected from the upper metal part to the semi-reflective mirror 900, and a half of the light irradiation passes through the semi-reflective mirror 900. As a result, only 25 energy is incident to the photographing unit 410.

In the present invention, a general digital camera (that is, a two-dimensional digital camera) is used as the photographing unit 410, and the metal part defect reading unit 460 analyzes the image photographed by the general camera to form the metal part of the cylindrical secondary battery 104. It is determined whether or not there is a scratch. A filter 411 is provided on the front surface of the photographing unit 410 to enable accurate metal photographing. Although the extraction unit for extracting the cylindrical secondary battery determined as defective in the configuration of FIG. 2 is not specifically illustrated, it is easy to extract the defective cylindrical secondary battery to the outside of the tray in the state of being transferred through the transfer unit 55. Detailed description thereof will be omitted.

Hereinafter, the operation of the cylindrical secondary battery metal part inspection apparatus of FIG. 2 will be described. As illustrated in FIG. 2, the upper surface of the cylindrical secondary battery is transferred in a state facing the front from the right to the left in the drawing. When the cylindrical secondary battery 104 approaches the photographing position, the metal detection sensor 450 detects this and transmits a photographing signal to the photographing unit 410. The photographing unit 410 photographs the upper metal part according to the photographing signal and outputs a metal image. In this case, the illumination unit 420 may also be irradiated only when the cylindrical secondary battery 104 to be inspected in conjunction with the photographing signal reaches the corresponding position, but when the light is irradiated in this manner, the timing is not easy to match. The lighting unit 420 is always kept on.

The light emitted from the illumination unit 420 is irradiated by the semi-reflective mirror 900 to the upper metal part of the cylindrical secondary battery 104 and then reflected and incident on the photographing unit 410. The photographing unit 410 inputs the photographed metal part image to the upper metal part defect reading unit 460. The defective metal reading unit 460 determines whether there is a flaw in the upper metal part of the cylindrical secondary battery 104 through image analysis of the upper metal part of the cylindrical secondary battery 104. The cylindrical secondary battery determined as good is left on the tray 104 'being transferred, and the cylindrical secondary battery determined as defective is extracted from the tray 104' being transferred.

3 is a cylindrical secondary battery upper metal part inspection apparatus of an embodiment according to the present invention. The metal part inspection apparatus shown in FIG. 3 includes a transfer part 55 for transporting the cylindrical secondary batteries 102, 103, and 104 to be inspected, and a metal detection sensor for detecting that the cylindrical secondary battery 104 has reached the photographing position ( 450, the illumination unit 420 for irradiating light while maintaining a constant angle with the top surface of the cylindrical secondary battery 104, the same predetermined angle in the direction opposite to the illumination unit 420 based on the top surface of the cylindrical secondary battery 104. Acquiring the photographing unit 410 installed at an angle facing the upper surface of the cylindrical secondary battery 104 at a distant position, and acquiring an image image input from the photographing unit 410 and analyzing the same to read a metal part defective reading. And an extraction unit for extracting the portion 460 and a cylindrical secondary battery determined as defective.

The metal sensor 450 may be easily implemented using an optical sensor such as an infrared sensor, an electronic sensor, or a mechanical sensor. As the lighting unit 420, it is preferable to use a white LED light source having a relatively good straightness, but not limited thereto. In the embodiment of FIG. 3, the illumination unit 420 and the photographing unit 410 are separated by the same θ angle with respect to the upper surface of the cylindrical secondary battery. The imaging unit 410 has an θ angle rather than the same θ angle. It is preferable to set smaller or larger by about 1 to 2 degrees. As described in the embodiment of FIG. 2, this is because the central axis of the light reflected from the upper surface of the cylindrical secondary battery is viewed from a slightly oblique direction rather than completely coinciding with the direction viewed by the imaging unit 410. Because it is advantageous to find.

As the photographing unit 410, a general digital camera (ie, a two-dimensional digital camera) was used, and the metal part defect reading unit 460 analyzes the image photographed by the general camera to scratch the metal part of the cylindrical secondary battery 104. Determine whether there is. Although the extraction unit for extracting the cylindrical secondary battery determined as defective in the configuration of FIG. 3 is not illustrated in detail, it is easy to extract the defective cylindrical secondary battery in a state of being transferred through the transfer unit 55. Detailed description will be omitted.

Hereinafter, the operation of the cylindrical secondary battery metal part inspection apparatus of FIG. 3 will be described. As shown in FIG. 3, the upper surface of the cylindrical secondary battery is sequentially transferred from the right side to the left side facing the front side in the drawing. When the cylindrical secondary battery 104 approaches the photographing position, the metal detection sensor 450 detects this and transmits a photographing signal to the photographing unit 410. The photographing unit 410 photographs the upper metal part in accordance with a photographing signal and outputs a corresponding image. In this case, the illumination unit 420 may also be irradiated only when the cylindrical secondary battery 104 to be inspected in conjunction with the photographing signal reaches the corresponding position, but when the light is irradiated in this manner, the timing is not easy to match. The lighting unit 420 is always kept on. The lighting unit 220 is configured to irradiate light on the upper surface of the cylindrical secondary battery to have an inclination angle, and the light reflected from the upper surface of the cylindrical secondary battery is incident to the photographing unit 410. The photographing unit 410 inputs the photographed metal part image to the upper metal part defect reading unit 460. The metal part failure reading unit 460 determines whether the upper metal part of the cylindrical secondary battery 104 has a scratch by analyzing the upper metal part of the cylindrical secondary battery 104. The cylindrical secondary battery determined as good is left on the tray 104 'being transferred, and the cylindrical secondary battery determined as defective is extracted from the tray 104' being transferred.

Figure 4 is a schematic diagram of the upper and lower metal part inspection device of the cylindrical secondary battery of one embodiment according to the present invention. In FIG. 4, both the upper metal part inspecting apparatus 400 and the lower metal part inspecting apparatus 400 ′ of the cylindrical secondary battery are illustrated. For convenience of illustration, the cylindrical secondary battery 102 illustrates a process of inspecting an upper metal part, and the cylindrical secondary battery 106 illustrates a process of inspecting a lower metal part. Substantially, all cylindrical secondary batteries of the drawing shown in FIG. 4 should be shown so that only the upper surface is visible, but for convenience of description to explain the process of inspecting the upper and lower metal parts of the cylindrical secondary battery on one drawing at a time. The 102 cylindrical secondary battery in the top was shown to show the top surface, and the 106 cylindrical secondary battery was expressed to show the bottom view.

Each of the upper metal part inspecting apparatus 400 and the lower metal part inspecting apparatus 400 ′ of the cylindrical secondary battery has the same configuration as illustrated in FIG. 2 or 3. When examining the metal part of a cylindrical secondary battery, you may comprise so that the metal part of the upper surface and the lower surface of a neighboring cylindrical secondary battery may be tested one after another. For example, in the inspection apparatus illustrated in FIG. 4, the cylindrical secondary battery 102 may be configured to inspect the upper metal part, and the neighboring cylindrical secondary battery 103 may be configured to inspect the lower metal part. However, when the upper metal part inspection device and the lower metal part inspection device inspect neighboring cylindrical secondary batteries, a back light may be generated in the photographing part 410, thereby causing a problem in the metal part image image photographed. For example, when the device is installed to inspect the upper metal part of the 102 cylindrical secondary battery and the lower metal part of the 103 cylindrical secondary battery, the upper metal of the 102 cylindrical secondary battery is illuminated to inspect the lower metal part of the 103 cylindrical secondary battery. It is incident on the photographing unit 410 inspecting the unit, so that an image of the upper metal part of the 102 cylindrical secondary battery cannot be obtained accurately. In order to solve the problem, the present invention solves a backlight problem that may be caused by sufficiently separating the distance between the apparatus 400 for inspecting the upper metal part and the apparatus 400 ′ for inspecting the lower metal part, as shown in the drawing. It was. Experimentally it can be seen that it is desirable to ensure a sufficient separation distance of at least one times the diameter of one cylindrical secondary battery, as shown in FIG.

The lighting unit 420 of the cylindrical secondary battery metal inspection device emits light on the upper and lower surfaces of the circular battery. The metal inspection lighting unit 420 includes LEDs uniformly arranged in two dimensions and each LED faces the front. For example, the upper surface of the circular battery includes a metal, a tube, and a washer, and the metal inspection lighting unit 420 emits uniform light to the metal, the tube, and the washer. Even if the same amount of light is emitted, the metal emits the brightest light due to the difference in reflectance depending on the material, and then the white washer emits bright light, and the tube emits the darkest light. As a result, the top metal image looks intensively luminescent and only the remaining tubes and washers appear relatively dark. In the image processing, only the metal part may be extracted using the brightness difference.

5A and 5B are examples of a top metal image and a bottom metal image photographed by the cylindrical secondary battery side inspection apparatus according to the present invention. The metal failure reading unit 460 includes an inspection program that determines whether there is a failure by using image processing. By using the image file input from the photographing unit to calculate the boundary region according to the brightness in the entire image, and remove the unnecessary inspection area to determine whether or not the target only the image corresponding to the inspection target area.

While preferred embodiments of the present invention have been described above using specific terms, such terms are only for clarity of the present invention, and preferred embodiments of the present invention and the described terms are derived from the spirit and scope of the following claims. It is obvious that various changes and changes can be made without departing.

1 is a perspective view of a cylindrical secondary battery that is the inspection object of the present invention.

Figure 2 is a cylindrical secondary battery upper metal part inspection apparatus of an embodiment according to the present invention.

Figure 3 is a cylindrical secondary battery upper metal part inspection apparatus of an embodiment according to the present invention.

Figure 4 is a schematic diagram of a cylindrical secondary battery metal part inspection apparatus of an embodiment according to the present invention.

5A and 5B are examples of the upper metal image and the lower metal image photographed by the cylindrical secondary battery side inspection apparatus according to the present invention.

***** Brief description of the main symbols on the drawing *****

10: side 20: washer

30: tube 40: metal

55: transfer unit 410: photographing unit

411: filter unit 420: lighting unit

450: metal sensor

460: defective metal reading unit 900: semi-reflective mirror

101, 102, 103, 104, 105, 106, and 107: cylindrical secondary batteries

102 '. 103 ', 104', 105 ', 106': tray for cylindrical secondary batteries

Claims (10)

A cylindrical secondary battery metal part inspection device for inspecting whether a metal part of a cylindrical secondary battery is defective, Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light at an angle perpendicular to an upper surface of the cylindrical secondary battery; A semi-reflective mirror that reflects a part of the light irradiated from the lighting unit vertically and then enters and reflects the metal part of the cylindrical secondary battery, and transmits the reflected light in a direction parallel to the upper surface of the cylindrical secondary battery; A photographing unit photographing a metal part of the cylindrical secondary battery; And Cylindrical secondary battery metal inspection apparatus, characterized in that for acquiring an image image input from the photographing unit and analyzing it to determine whether there is a defect. The method of claim 1, And an extraction unit for extracting a cylindrical secondary battery which is determined to be defective as a result of the reading of the metal portion defective reading unit. The method of claim 1, Cylindrical secondary battery metal inspection device, characterized in that the photographing unit is provided with a two-dimensional digital camera. A cylindrical secondary battery metal part inspection device for inspecting whether a metal part of a cylindrical secondary battery is defective, Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light to the upper surface in a direction oblique to the upper surface of the cylindrical secondary battery; A photographing unit which photographs the metal part of the cylindrical secondary battery by inclining in a direction opposite to the illumination part with respect to the upper surface; And Cylindrical secondary battery metal inspection apparatus, characterized in that for acquiring an image image input from the photographing unit and analyzing it to determine whether there is a defect. The method of claim 4, wherein And an extraction unit for extracting a cylindrical secondary battery which is determined to be defective as a result of the reading of the metal portion defective reading unit. The method of claim 4, wherein Cylindrical secondary battery metal inspection device, characterized in that the photographing unit is provided with a two-dimensional digital camera. Cylindrical secondary battery metal part inspection device comprising a cylindrical secondary battery upper metal part inspection device for inspecting a defective upper metal part of the cylindrical secondary battery and a cylindrical secondary battery lower metal part inspection device for inspecting a defective lower metal part of the cylindrical secondary battery as, The cylindrical secondary battery upper metal part inspection device Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light at an angle perpendicular to an upper surface of the cylindrical secondary battery; A semi-reflective mirror that reflects a part of the light irradiated from the lighting unit vertically and then enters and reflects the metal part of the cylindrical secondary battery, and transmits the reflected light in a direction parallel to the upper surface of the cylindrical secondary battery; A photographing unit photographing a metal part of the cylindrical secondary battery; And And acquiring an image image inputted from the photographing unit and analyzing the same to determine whether there is a defect. The cylindrical secondary battery lower metal part inspection device Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light at an angle perpendicular to an upper surface of the cylindrical secondary battery; A semi-reflective mirror that reflects a part of the light irradiated from the lighting unit vertically and then enters and reflects the metal part of the cylindrical secondary battery, and transmits the reflected light in a direction parallel to the upper surface of the cylindrical secondary battery; A photographing unit photographing a metal part of the cylindrical secondary battery; And And acquiring an image image inputted from the photographing unit and analyzing the same to determine whether there is a defect. The cylindrical secondary battery upper metal part inspection device and the cylindrical secondary battery lower metal part inspection device, the cylindrical secondary battery metal portion inspection apparatus, characterized in that installed in opposite directions relative to the cylindrical secondary battery. The method of claim 7, wherein The cylindrical secondary battery upper metal part inspection device and the cylindrical secondary battery lower metal part inspection device are installed in opposite directions with respect to the cylindrical secondary battery, characterized in that installed in a position at least twice the width of the cylindrical secondary battery. Cylindrical secondary battery metal part inspection apparatus. Cylindrical secondary battery metal part inspection device comprising a cylindrical secondary battery upper metal part inspection device for inspecting a defective upper metal part of the cylindrical secondary battery and a cylindrical secondary battery lower metal part inspection device for inspecting a defective lower metal part of the cylindrical secondary battery as, The cylindrical secondary battery upper metal part inspection device Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light to the upper surface in a direction oblique to the upper surface of the cylindrical secondary battery; A photographing unit which photographs the metal part of the cylindrical secondary battery by inclining in a direction opposite to the illumination part with respect to the upper surface; And And acquiring an image image inputted from the photographing unit and analyzing the same to determine whether there is a defect. The cylindrical secondary battery lower metal part inspection device Transfer unit for transporting the cylindrical secondary battery; A metal sensor for sensing that the cylindrical secondary battery has reached a photographing position; An illumination unit for irradiating light to the upper surface in a direction oblique to the upper surface of the cylindrical secondary battery; A photographing unit which photographs the metal part of the cylindrical secondary battery by inclining in a direction opposite to the illumination part with respect to the upper surface; And And acquiring an image image inputted from the photographing unit and analyzing the same to determine whether there is a defect. The cylindrical secondary battery upper metal part inspection device and the cylindrical secondary battery lower metal part inspection device, the cylindrical secondary battery metal portion inspection apparatus, characterized in that installed in opposite directions relative to the cylindrical secondary battery. The method of claim 9, The cylindrical secondary battery upper metal part inspection device and the cylindrical secondary battery lower metal part inspection device are installed in opposite directions with respect to the cylindrical secondary battery, characterized in that installed in a position at least twice the width of the cylindrical secondary battery. Cylindrical secondary battery metal part inspection apparatus.

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