KR102091768B1 - Pouch sealing gap measuring apparatus - Google Patents

Abstract

In the packaging process of the pouch-type secondary battery according to an embodiment of the present invention, the pouch for measuring the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided in the pouch rim extending from the pouch body The sealing gap measuring device is provided in a measuring device body and a measuring device body that presses one side of the pouch body during distance measurement, and is provided to a distance measuring part and a measuring device body measuring a distance from one side of the pouch body to the sealing part. It is provided, it characterized in that it comprises a pressure measuring unit for measuring the pressure when pressurized.

Description

Pouch sealing gap measuring device {POUCH SEALING GAP MEASURING APPARATUS}

The present invention relates to a pouch sealing gap measuring device, more specifically, during the packaging process of the pouch-type secondary battery, a sealing portion provided in the pouch rim extending from the pouch body from the pouch body accommodating the electrode assembly of the pouch-type secondary battery It relates to a pouch sealing gap measuring device for measuring the distance to.

The secondary battery having high applicability according to the product family and electrical characteristics such as high energy density is not only portable equipment but also electric vehicles (EV, Electric Vehicle) or hybrid vehicles (HEV, Hybrid Electric Vehicle) driven by an electric driving source. It is widely applied to storage devices (Energy Storage System). These secondary batteries are attracting attention as a new energy source for eco-friendliness and energy efficiency enhancement, in that they do not generate any by-products due to the use of energy, as well as a primary advantage that can dramatically reduce the use of fossil fuels.

The secondary battery as a battery cell may be classified into various types including a can-type battery in which an internal element is constituted by a hard case such as metallic, etc. according to an application form or structure, and recently, a thin square-shaped secondary battery or a pouch-type secondary battery The demand for is increasing. Particularly, there is a high interest in a pouch type secondary battery that is easy to deform and has low manufacturing cost and has a small weight. In addition, the development and commercialization of a pouch type secondary battery as a power source for a battery vehicle or a hybrid electric vehicle that requires a high-output large-capacity.

1 and 2, the conventional pouch type secondary battery 1 is a pouch case 2, an electrode assembly 6 packaged inside the pouch case 2, and positive and negative electrodes of the electrode assembly 6, respectively. It may be connected to the positive and negative electrode terminals 7 protruding to the outside of the pouch case (2).

Here, the pouch case 2 may include a pouch body 3 accommodating the electrode assembly 6 and a pouch rim 4 extending from the pouch body 3. In addition, the pouch rim 4 may include a sealing portion 5 for sealing the pouch case 2.

In order to form the sealing portion 5, the conventional pouch type secondary battery 1 preferentially attaches the sealing portion 5 to three of the four edges of the pouch edge 4 during the packaging process during the manufacturing process. The fusion process to form can be performed. And, the sealing portion 5 may be formed in the degas process after the packaging process on the other edge.

Looking at this as a specific example, in the packaging process, the conventional pouch type secondary battery 1 first seals the upper edge, lower edge and left edge of the pouch edge 4 with the electrode terminal 7 of the pouch 2 in FIG. 2. ).

At this time, the sealing portion 5 formed during the packaging process should be formed in consideration of the full width of the cells reflecting all of them to prevent defective insulation or defective sealing. Here, the full cell width is the width (S) of the side sealing portion (5), the distance (L) to one side of the electrode terminal and the pouch body (3) from each of the left and right sides of Figure 2, and the pouch border from the pouch body (3) It means the distance which added the distance D to the sealing part 5 provided in (4). In addition, the folding line F means a reference line when the wing portion of the sealing part 5 is folded.

The width S of the sealing portion 5 requires a certain width for securing stability. For example, in the case of the width S of the sealing portion 5, it is generally desirable to secure at least 6 mm. And, the distance (D) from the pouch body (3) to the sealing portion (5) provided on the rim of the pouch (4), that is, the pouch sealing gap (D) is a predetermined width to prevent the insulation failure or sealing failure It is desirable to have. The folding line (F) is preferably at least 2mm is secured from the end of the sealing portion 5 to prevent folding failure. The final cell width may be determined by the polling line F.

Meanwhile, the pouch sealing gap D may have a predetermined width according to the thickness of the pouch body 3. In the case of the pouch sealing gap D, the values may be different in the packaging process and the degas process. Because, during the packaging process, the electrolyte and gas are filled inside the pouch body 3, and during the degas process, the electrolyte and gas are taken out from the inside of the pouch body 3, so that the pouch is sealed between both processes. Differences in the gap D may occur. In addition, a difference in the pouch sealing gap D may occur between both processes depending on the position of the electrode assembly 6 inside the pouch body 3 during the packaging process.

Since the difference between the pouch sealing gap (D) between the packaging process and the degas process can act as a direct cause of folding failure in the wing folding process of the sealing portion, it is necessary to accurately measure the pouch sealing gap (D) in the packaging process. Do. If the distance of the pouch sealing gap (D) is accurately measured in the packaging process, the manufacturing distance is determined by comparing the measured distance with the preset pouch sealing gap (D) according to the thickness of the pouch body (3) to find the manufacturing defect. This is because defects can be solved by adjusting the position of the electrode assembly 6 in the packaging process before the gas process. If the pouch sealing gap D is incorrectly set in the packaging process, it is because it is very difficult to correct it in the post-process degas process.

In the conventional pouch type secondary battery 1, during the packaging process, for measuring the pouch sealing gap D, the pouch sealing gap measuring device 9 was measured by manual manipulation of a worker through a steel ruler or the like. However, the pouch sealing gap measuring device 9 made of such a steel ruler has a problem in that it is difficult to hold an accurate reference point. In addition, in the conventional pouch sealing gap measuring apparatus 9, there is a problem in that variations between the measurement personnel occur because the pressure of pressing one side of the pouch body 3 is different for each worker. And, the conventional pouch sealing gap measuring device 9 is a manual method through a steel ruler check, etc., and thus has a problem of low reliability in distance measurement. Therefore, the conventional pouch sealing gap measuring device 9 has a high probability of occurrence of a measurement error, so the pouch sealing gap D may be incorrectly measured in the packaging process, making it difficult to correct it in the post-process degas process, poor insulation, sealing There are problems such as defects and poor folding.

As shown in Figure 2, if, in the conventional pouch-type secondary battery 1 packaging process, when the predetermined pouch sealing gap D of the pouch body 3 is 1 mm, the actual pouch sealing gap D is It may be 3mm. In this case, the pouch sealing gap measuring device 9 must accurately measure this and find out the assembly failure of the pouch type secondary battery 1. However, since the conventional pouch sealing gap measuring device 9 is difficult to accurately measure it as described above, it is possible to measure the pouch sealing gap D to 1 mm rather than the actual gap of 3 mm. Accordingly, the conventional pouch type secondary battery 1 may be transferred to a degas process, which is a post-process, while overlooking such an assembly defect, and an assembly failure may occur in the degas process, even if it is found in the degas process. There is a problem that is difficult to correct.

Therefore, in the packaging process of the pouch-type secondary battery, the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided in the pouch rim extending from the pouch body, that is, the pouch sealing gap is more accurately measured. It is desired to find a way to provide a pouch sealing gap measuring device that can be done.

Accordingly, an object of the present invention is to more accurately measure the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided on the rim of the pouch extending from the pouch body during the packaging process of the pouch-type secondary battery. It is to provide a pouch sealing gap measuring device.

In order to solve the above object, the present invention, during the packaging process of the pouch-type secondary battery, the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided on the pouch rim extending from the pouch body A pouch sealing gap measuring device for measuring, comprising: a measuring device body pressing one side of the pouch body when measuring the distance; A distance measuring unit provided in the measuring device main body and measuring a distance from one side of the pouch body to the sealing portion; And it is provided on the main body of the measuring device, a pressure measuring unit for measuring the pressure when the pressure; provides a pouch sealing gap measuring device comprising a.

The pouch sealing gap measuring device is provided at one end of the measuring device main body, and includes a zero point guide portion that contacts one side of the pouch body when the pressure is included, and the distance measuring portion is further away from the zero point guide portion Or it may be provided to be movable to be close.

The distance measuring part and the zero point guide part may protrude to the same height below the body of the measuring device facing the edge of the pouch.

A guide groove for guiding the movement of the distance measuring unit may be provided in the main body of the measuring device.

One side surface of the zero point guide portion facing one side surface of the pouch body may be formed to be round.

The pressure measuring unit may be provided at one end of the measuring device body.

The pouch sealing gap measuring apparatus may include a display unit that displays a pressure measured from the pressure measuring unit and a distance measured from the distance measuring unit.

The pouch sealing gap measurement device may include a control unit for comparing the measured pressure with a preset pressure condition.

The pouch sealing gap measuring apparatus may include; an alarm unit that outputs different alarm information according to a comparison result of the measured pressure and a preset pressure condition through the control unit.

The control unit may compare the measured distance with a preset distance condition when the measured pressure is included in the preset pressure condition.

The alarm unit may output different alarm information according to a comparison result of the measured distance and a preset distance condition through the control unit.

The pouch sealing gap measuring device may include a horizontal sensing unit for sensing a horizontal state of the measuring device main body when measuring the distance.

According to various embodiments as described above, in the packaging process of the pouch-type secondary battery, the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided in the pouch rim extending from the pouch body is further increased. It can measure accurately.

Accordingly, in the embodiments, when manufacturing the pouch-type secondary battery, defective insulation, sealing failure, and folding failure of the pouch-type secondary battery in the degas process after the packaging process can be prevented.

1 is a view for explaining a conventional pouch sealing gap measuring device for measuring the distance from the pouch body to the sealing portion provided in the rim of the pouch extending from the pouch body during the packaging process of the conventional pouch type secondary battery.
2 is a view for explaining a poor sealing of the pouch case due to an incorrect measurement through the pouch sealing gap measuring device of FIG. 1.
3 and 4 is a pouch sealing gap measuring device for measuring the distance from the pouch body to the sealing portion provided on the rim of the pouch extending from the pouch body during the packaging process of the pouch type secondary battery according to an embodiment of the present invention It is a figure for illustration.
5 is a block diagram showing the configuration of the pouch sealing gap measuring apparatus of FIG. 3.
6 is a view for explaining the operation of the pouch sealing gap measurement device of FIG.
7 and 8 are flowcharts for explaining various control methods of the pouch sealing gap measuring apparatus of FIG. 3.

The present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. It should be understood that the embodiments described herein are illustratively shown to help understanding of the present invention, and that the present invention can be implemented in various ways differently from the embodiments described herein. In addition, in order to help the understanding of the invention, the accompanying drawings are not drawn to scale, but the dimensions of some components may be exaggerated.

3 and 4 is a pouch sealing gap measuring device for measuring the distance from the pouch body to the sealing portion provided in the rim of the pouch extending from the pouch body during the packaging process of the pouch type secondary battery according to an embodiment of the present invention FIG. 5 is a block diagram showing the configuration of the pouch sealing gap measuring apparatus of FIG. 3.

3 to 5, the pouch sealing gap measuring device 10 is a pouch case for receiving the electrode assembly 60 of the pouch-type secondary battery 20 during the packaging process of the pouch-type secondary battery 20 ( 30) is a device for measuring the distance (D) and the pouch sealing gap (D) from the pouch body (40) to the sealing portion (55) provided in the pouch frame (50) extending from the pouch body (40). .

The pouch sealing gap measuring apparatus 10 includes a measuring apparatus main body 100, a distance measuring unit 200, a zero point guide unit 300, a pressure measuring unit 400, a display unit 500, a control unit 600, It includes an alarm unit 700 and a horizontal sensing unit 800.

The measuring device main body 100 measures the distance D from the pouch body 40 to the sealing portion 55 of the pouch rim 50, that is, the pouch sealing gap D, according to the user's operation. One side of the pouch body 40 may be pressed.

The measuring device main body 100 can accommodate various components constituting the pouch sealing gap measuring device 10, and guide grooves formed in a predetermined length to guide the movement of the distance measuring unit 200 to be described later. It may include (150).

The distance measuring unit 200 is provided on the measuring device main body 100, the distance D from one side of the pouch body 40 to the sealing portion 55, that is, the pouch sealing gap (D) Can be measured. Hereinafter, in the present embodiment, the distance D from one side of the pouch body 40 to the sealing portion 55 will be described as a pouch sealing gap D.

The distance measuring part 200 is movably mounted on the measuring device main body 100, specifically, the measuring device main body 100 is movable so as to be able to move away from or closer to the zero point guide part 300, which will be described later. ).

The distance measuring unit 200 may include a measuring unit main body 210 and an operation tip 220.

The measuring unit main body 210 may be formed to protrude to a predetermined height downward from the measuring device main body 100 facing the pouch rim 50 from the measuring device main body 100. The measuring unit main body 210 may contact the surface of the pouch rim 50 or the surface of the sealing portion 55 when measuring the pouch sealing gap D.

The operation tip 220 is connected to the measuring unit main body 210 and may be movably mounted along the guide groove 150 of the measuring device main body 100. The operation tip 220 may be moved along the guide groove 150 along the horizontal direction of the measuring device main body 100 according to a user's operation such as an operator, and the measuring unit main body 210 may include the operation tip ( 220) along with the movement, it can move along the horizontal direction of the main body 100 of the measuring device.

The zero point guide part 300 is provided at one end of the measuring device main body 100, and when one side of the pouch main body 40 of the measuring device main body is pressed, one side of the pouch main body 40 You can contact The zero point guide unit 300 may guide the zero point for the measurement reference when measuring the distance of the distance measurement unit 200.

The zero point guide part 300 is the measuring device main body 100 of the measuring device main body 100 facing the pouch rim 50 from the measuring device main body 100 as the measuring part main body 210 of the distance measuring part 200. It may be formed protruding downward to a predetermined height. Here, the protruding height of the zero point guide part 300 may be the same as the protruding height of the measuring part main body 210. In addition, when measuring the pouch sealing gap (D), such as the zero point guide part 300, and the measuring part body 210, the surface of the pouch rim 50 or the surface of the sealing part 55 may be contacted. You can.

Accordingly, when measuring the pouch sealing gap (D), the measuring device protrudes to the same height and is brought into contact with the pouch border 50 or the sealing portion 55 through the zero-point guide portion 300 and the measuring portion body 210. The main body 100 can be stably supported in a direction parallel to the horizontal direction of the pouch rim 50 or the sealing portion 55, so that more accurate distance measurement of the pouch sealing gap measuring apparatus 10 can be achieved. .

In addition, one side of the pouch body 40 in which the zero point guide portion 300 may be formed to have one side 310 facing the one side of the pouch body 40 rounded is usually completely completed during the packaging process. It may be formed in an inclined direction rather than a vertical direction. In this embodiment, the one side surface 310 facing the one side surface of the pouch body 40 of the zero point guide part 300 is formed to be rounded, and contact with one side surface of the inclined pouch body 40 Bars that can be contacted more stably than can be, can be supported on one side of the pouch body 40 more stably than when securing a zero point for distance measurement.

The pressure measuring part 400 is provided on the main body 100 of the measuring device, and can measure pressure when the pressure is applied. The pressure measuring unit 400 may be provided at one end 110 of the measuring device main body 100 which may be disposed in contact with or close to the pouch body 40 when measuring a distance. Accordingly, in this embodiment, it may be possible to measure pressure more accurately than when measuring pressure.

The pressure measuring unit 400 may be provided as a pressure sensor. The pressure sensor may be equipped with various types of pressure sensors capable of measuring pressure, such as an analog method or a digital method.

The display unit 500 may be provided in the main body 100 of the measuring device, and when measuring the pouch sealing gap (D), the pressure measured from the pressure measuring unit 400 and the distance measuring unit 200 The measured distance can be displayed. The display unit 500 may be provided with various displays capable of displaying an image to a user, such as an operator.

The control unit 600 may control the overall operation of the pouch sealing gap measurement device 10. For example, when measuring the pouch sealing gap (D), the controller 600 determines this by comparing the measured pressure with a preset pressure condition or by comparing the measured pressure with a preset distance condition. You can. To this end, the control unit 600 may store control information for a preset pressure condition and a preset distance condition. The preset pressure condition may be preset optimal pressure section range information according to the thickness of the pouch body 40, and the preset distance condition may be preset optimal distance range information corresponding to the pressure range. The control unit 600 may control the operation of the display unit 500 or the alarm unit 600 to be described later according to the preset control information.

The alarm unit 700 may be provided in the main body 100 of the measuring device, and output different alarm information according to a comparison result of the measured pressure and a preset pressure condition through the control unit 600. . In addition, the alarm unit 700 may output different alarm information according to a comparison result of the measured distance and a preset distance condition through the control unit 600.

The alarm unit 700 may be provided as a display unit capable of visually displaying the alarm information to a user, such as an operator, or may be provided as an acoustic unit capable of displaying as sound to a user, such as an operator. The alarm unit 700 is not limited thereto, and may be provided as various other devices capable of providing alarm information to a user, such as an operator.

Looking specifically at providing the alarm information from the alarm unit 700, the alarm unit 700, if the measured pressure through the control unit 600 is included in the preset pressure condition, the first alarm information preset It can be output to the user, such as workers. In addition, when the measured pressure is not included in a preset pressure condition through the control unit 600, the alarm unit 700 may output preset second alarm information to a user such as an operator. The output of the first alarm information and the second alarm information may be output of different alarm information that can be distinguished from each other. For example, when the alarm unit 700 is provided as a display unit, the output of the first alarm information and the second alarm information of the alarm unit 700 outputs light of different colors that the user can distinguish. It can be done by doing.

In addition, when the measured distance is included in a preset distance condition through the control unit 600, the alarm unit 700 outputs preset third alarm information to a user, such as an operator, and is not included in the preset distance condition. If not, the preset fourth alarm information may be output to a user such as an operator. For example, when the alarm unit 700 is provided as a display unit, the output of the third alarm information and the fourth alarm information of the alarm unit 700 outputs light of different colors that the user can distinguish. It can be done by doing. Here, the output of the third alarm information and the fourth alarm information is compared to the first alarm information and the second alarm information, respectively, or the output of light of the same color or the first and second alarm information. It can be made of the output of light of a different color from the light output by.

The horizontal sensing unit 800 may be provided on the main body 100 of the measuring device, and may sense a horizontal state of the main body of the measuring device 100. When the distance is measured through the horizontal sensing through the horizontal sensing unit 800, it is possible to easily check the horizontal state of the main body 100 of the measuring device. The horizontal sensing unit 800 may be provided with various horizontal sensing sensors capable of sensing a horizontal state.

Hereinafter, a detailed operation of measuring the pouch sealing gap D through the pouch sealing gap measuring apparatus 10 according to the present embodiment configured as described above will be described in detail.

6 is a view for explaining the operation of the pouch sealing gap measurement device of FIG.

Referring to FIG. 6, in the packaging process of the pouch type secondary battery 20, a user such as an operator uses one side of the pouch body 40 as the measuring device body 100 of the pouch sealing gap measuring device 10. Pressurize. During the pressurization, the pressure measurement unit 400 measures the pressure during the pressurization, and the display unit 500 may display the measured pressure.

Meanwhile, the pouch body 40 may have a predetermined pressure range according to its thickness. Therefore, a user, such as an operator, presses the pouch body 40 while pressing the measuring device body 100 until the pressure applied while viewing the pressure displayed through the display unit 500 falls within a predetermined pressure range. You can. At this time, the alarm unit 700 may output different alarm information when the applied pressure falls within a predetermined pressure range and when not applied. Accordingly, the worker or the like can more easily determine this.

If the pressure for the measuring device main body 100 to press the pouch main body 40 falls within a predetermined pressure range according to the thickness of the pouch main body 40, a user such as an operator may use the distance measuring part 200. The pouch sealing gap D, which is a distance D from the one side of the pouch body 40 to the sealing portion 55 by moving to the sealing portion 55, may be measured.

At this time, a user, such as an operator, can move the measuring unit body 210 through the operation of the operation tip 220 that can move along the guide groove 150 of the distance measuring device main body 100. , The distance measuring unit 200 can be moved more easily. In addition, the distance D measured from the operator or the like can be displayed through the display unit 500 later, so that the measured distance can be grasped more easily.

Meanwhile, the alarm unit 700 may output different alarm information when the measured distance falls within a predetermined distance range corresponding to a predetermined pressure range and when it does not. The predetermined distance range corresponding to the predetermined pressure range may mean an optimal pouch sealing gap (D) range preset within a preset pressure range according to the thickness of the pouch body 40, etc. It may be stored in advance in (600).

As described above, the pouch sealing gap measuring apparatus 10 according to the present embodiment is used in the packaging process of the pouch type secondary battery 20 from the pouch body 40 in a digital manner, rather than an analog method such as a conventional steel ruler. Since the distance D to the sealing portion 55 can be measured, the pouch sealing gap D can be measured more accurately than in the packaging process.

Therefore, in the present embodiment, during the packaging process of the pouch-type secondary battery 20 through the pouch sealing gap measuring device 10, based on the measured pouch sealing gap D, before the post-degassing process It can be confirmed in advance whether the product is misassembled or defective.

Therefore, in the present embodiment, it is possible to prevent insulation failure, sealing failure, and folding failure of the pouch type secondary battery 20 that may occur in the degas process, which is a process after the packaging process, in advance.

7 and 8 are flowcharts for explaining various control methods of the pouch sealing gap measuring apparatus of FIG. 3.

Referring to FIG. 7, the pouch sealing gap measuring device may press one side surface of the pouch body to the measuring device body (S10). Thereafter, the pressure measuring unit of the pouch sealing gap measuring device may measure the pressure when the pressure is applied (S12). Thereafter, the pouch sealing gap measuring device may determine whether the measured pressure is included in a preset pressure condition (S14). When the measured pressure is included in a preset pressure condition, the pouch sealing gap measuring device may output preset first alarm information through the alarm unit (S16), and the measured pressure may not be included in the preset pressure condition. In this case, the preset second alarm information different from the first alarm information may be output through the alarm unit (S18).

As described above, the pouch sealing gap measuring apparatus according to the present embodiment can determine whether or not the measured pressure is included in a preset pressure condition, and outputs different alarm information, respectively, according to a comparison determination result, and thus, a worker, etc. You can provide this information to the user.

Therefore, in the pouch sealing gap measuring apparatus according to the present embodiment, when measuring the pouch sealing gap, a user such as an operator can easily press the pouch body at a pressure appropriate to a predetermined appropriate pressure according to the pouch body specification.

Referring to FIG. 8, the pouch sealing gap measuring apparatus may determine whether the measured pressure is included in a preset pressure condition (S20). Then, the pouch sealing gap measuring device may measure the pouch sealing gap, that is, the distance from the pouch body to the sealing portion through a distance measuring unit (S22).

Thereafter, the pouch sealing gap measurement apparatus may determine whether the measured distance is included in a preset distance condition (S24). When the measured distance is included in a preset distance condition, the pouch sealing gap measuring device may output preset third alarm information through the alarm unit (S26), and the measured distance may not be included in the preset distance condition. In this case, the preset fourth alarm information may be output through the alarm unit (S28).

As described above, the pouch sealing gap measuring apparatus according to the present embodiment can determine whether or not the measured distance is included in a preset distance condition, and outputs different alarm information, respectively, according to a result of the comparison determination, so that a worker, etc. You can provide this information to the user.

Therefore, in the pouch sealing gap measuring apparatus according to the present embodiment, when measuring the pouch sealing gap, a user such as an operator can easily check whether the measured distance is included in a distance range corresponding to a predetermined appropriate pressure. .

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is usually in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications can be made by those having knowledge of, and these modifications should not be individually understood from the technical idea or prospect of the present invention.

10: pouch sealing gap measuring device 100: measuring device body
150: guide groove 200: distance measuring unit
210: measuring unit body 220: operation tip
300: zero point guide portion 400: pressure measuring portion
500: display unit 600: control unit
700: alarm unit 800: horizontal detection unit

Claims (12)

In the packaging process of the pouch-type secondary battery, in the pouch sealing gap measuring device for measuring the distance from the pouch body accommodating the electrode assembly of the pouch-type secondary battery to the sealing portion provided on the pouch rim extending from the pouch body ,
A measuring device body that presses one side of the pouch body when measuring the distance;
A distance measuring unit provided in the measuring device main body and measuring a distance from one side of the pouch body to the sealing portion; And
It is provided on the main body of the measuring device, a pressure measuring unit for measuring the pressure when the pressure; includes,
The distance measuring unit,
A measuring unit main body protruding from the measuring device main body to a predetermined height below the main body of the measuring device facing the edge of the pouch; And
Pouch sealing gap measuring device, characterized in that it is connected to the measuring unit main body, the operation tip movable in the horizontal direction of the measuring device main body according to the user's operation, such as an operator. According to claim 1,
It is provided on one end of the main body of the measuring device, the zero point guide portion that contacts the one side of the pouch body when the pressure; includes,
The distance measuring unit is a pouch sealing gap measuring device characterized in that it is provided so as to be movable away from or closer to the zero point guide unit. According to claim 2,
The distance measuring unit and the zero point guide unit is a pouch sealing gap measuring device characterized in that it protrudes to the same height below the body of the measuring device facing the edge of the pouch. According to claim 2,
Pouch sealing gap measuring device, characterized in that the measuring device main body is provided with a guide groove for guiding the movement of the distance measuring unit. According to claim 2,
Pouch sealing gap measuring device, characterized in that one side of the zero-point guide portion facing one side of the pouch body is rounded. According to claim 2,
The pressure measuring unit is a pouch sealing gap measuring device, characterized in that provided on one end of the main body of the measuring device. According to claim 2,
And a display unit displaying the pressure measured from the pressure measuring unit and the distance measured from the distance measuring unit. According to claim 2,
Pouch sealing gap measuring apparatus comprising a; control unit for comparing the measured pressure with a predetermined pressure condition. The method of claim 8,
And an alarm unit outputting different alarm information according to a comparison result of the measured pressure and a preset pressure condition through the control unit. The method of claim 9,
The control unit,
When the measured pressure is included in the predetermined pressure condition, the pouch sealing gap measuring device, characterized in that for comparing the measured distance with a predetermined distance condition. The method of claim 10,
The alarm unit,
Pouch sealing gap measurement device characterized in that for outputting different alarm information according to the comparison result of the predetermined distance condition and the measured distance through the control unit. According to claim 2,
Pouch sealing gap measuring device comprising a; horizontal sensing unit for sensing the horizontal state of the measuring device body when measuring the distance.

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