JPH0829310A - Seal strength measuring method and apparatus - Google Patents

Abstract

PURPOSE:To simply measure the strength of a bag as a whole by a method wherein the bag is filled with a gas with a pressure equal to the atmospheric pressure and sealed, is placed in a measuring container to reduce the pressure outside the bag gradually and the degree of the vacuum at which the bag is broken is measured as breaking energy. CONSTITUTION:A bag 10 has check valve 10A mounted thereon with a tube made flat and is filled with a gas of 1 atm. equal to the atmospheric pressure with an air gun 11 and sealed. Then, the bag 10 is placed in a measuring container able to be evacuated and the pressure outside the bag 10 is reduced gradually to cause an air pressure difference between the inside and the outside of the bag 10 so that a distortion is generated by a stress attributed to the air pressure difference. Then, when the distortion reaches a limit, causing the bag 10 to break, a measured value of the degree of the vacuum at that moment is obtained as breaking energy.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a seal strength measuring method capable of easily determining the quality of the sealing condition in a bag made of plastic, aluminum foil, a simple substance of paper and a composite film thereof, The present invention relates to a seal strength measuring device that can specifically realize the method. The measurement target is roughly as follows. 1. Determining the quality of the sealing condition of bags such as delicacy bags, confectionery bags, water bags, and retort bags. 2. Judgment of the sealing condition when sealing the lid while filling the contents such as noodle containers, pudding, yogurt, cheese containers, etc. 3. Use as a measuring device for pressure resistance and internal pressure strength of the above materials in development departments and inspection departments such as quality control.

[0002]

2. Description of the Related Art Heretofore, in this type, the following has been done. The above-mentioned bags and containers are for protecting the contents, and it is most important that they do not break or leak during normal handling including transportation.
The shape, dimensions, material composition, and thickness of the bag required for that purpose are determined. And in bags and containers, it is important to perform proper heat sealing on the lid, and a device for determining the quality is indispensable, but the measuring devices currently on the market are expensive. Moreover, some experience is required to determine the measurement method and the measurement result.

The following methods have been adopted as conventional methods. 1. In case of bag A. Tensile tester (with JIS standard) The tensile tester 7 cuts a film or its seal portion 7A into a constant width with reference to FIGS.
It is set to 1 and pulled at a constant speed, and the yield point, elongation, strength at break point, etc. are used to judge pass / fail or superiority / inferiority. B. Withstand pressure tester (Simple test method, no JIS standard) With reference to FIG. 10, the withstand pressure tester 8 puts contents or air into the bag 8A by a simple test method, and puts it in a scale or the like. The bag is placed on the scale and the bag is mechanically compressed while looking at the scale on the scale and judged by the strength when the bag is broken. 2. In the case of containers, it is difficult to make a test piece to measure the seal strength of the lid by the tensile test method, so in most cases, peel off the seal part by hand and visually observe the peeling condition and peeling surface condition at that time. In many cases, it depends on the handling method. Also,
There is also a method in which after sealing the lid, a certain amount of air is introduced from the portion of the lid with an injection needle to check whether or not there is a leak in the sealing portion.

[0004]

The problems described in the prior art have the following problems. 1. In case of bag A. In case of tensile tester a. When looking at the sealed state of the bag, generally only a part of it can be measured, and therefore, sampling method requires experience. B. It takes time to measure. Generally, when measuring one bag,
Although 8 to 12 test pieces are sampled and measured, it takes 15 to 30 minutes. C. Since the strength at break, which is generally obtained strength, is not an energy value, it is difficult to correlate with the practical pressure resistance and drop strength. D. As a principle of measurement, it is not possible to use it for round seals and lid material seals for round containers, as the principle is to pull the part with a fixed seal width uniformly. E. The measuring device is expensive.

B. In case of pressure tester a. The most commonly used scale is a scale with a maximum scale of 1
00 kg, 1 kg / in a 10 cm x 10 cm pouch
Although it becomes cm, when the bag becomes large, the pressure resistance is proportional to the area, so the conversion is also necessary, and it is practically difficult to use it with a large scale. For this reason, this method is only used for quality control of sachets of liquid soup. B. Even if a large scale is used as a measuring device, the impact sound when a large bag is punctured is abnormally large and not practical. 2. In the case of containers, it has not been put to practical use.

The present application has been made in view of the above problems of the prior art, and an object of the present application is to provide the following things and the progress thereof. The explanation is as follows. 1. The pressure method is the most practical method for judging the sealing strength of the bag or the container and its quality, and the method of applying an arbitrary pressure to the bag was confirmed. 2. We tried to put an arbitrary amount of dry ice inside the bag and set the internal pressure arbitrarily. 3. A check valve was provided in the bag and a pressure reducing valve was provided in the air insertion portion, so that the internal pressure of the bag could be set arbitrarily. 4. It is theoretically possible to increase the air pressure until the bag ruptures by the above method and obtain the pressure resistance strength by the air pressure when the bag ruptures, but the crushing sound in the open state is a shock enough to break the eardrum. It is a sound and is not practical in the open state. 5. The method of changing the internal pressure of the bag in the closed state was examined. 6. It was examined that the state can be observed from the outside even in a closed state. 7. As a result of examining the above points, putting a bag in which a constant pressure of air was inserted into a transparent batch and depressurizing the inside of the batch disrupted the equilibrium of the pressure inside and outside the bag, which was equivalent to depressurizing the bag. The applied pressure is applied.

As a result, according to the present invention, firstly, anyone can easily utilize it, and secondly, in the measurement method (pull test) which is generally used at present, the drop / drop required on the actual package is made. Although there is a surface that cannot be correlated with the withstand pressure strength, the present invention has the same withstand voltage and is superior in the correlation with the actual package.

[0008]

In order to achieve the above object, the present invention is as follows. That is,
The first invention is a seal strength measuring method including the following steps. From the first step, the inside of the bag or container is filled with a gas of 1 atm equal to the atmospheric pressure and sealed. The bag or container that has undergone the second step to the first step is placed in a measuring container that can be evacuated, and the outside of the bag or container is gradually depressurized to generate a pressure difference between the inside and outside of the bag or container,
The bag or container is distorted by the stress due to the pressure difference. From the third step, when the strain reaches a critical point with respect to stress and the bag or container ruptures, the measured value is obtained by taking the degree of pressure reduction at that time as rupture energy.

The second invention comprises a measuring device body 3, a decompression pipe 4, a pressure gauge 5 and an opening valve 6 connected to the measuring device body. The measuring device body 3 has a flat rectangular bottom surface 3A. And a side wall 3B of a rectangular tube shape standing upright on the four sides of the bottom surface and a lid 3D attached to the upper opening of the side wall so as to be openable and closable. One end 4A of the pressure reducing pipe 4 is
The vacuum pump 4 connected to the side wall 3B of the measuring device main body 3 and provided at the other end 4B on the pedestal 2 via the switching valve 4C.
The pressure gauge 5 and the release valve 6 are connected to the D
When the bag or container ruptures when the strain reaches the critical point due to the stress, the seal strength measuring device is configured to obtain the measured value with the decompression degree at that time as the rupture energy. is there.

In this case, it can be configured as follows. First. When the pressure gauge 5 has a peak in the pressure fluctuation in the vacuum container through the electropneumatic converter 5A, a device 5B capable of storing the peak value and a digital display 5C for displaying the peak value are provided to break the pressure gauge. It can be configured so that the pressure value in the bag can be measured. Second. The measuring device body 3 may be made of a material that allows the inside of the measuring device body 3 to be seen through. Third. The inside of the measuring device body 3 can be configured to be temperature-controlled.

[0011]

[Operation] The operation will be described together with the effect.

[0012]

The present invention is based on Boyle-Charles' law of pressure
Volume and temperature are always proportional and inversely proportional, which is expressed by the formula pv / t = pv / t. This law was applied to the fact that the internal pressure changes by changing the external pressure. It is a thing.

Therefore, the seal strength measuring method of the first invention is configured as follows. From the first step, the inside of the bag or container is filled with a gas of 1 atm equal to the atmospheric pressure and sealed. The bag or container that has undergone the second step to the first step is placed in a measuring container that can be evacuated, and the outside of the bag or container is gradually depressurized to generate a pressure difference between the inside and outside of the bag or container,
The bag or container is distorted by the stress due to the pressure difference. From the third step, when the strain reaches a critical point with respect to stress and the bag or container ruptures, the measured value is obtained by taking the degree of pressure reduction at that time as rupture energy.

The seal strength measuring device 1 of the second invention is constructed as follows. That is, a pedestal 2 having a swivel wheel 2A on its lower surface, a measuring device body 3 installed on a top plate 2B of this pedestal, a decompression pipe 4, a pressure gauge 5, and an opening valve 6 connected to the measuring device body. It consists of and. The measuring device main body 3 has a flat rectangular bottom surface 3A, a rectangular tubular side wall 3B standing upright on four sides of the bottom surface, and a lid attached to the upper opening of the side wall via a hinge 3C so as to be openable and closable. 3D, and this lid 3D and side wall 3B
A packing 3E and a lock metal fitting 3F are provided between and in order to reliably maintain the sealed state when the lid is closed.

One end 4A of the decompression pipe 4 is connected and communicated with a side wall 3B of the measuring device body 3, and the other end 4B is connected with a vacuum pump 4D provided on the pedestal 2 via a switching valve 4C. The pressure gauge 5 and the release valve 6 are connected and communicated with the side wall 3B of the measuring device main body 3, respectively. Then, when the strain reaches a critical point with respect to the stress and the bag or container bursts, a measurement value is obtained with the degree of pressure reduction at that time as burst energy. The measured value at this time is g
/ Cm, mm-hg unit, drop on the real package,
Data that correlates with the pressure resistance can be obtained.

A device 5B for storing a peak value in the pressure gauge 5 when a peak in pressure fluctuation occurs in the vacuum vessel through an electropneumatic converter 5A, and a digital display meter (digital panel meter) for displaying the peak value. ) By providing 5C, the pressure value can be measured when the bag is broken. This is because, at the time of rupture, the air contained in the bag or the container instantaneously flows out into the vacuum container, so that the peak of the pressure fluctuation curve in the container instantaneously occurs.

In addition to the above, the following configuration can be made. The measuring device body 3 may be made of a material that allows the inside of the measuring device body 3 to be seen through. The following can be configured to control the temperature inside the measuring device body 3. A. A small-sized temperature controllable ero fin heater and blower are installed outside the measuring device body, and the temperature inside the measuring device body is controlled by blowing a constant heated air into the measuring device body for a certain period of time. Configure as follows. B. The measuring device main body has a dual structure, and a medium is put in the inside of the measuring device main body, and the temperature of the medium is controlled to control the temperature inside the measuring device main body.

Here, the bag 10 which is an object to be measured by the seal strength measuring method of the first invention and the seal strength measuring device 1 of the second invention is filled and sealed with a gas of 1 atmospheric pressure equal to the atmospheric pressure. I will explain how to do. Referring to FIG. 4, bag 1
A check valve 10A having a flat tube is attached to 0, and a gas is filled and sealed from the check valve by a known air gun 11. Referring to FIG. 6, a check valve 10A having a flat tube is attached to the bag 10, and a known syringe 12 is used to fill and seal the gas from the check valve. With reference to FIG. 7, even if the gas is filled and sealed by the above-mentioned method, if the underpressure occurs, the gas is filled with the known syringe 13, and the hole 10B which was the injection needle is closed with the cellophane tape 10C.

[0019]

Since the present invention is configured as described above, it has the following effects. 1. The strength of the entire bag can be easily measured by anyone and the quality of the bag can be determined. For 2.1 bags, the measurement can be performed in a short time of 2 to 3 minutes. 3. It is possible to measure the sealing strength of the lid of the container.
That is, it can be applied to the strength measurement of the seal of the lid in a container in which air is left in the container and filled. For example, for filling yogurt, the contents are put into a container, sealed and sealed at room temperature and atmospheric pressure, fermented in a greenhouse at about 50 ° C. for 4 to 5 hours, and then cooled to be commercialized. During this fermentation, pressure is applied to the container by the fermentation gas, and if the seal is in a bad state, it is treated as a defective product at that time. At the time of sealing and sealing, the inside of the container is at normal pressure (1 g / cm), but this is put in the seal strength measuring device 1 of the present application, and a pressure difference is generated by changing the external pressure of the container, and during fermentation. The seal strength of the lid can be measured under the conditions similar to those set above. 4. By enlarging the measuring device body, multiple samples can be measured at the same time.

5. In the case of container measurement, it can be used as a non-destructive test method by determining the standard value. 6. The measured value is obtained as an energy value and can be correlated with the intensity required for practical use. 7. Since the bag breaks in the closed state, it is possible to avoid the harmful effects of the impact sound. 8. Since the measuring device main body is configured to be transparent, the following effects can be expected. That is, if the pressure is gradually reduced during measurement or if it is kept at a constant degree of pressure reduction for a certain period of time, it will bite into a weak portion of the test body, so that it is possible to confirm the strength and the location / state of the peeling. 9. The following effects can be expected in the measuring device main body 3 configured to control the temperature inside. That is, food is filled in a bag and then sterilized by boiling or retort sterilization for the purpose of long-term storage of contents, but at this time internal pressure is generated in the bag as temperature rises, so material and size of the bag Is designed on the assumption of the internal pressure and temperature applied at this time, but by controlling the temperature inside the measuring device main body 3, it is possible to perform practical measurement.

[Brief description of drawings]

FIG. 1 is a perspective view of a seal strength measuring device.

FIG. 2 is a cross-sectional view illustrating the operation.

FIG. 3 is a cross-sectional view illustrating the operation.

FIG. 4 is a perspective view showing a state where the bag of the measuring object is filled with air by an air gun.

FIG. 5 is an enlarged sectional view taken along line AA.

FIG. 6 is a perspective view showing a state in which the syringe is filled with gas.

FIG. 7 is a perspective view showing a state in which gas is being replenished with a syringe.

FIG. 8 is a perspective view illustrating a method of collecting a sample for a tensile tester.

FIG. 9 is a schematic perspective view of a tensile tester.

FIG. 10 is a schematic perspective view of a withstand voltage tester.

FIG. 11 is a perspective view of another embodiment of the seal strength measuring device.

[Explanation of symbols]

 1 Seal strength measuring device 2 Stand 3 Measuring device main body 4 Pressure reducing pipe 5 Pressure gauge 6 Open valve

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[Procedure amendment]

[Submission date] July 22, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0005

[Correction method] Change

[Correction content]

B. In case of pressure tester a. The most commonly used scale is a scale with a maximum scale of 1
00 kg , 1 kg / in a 10 cm x 10 cm pouch
It becomes cm ^2, and proportional to the breakdown voltage when the bag increases the area, and also requires the conversion, and utilization is difficult to use practically large scale. For this reason, this method is only used for quality control of sachets of liquid soup. B. Even if a large scale is used as a measuring device, the impact sound when a large bag is punctured is abnormally large and not practical. 2. In the case of containers, it has not been put to practical use.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0012

[Correction method] Change

[Correction content]

[0012]

The present invention is based on Boyle-Charles' law of pressure
It shows that volume and temperature are always proportional and inversely proportional.
The formula is P ₁ V ₁ / T ₁ = P ₂ V ₂ / T ₂ ,
This law is applied to change the internal pressure by changing the external pressure.

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] 0015

[Correction method] Change

[Correction content]

One end 4A of the decompression pipe 4 is connected and communicated with a side wall 3B of the measuring device body 3, and the other end 4B is connected with a vacuum pump 4D provided on the pedestal 2 via a switching valve 4C. The pressure gauge 5 and the release valve 6 are connected and communicated with the side wall 3B of the measuring device main body 3, respectively. Then, when the strain reaches a critical point with respect to the stress and the bag or container bursts, a measurement value is obtained with the degree of pressure reduction at that time as burst energy. The measured value at this time is g
It is a unit of / cm ² and mm-Hg , and it is possible to obtain data that correlates with the drop on the actual package and the pressure resistance.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0019

[Correction method] Change

[Correction content]

[0019]

Since the present invention is configured as described above, it has the following effects. 1. The strength of the entire bag can be easily measured by anyone and the quality of the bag can be determined. For 2.1 bags, the measurement can be performed in a short time of 2 to 3 minutes. 3. It is possible to measure the sealing strength of the lid of the container.
That is, it can be applied to the strength measurement of the seal of the lid in a container in which air is left in the container and filled. For example, to fill yogurt, put the contents in a container and keep it at room temperature. It is sealed and sealed under normal pressure, fermented in a greenhouse kept at about 50 ° C. for 4 to 5 hours, and then cooled and commercialized. During this fermentation, pressure is applied to the container by the fermentation gas, and if the seal is in a bad state, it is treated as a defective product at that time. At the time of sealing and sealing, the inside of the container is at normal pressure ( 1 atm ), but by putting this in the seal strength measuring device 1 of the present application and changing the external pressure of the container, a pressure difference is generated, and The sealing strength of the lid can be measured under the condition that similar conditions are set. 4. By enlarging the measuring device body, multiple samples can be measured at the same time.

Claims (5)

[Claims] 1. A seal strength measuring method comprising the following steps. From the first step, the inside of the bag or container is filled with a gas of 1 atm equal to the atmospheric pressure and sealed. The bag or container that has undergone the second step to the first step is placed in a measuring container that can be evacuated, and the outside of the bag or container is gradually depressurized to generate a pressure difference between the inside and outside of the bag or container,
The bag or container is distorted by the stress due to the pressure difference. From the third step, when the strain reaches a critical point with respect to stress and the bag or container ruptures, the measured value is obtained by taking the degree of pressure reduction at that time as rupture energy. 2. A measuring device main body (3) comprising a measuring device main body (3), a pressure reducing pipe (4) connected to the measuring device main body, a pressure gauge (5) and an open valve (6). Is a flat rectangular bottom surface (3A), a rectangular tubular side wall (3B) standing upright on four sides of the bottom surface, and a lid (3D) openably and closably attached to an upper opening of the side wall. One end (4A) of the decompression pipe (4) is connected and communicated with the side wall (3B) of the measuring device body (3), and the other end (4B) is connected to the pedestal (2) via the switching valve (4C). Connected to the provided vacuum pump (4D), the pressure gauge (5) and the release valve (6)
When the bag or container ruptures when the strain reaches a critical point due to the stress and is connected and communicated with the side wall (3B) of the measuring device body (3), a measurement value is obtained by using the decompression degree at that time as the rupture energy. A seal strength measuring device characterized in that 3. A device (5B) capable of storing the peak value when a pressure fluctuation peaks in the vacuum vessel through an electropneumatic converter (5A) on the pressure gauge (5), and the peak value is displayed. The pressure value at the time of rupture can be measured by providing a digital indicator (5C) that operates.
The seal strength measuring device described. 4. The measuring device body (3) is made of a material that allows the inside to be seen through.
The seal strength measuring device described. 5. The seal strength measuring device according to claim 2, wherein the measuring device main body (3) is configured to control the temperature inside.