JP2007170894A5 - - Google Patents

Description

Seal state inspection device and seal state inspection method

  The present invention relates to an apparatus and a method for inspecting a sealing state of a wrapping paper container filled with a liquid food such as juice or milk and a packaging laminated material for a packaging container.

  Paper packaging containers that can be stored at room temperature, such as beverages such as milk, juice, mineral water, and liquid foods, are, for example, outermost layers of thermoplastic materials, paper base layers, conductive barrier layers (for example, aluminum foil), heat sealability It is obtained from a packaging laminate material consisting of the innermost layer.

The liquid food packaging container is formed with an opening for attaching a spout or a lid for pouring out liquid food and a straw hole (opening) for inserting a straw at the top of the container. Through-holes are formed in the laminated material, and an opening is formed that is sealed from the outside with a barrier pull tab and sealed with a patch film from the inside.
FIG. 2 shows two examples of packaging containers. An opening 22 for pouring liquid food is formed at the top of the container 21 shown in FIG. 2A, is formed by a through-hole 23 of the packaging laminate material, includes the outer edge of the through-hole 23, and from the outside The barrier pull tab 24 is sealed with a patch film (not shown) from the inside.
A straw hole (opening) 22 for inserting a straw is formed at the top of the container 21 shown in FIG. 2B, and is formed by a through hole 23 in the paper base material layer. Sealing is performed by laminating both surfaces of the material layer with the thermoplastic material outermost layer, the conductive barrier layer, and the heat sealable innermost layer.

FIG. 3 shows an example of an apparatus for manufacturing the packaging container shown in FIG.
In the filling machine shown in the example, the packaging material web 31 having a thermoplastic material layer on the inner and outer layers of the paper base material layer is unwound and conveyed inside the filling machine by a roller. , Through holes are made in the packaging material, sealed with a patch pull tab from the outside, and sealed with a patch film from the inside, the packaging material web is sterilized in the sterilant tank 32, molded into a tube shape by the molding roller 34, and the packaging material Both ends are overlapped to form an overlap, and the overlap is longitudinally sealed in the longitudinal direction of the tube by the longitudinal seal element 36. The tube is filled with liquid food from the filling pipe 35, and this tube is packed into the packaging container 1 While being sent downward by the length corresponding to the individual piece, it is transversely sealed in the transverse direction by a transverse sealing device (not shown), and at the same time continuously on the pillow-shaped preform 37. Cut and cut the middle of the sealing zone of the connected pillow-shaped preforms with a knife or the like to separate the individual pillow-shaped preforms, and the final molding machine 38 folds the upper and lower flaps of the pillow-shaped preforms. Molded into a packaging filling container 39 of the form.

It is necessary to inspect the container manufactured in order to maintain the quality of the paper packaging container with respect to appearance, sealability, fragrance retention, and the like. In particular, since there is no paper base material layer in the opening, there is a risk of inconvenience in sealing, and it is desirable to inspect the sealing property of the opening. Various proposals have been made for sealing properties.
For example, a seal inspection method capable of accurately inspecting the seal state of a seal portion by energizing an aluminum foil layer inside a packaging material for forming a paper container and measuring the capacitance (see Patent Document 1) ), The flap is peeled off from the instrument wall by the pre-processing means, the specimen wall is cut by the specimen preparation means, the specimen is prepared, the seal quality is inspected by the seal quality means, and the seal band is inspected by the image processing means. And a method for inspecting the seal band for damage by a seal damage inspection means (see Patent Document 2).

However, in the above-described conventional technique, it is necessary to prepare an object by cutting an instrument wall by an incision process in which a paper container is opened for inspection, or by an object preparation means. Therefore, not all products can be inspected on the production line.

Japanese Patent Publication No. 2005-326276 Japanese Patent Publication No. 2004-144503

The present invention eliminates the need for incision of a paper container and cutting of a vessel wall for the preparation of an object, facilitates non-destructive inspection, and seal state inspection apparatus capable of inspecting all products on a production line It is another object of the present invention to provide a seal state inspection method.

The seal state inspection device of the present invention that solves this problem is a packaging laminate material comprising a thermoplastic material outermost layer, a paper base layer, a conductive barrier layer, and a heat sealable innermost layer,
In an apparatus for inspecting an opening that is formed by removing at least the outermost layer of the thermoplastic material and the paper base layer, and the opening is easily sealed,
A probe electrode and a ground electrode are arranged outside and inside the opening, and a current flowing between the probe electrode and the ground electrode is detected using a conductive barrier layer, and the sealing state of the opening is inspected by a judging means. To do.

In the seal state inspection apparatus according to the first aspect of the present invention for explaining the present invention, the opening is formed by a through-hole of the packaging laminate material, includes the outer edge of the through-hole, is a barrier pull tab from the outside, Is sealed with patch film,
The probe electrode has a shape that covers up to the outer edge of the through hole, and is arranged on the patch film from the inside.
An earth electrode is disposed so as to be detectable with a conductive barrier layer on at least one end surface of the web-like packaging laminate material;
The determination means detects the electrical connection between the probe electrode and the conductive barrier layer on the end face of the through hole through the patch film, and determines a defective seal state.

In the seal state inspection device according to the second aspect, which is a feature of the present invention, the opening is formed by a through hole in the paper base material layer, includes the through hole, and is the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat seal. It is sealed by laminating at the innermost layer,
The probe electrode has a shape that covers at least the edge of the through-hole, and is disposed on the heat-sealable innermost layer from the inside,
The earth electrode has a shape that covers up to the outer edge of the through hole, and is disposed on the outermost layer of the thermoplastic material from the outside.
A judging means detects conduction by a gap passing through the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and judges a poor seal state.

In a seal state inspection apparatus according to a third aspect of the present invention for explaining the present invention , the opening at the top of the container is formed by a through hole in the paper base material layer, includes the through hole, the outermost layer of the thermoplastic material, the conductive layer It is sealed by laminating with a conductive barrier layer and a heat sealable innermost layer,
The probe electrode has a shape that covers at least the edge of the through hole, and is disposed on the outermost layer of the thermoplastic material from the outside,
An earth electrode is disposed so as to be detectable with a conductive barrier layer on at least one end surface of the packaging laminate material formed in the container,
The determination means detects conduction through the conductive barrier layer by the voids penetrating the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and determines a defective seal state.

The seal state inspection method of the present invention is a packaging laminate material comprising a thermoplastic material outermost layer, a paper base layer, a conductive barrier layer, and a heat sealable innermost layer,
In a method for inspecting an opening in which at least the outermost layer of the thermoplastic material and the paper base layer are partially removed and the opening is easily sealed,
A probe electrode and a ground electrode are disposed outside and inside the opening,
A high voltage is applied to the probe electrode and the ground electrode, and a current flowing between the probe electrode and the ground electrode is detected using a conductive barrier layer,
The judging means inspects the sealing state of the opening.

In the seal state inspection method according to the first aspect of the present invention for explaining the present invention, the opening is formed by a through-hole of the packaging laminate material, includes the outer edge of the through-hole, and has a barrier pull tab from the outside. Is sealed with patch film,
A probe electrode having a shape covering the outer edge of the through hole is disposed on the patch film from the inside,
An earth electrode is disposed so as to be detectable with a conductive barrier layer on at least one end surface of the web-like packaging laminate material,
The determination means detects the electrical connection between the probe electrode and the conductive barrier layer on the end face of the through hole through the patch film, and determines a defective seal state.

In the seal state inspection method according to the second aspect, which is a feature of the present invention, the opening is formed by a through hole of the paper base material layer, includes the through hole, the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat seal. It is sealed by laminating at the innermost layer,
A probe electrode having a shape that covers at least the edge of the through-hole is disposed on the innermost heat-sealable layer from the inside,
An earth electrode having a shape covering the outer edge of the through hole is disposed on the outermost layer of the thermoplastic material from the outside,
A judging means detects conduction by a gap passing through the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and judges a poor seal state.

In the seal state inspection method according to the third aspect of the present invention for explaining the present invention , the opening at the top of the container is formed by a through hole of the paper base material layer, includes the through hole, the outermost layer of the thermoplastic material, the conductive layer It is sealed by laminating with a conductive barrier layer and a heat sealable innermost layer,
A probe electrode having a shape that covers at least the edge of the through-hole is disposed on the outermost layer of the thermoplastic material from the outside,
An earth electrode is disposed so as to be detectable with a conductive barrier layer on at least one end surface of the packaging laminate material formed in the container,
The determination means detects conduction through the conductive barrier layer by the voids penetrating the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and determines a defective seal state.

According to the present invention described above, the following advantageous effects can be obtained.
The seal state inspection apparatus of the present invention is an apparatus for inspecting an opening of a packaging laminate material composed of a thermoplastic material outermost layer, a paper base material layer, a conductive barrier layer, and a heat sealable innermost layer.
The opening is formed by removing at least the outermost layer of the thermoplastic material and the paper base layer, and is easily sealed. Since there is no paper base material layer, the opening has weak mechanical strength, and there are steps and edges, which may cause a sealing failure, which may adversely affect the contents. According to the present invention, it is possible to detect a container having a seal failure in the opening and prevent it from being shipped as a product.

In the seal state inspection apparatus of the present invention, the probe electrode and the ground electrode are disposed close to the outside and inside of the opening without mechanically contacting the surface of the packaging laminate material, so that the electrode (inspection) Thus, the outer surface of the packaging laminate material is not damaged, and all products (packaging material, packaging container) can be inspected on the production line.

In the seal state inspection apparatus of the present invention, the conductive barrier layer, which is one layer of the packaging laminate material, is used for the inspection, so that no parts, means, instruments, etc. other than the above-described electrodes are required for detection. Contributes to simplification.
In this specification, the use of a conductive barrier layer for inspection means that the conductivity of the barrier layer is used to pass a current between the probe electrode and the ground electrode by energizing the barrier layer when there is a defect. Or when there is a defect, current is passed between the probe electrode and the ground electrode by energizing through the pinhole, crack or gap of the barrier layer.

In the seal state inspection of the first aspect of the reference for explaining the present invention, the opening is formed by the through hole of the packaging laminate material, includes the outer edge portion of the through hole, and has a barrier pull tab from the outside, and from the inside. Sealed with a patch film, the probe electrode has a shape that covers up to the outer edge of the through hole, is disposed on the patch film from the inside, and the ground electrode is at least one end surface of the web-shaped packaging laminate material The determination means detects the continuity between the probe electrode and the conductive barrier layer on the end surface of the through-hole via the patch film so that the sealing state can be detected. Judge the defect.

Each layer of the packaging laminate is exposed on the end face of the edge of the through hole, and the barrier property is lost. It is sealed with a patch film from the inside with a barrier pull tab from the outside so as to cover this edge. If there is a pinhole at the edge portion of the relatively weak inner patch film, if the content liquid oozes out from this location or air enters from the outside, the content may be adversely affected.
Since the probe electrode is disposed on the patch film from the inside, when there is a pinhole at the edge portion of the inner patch film, the probe electrode and the conductive barrier layer on the end face of the through hole are connected via the pinhole. It conducts and further conducts in the conductive barrier layer. Since the ground electrode is disposed so as to be detectable with the conductive barrier layer on at least one end surface of the web-like packaging laminate material, if there is a defect in the pinhole, the probe electrode is interposed via the conductive barrier layer. A current flows between the electrode and the ground electrode.

Moreover, since the probe electrode has a shape that covers up to the outer edge portion of the through hole, even if there is a pinhole in the inner patch film or the heat sealable innermost layer at a location that deviates from the outer edge portion of the through hole. (Not defective), current does not flow between the probe electrode and the ground electrode, so that it is possible to prevent malfunction that is detected as defective even though it is not defective.

In the seal state inspection according to the second aspect, which is a feature of the present invention, the opening is formed by a through hole of the paper base material layer, includes the through hole, the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealability. It is sealed by laminating at the innermost layer.
The opening can be inspected before the packaging material is molded into the container and filled with the liquid contents. That is, after the container is molded and filled with contents, it is more difficult to inspect the seal state of the opening.

In the seal state inspection of the second aspect, which is a feature of the present invention, a probe electrode having a shape that covers at least the edge of the through-hole is disposed on the heat sealable innermost layer from the inside.
Even if there is a pinhole in the innermost heat-sealable layer at the point where the probe electrode is removed from the edge of the through hole (not defective), current does not flow between the probe electrode and the ground electrode, but it is not defective It is possible to prevent malfunctions to be detected.
Furthermore, since the ground electrode has a shape that covers up to the outer edge of the through-hole, there is no malfunction that the ground electrode is electrically connected to the conductive barrier layer on the end face of the web-shaped packaging laminate material.
In this aspect, the determination means detects the conduction by the voids penetrating the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and determines the poor seal state.

In the seal state inspection of the third aspect of the reference for explaining the present invention , the opening at the top of the container is formed by the through hole of the paper base material layer, includes the through hole, the outermost layer of the thermoplastic material, the conductivity Sealing is performed by laminating the barrier layer and the heat sealable innermost layer.
In this embodiment, it is inspected after being molded into a container and filled with contents, i.e. after being manufactured into a final product. Therefore, a highly reliable product can be shipped.
A probe electrode having a shape covering at least the edge of the through-hole is disposed on the outermost layer of the thermoplastic material from the outside.
The ground electrode is disposed so as to be detectable with the conductive barrier layer on at least one end surface of the packaging laminate material formed in the container.
When a container is formed from a web-like packaging material, the conductive barrier layers on the end faces of various packaging laminate materials are exposed depending on the folding method. Using this exposed surface, conduction with the ground electrode is made possible.

When there is a defect in the seal state inspection of the third aspect of the reference for explaining the present invention , a void is generated through the outermost layer of the thermoplastic material, the conductive barrier layer, and the heat sealable innermost layer in the through hole. . A conductive barrier layer is exposed at the end face of the gap or pinhole, and a current flows between the probe electrode and the ground electrode through the conduction surface. Judge the defect.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing an appearance of an inspection apparatus according to a first aspect which is a reference of the present invention .
FIG. 2 is a perspective view showing the external appearance of two examples of the packaging container used in the present invention.
FIG. 3 is a perspective view showing an appearance of a packaging filling machine for producing a packaging container used in the present invention.
FIG. 4 is an enlarged cross-sectional view of an opening for explaining an operation of detecting a seal failure by the inspection apparatus according to the first aspect which is a reference of the present invention .
FIG. 5 is a perspective view showing an appearance of the inspection apparatus according to the second aspect of the present invention .
FIG. 6 is an enlarged cross-sectional view of the opening for explaining the operation of detecting a seal failure by the inspection apparatus of the second aspect according to the feature of the present invention.
Figure 7 is an enlarged plan view and a side view of the prongs electrodes of the inspection apparatus of the second embodiment according to an aspect of the present invention.
FIG. 8 is an enlarged cross-sectional view of an inspection apparatus and a container for explaining an operation of detecting a seal failure by the inspection apparatus of the third aspect which is a reference of the present invention .
FIG. 9 is an enlarged cross-sectional view of an inspection apparatus and a container for explaining an operation of detecting a seal failure according to another example of the inspection apparatus of the third aspect which is a reference of the present invention .
FIG. 10 is a schematic side view of a model in which the inspection apparatus according to the third aspect which is a reference of the present invention is incorporated in a production line.
FIG. 11 is a schematic front view of the model of FIG. 10 in which the inspection apparatus according to the third aspect which is a reference of the present invention is incorporated in a production line.

The inspection apparatus of the first aspect shown in FIG. 1 inspects an opening 2 of a web-like packaging laminate material 1 composed of a thermoplastic material outermost layer, a paper base material layer, a conductive barrier layer, and a heat sealable innermost layer. Device.
The opening 2 is formed by removing the outermost layer of the thermoplastic material, the paper base layer, the conductive barrier layer, and the heat sealable innermost layer, and is easily sealed. The opening 2 is formed by a through-hole of packaging laminate material, includes an outer edge portion of the through-hole, and is sealed with a barrier pull tab from the outside and a patch film 5 from the inside.
As shown in FIG. 1, the probe electrode 3 is arrange | positioned from the inner side to the patch film 5 side.
A ground electrode 4 in the form of a plate having a transverse width of the packaging laminate material is disposed so as to be detectable with the conductive barrier layer on one end face 6 of the web-like packaging laminate material.

In this embodiment, the probe electrode 3 and the ground electrode 4 are disposed in close proximity to the outside and inside of the opening 3 without mechanically contacting the surface of the packaging laminate material 1. Therefore, the outer surface of the packaging laminated material is not damaged by the electrode (inspection), and all products (packaging material, packaging container) can be inspected on the production line.

With reference to FIG. 4, the operation of detecting a sealing failure by the inspection apparatus of the first aspect will be described.
The opening 2 is formed by a through-hole of the packaging laminate material of the thermoplastic material outermost layer 7, the paper base layer 8, the conductive barrier layer 9, and the heat-sealable innermost layer 10, and includes an outer edge portion of the through-hole. It is sealed with a patch film 5 from the inside by a barrier pull tab 11.
A conductive barrier layer is used for inspection and takes advantage of the conductivity of the barrier layer. A high voltage power supply 12 is connected between the probe electrode 3 and the ground electrode 4, and a high voltage is applied between them. When the patch film 5 has a pinhole 14 and is defective, the inside of the barrier layer 9 is energized to pass a current between the probe electrode 3 and the earth electrode 4. The determination means 13 detects the conduction between the probe electrode 3 and the conductive barrier layer 9 at the end face of the through hole through the pinhole 14 of the patch film 5 to determine a defective seal state.

When there is a pinhole at the edge portion of the inner patch film, the probe electrode and the conductive barrier layer on the end face of the through hole are conducted through the pinhole, and further, the conductive barrier layer is conducted. Since the ground electrode is disposed so as to be detectable with the conductive barrier layer on the end face of the web-shaped packaging laminate material, if there is a defect in the pinhole, the probe electrode and the ground are interposed through the conductive barrier layer. A current flows between the electrodes.

As shown in the enlarged view of FIG. 4, the probe electrode 3 has a shape (pear shape) that covers up to the outer edge portion of the through hole, so heat sealing is performed at a location 15 away from the outer edge portion of the through hole. Even if there is a pinhole in the innermost layer, no current flows between the probe electrode 3 and the ground electrode 4, so that it is possible to prevent a malfunction that is detected as a failure although it is not defective.

In FIG. 5 showing the appearance of the inspection apparatus of the second aspect that is a feature of the present invention and FIG. 6 of its enlarged view, the opening 2 is formed by a through hole of the paper base material layer 8 and includes the through hole. Sealing is performed by laminating the thermoplastic material outermost layer 7, the conductive barrier layer 9, and the heat-sealable innermost layer 19.
Before the packaging material is formed into a container and the container is filled with the liquid contents, the opening can be inspected, for example, in the machine before the filling process of the packaging filling machine shown in FIG.

Although the probe electrode 3 is illustrated in a simplified manner in FIG. 6, in the second aspect, the probe electrode 3 has a shape that covers at least the edge of the through hole. FIG. 7 shows the shape of the probe electrode 3. In this example, it is circular so as to cover the edge 72 of the through hole 71.
The probe electrode 3 is disposed on the heat sealable innermost layer 10 from the inside.
Even if there is a pinhole in the heat sealable innermost layer at the point 15 where the probe electrode 3 deviates from the edge of the through-hole, no current flows between the probe electrode and the ground electrode, and it is detected as defective even though it is not defective. Malfunctions can be prevented.
Furthermore, since the earth electrode 4 has a shape that covers the outer edge of the through-hole, there is no malfunction that the ground electrode 4 is electrically connected to the conductive barrier layer 9 on the end face of the web-shaped packaging laminate material.
In this embodiment, the judgment means 13 detects conduction by the gap 14 penetrating the thermoplastic material outermost layer 7, the conductive barrier layer 9 and the heat sealable innermost layer 7 in the through hole, and judges a poor sealing state. To do.

In the seal state inspection of the third aspect which is a reference of the present invention , a molded container filled with contents is inspected.
This aspect will be described with reference to FIG. 8, FIG. 9, and FIG. In the seal state inspection of this aspect, the opening 2 of the top portion 21 of the container 80 filled with the contents 81 is formed by the through hole of the paper base material layer 8 and includes the through hole, and the thermoplastic material outermost layer 7, Sealing is performed by laminating the conductive barrier layer 9 and the heat sealable innermost layer 10.
A probe electrode 3 having a shape that covers at least the edge of the through-hole is disposed on the thermoplastic material outermost layer 7 side from the outside.
The ground electrode 4 is disposed so as to be detectable with the conductive barrier layer 9 on the end face 82 of the packaging laminated material formed in the container. In this example, a plate-shaped ground electrode 4 is disposed so as to contact the bottom of the container. A high voltage power supply 12 is connected between the probe electrode 3 and the ground electrode 4, and a high voltage is applied between them.

When there is a defect in the seal state inspection in this mode, a void 14 is generated through the thermoplastic material outermost layer 7, the conductive barrier layer 9 and the heat sealable innermost layer 10 in the through hole. The conductive barrier layer 9 is exposed at the end face of the gap or pinhole, and a current flows between the probe electrode 3 and the ground electrode 4 through the conduction surface. The judging means 13 detects the conduction. , Determine the poor seal state.
In this embodiment, it is inspected after it is manufactured into a final product. Therefore, a highly reliable product can be shipped.

When a container is formed from a web-like packaging material, the conductive barrier layers on the end faces of various packaging laminate materials are exposed depending on the folding method. Using this exposed surface, conduction with the ground electrode is made possible.
Various shapes of the ground electrode 4 can be used. FIG. 9 shows a modification. In this example, the opening 2 at the top of the container 80 is sealed by laminating with the thermoplastic material outermost layer 7, the conductive barrier layer 9 and the heat sealable innermost layer 10. The probe electrode 3 is disposed from the outside of the opening 2. The ground electrode 4 is disposed so as to be detectable with the conductive barrier layer 9 on the end face 82 of the packaging laminated material formed in the container. In this example, a fibrous metal ground electrode 4 is disposed so as to contact the bottom surface of the container. A high voltage power supply 12 is connected between the probe electrode 3 and the ground electrode 4, and a high voltage is applied between them.

10 and 11 show a model in which the inspection device of the third aspect is incorporated in a production line.
In this model example, the containers 80 are sequentially conveyed by the belt conveyor 101. In the middle of the line, a vertical conveyor 102 that is gripped and conveyed from the side surface is installed. In the middle of the vertical conveyor 102, the probe electrode 3 is installed from the top, and the ground electrode 4 is installed below. If there is a defect in the seal state inspection in this mode, the conductive barrier layer is exposed at the end face of the gap or pinhole, and a current flows between the probe electrode 3 and the ground electrode 4 through this conductive surface, and the determination is made. The means 13 detects the continuity and determines a defective seal state.
When the defective seal state is determined, the defective product take-out device 103 activates the pusher 104 to remove the defective container from the line.

In addition, this invention is not limited to the said embodiment, It can change variously based on the meaning of this invention, and does not exclude them from the scope of the present invention.

The packaging container of the present invention can be applied to a packaging container filled with liquid food such as juice or milk.

FIG. 1 is a perspective view showing an appearance of an inspection apparatus according to a first aspect which is a reference of the present invention. FIG. 2 is a perspective view showing the external appearance of two examples of the packaging container used in the present invention. FIG. 3 is a perspective view showing an appearance of a packaging filling machine for producing a packaging container used in the present invention. FIG. 4 is an enlarged cross-sectional view of an opening for explaining an operation of detecting a seal failure by the inspection apparatus according to the first aspect which is a reference of the present invention. FIG. 5 is a perspective view showing the appearance of the inspection apparatus according to the second aspect, which is a feature of the present invention. FIG. 6 is an enlarged cross-sectional view of an opening for explaining an operation of detecting a seal failure by the inspection apparatus according to the second aspect which is a feature of the present invention. FIG. 7 is an enlarged plan view and a side view of the probe electrode of the inspection apparatus according to the second aspect which is a feature of the present invention. FIG. 8 is an enlarged cross-sectional view of an inspection apparatus and a container for explaining an operation of detecting a seal failure by the inspection apparatus of the third aspect which is a reference of the present invention. FIG. 9 is an enlarged cross-sectional view of an inspection apparatus and a container for explaining an operation of detecting a sealing failure according to another example of the inspection apparatus of the third aspect which is a reference of the present invention. FIG. 10 is a schematic side view of a model in which the inspection apparatus according to the third aspect which is a reference of the present invention is incorporated in a production line. FIG. 11 is a schematic front view of the model of FIG. 10 in which the inspection apparatus according to the third aspect which is a reference of the present invention is incorporated in a production line.

DESCRIPTION OF SYMBOLS 1 ... Packaging material 2 ... Opening part 3 ... Probe electrode 4 ... Earth electrode 9 ... Conductive barrier layer

Claims (2)

A packaging laminate material comprising a thermoplastic material outermost layer, a paper base layer, a conductive barrier layer, and a heat sealable innermost layer,
In an apparatus for inspecting an opening that is formed by removing at least the outermost layer of the thermoplastic material and the paper base layer and is easily sealed.
A probe electrode and a ground electrode are disposed outside and inside the opening, and a current flowing between the probe electrode and the ground electrode is detected using the conductive barrier layer, and the opening is determined by a judging means. a sealed condition inspection apparatus for inspecting a sealed condition,
The opening is formed by a through hole of the paper base material layer, includes the through hole, and is sealed by laminating with the thermoplastic material outermost layer, the conductive barrier layer, and the heat sealable innermost layer. And
The probe electrode has a shape that covers at least the edge of the through-hole, and is disposed on the heat-sealable innermost layer from the inside,
The earth electrode has a shape that covers up to the outer edge of the through hole, and is disposed on the outermost layer of the thermoplastic material from the outside.
The determination means detects conduction by a gap that penetrates the thermoplastic material outermost layer, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and determines a poor sealing state .
Shi Lumpur state inspection apparatus. A packaging laminate material comprising a thermoplastic material outermost layer, a paper base layer, a conductive barrier layer, and a heat sealable innermost layer,
In a method of inspecting an opening that is formed by removing at least the outermost layer of the thermoplastic material and the paper base layer and is easily sealed,
A probe electrode and a ground electrode are disposed outside and inside the opening,
A high voltage is applied to the probe electrode and the ground electrode, and a current flowing between the probe electrode and the ground electrode is detected using the conductive barrier layer,
It is a seal state inspection method for inspecting the seal state of the opening in the judging means ,
The opening is formed by a through hole of the paper base material layer, includes the through hole, and is sealed by laminating the thermoplastic material outermost layer, the conductive barrier layer, and the heat sealable innermost layer. And
The probe electrode having a shape covering at least the edge of the through-hole is disposed on the innermost heat-sealable layer from the inside,
The ground electrode having a shape covering the outer edge of the through hole is disposed on the outermost layer of the thermoplastic material from the outside,
The determination means detects conduction by a void passing through the thermoplastic material outermost layer, the conductive barrier layer, and the heat sealable innermost layer in the through hole, and determines a poor sealing state .
Shi Lumpur state inspection method.