JP6926801B2 - Manufacturing method of packaging bag - Google Patents

Description

The present invention relates to a method of manufacturing a bag for packaging an article.

Conventionally, in order to protect an article to be packaged, a packaging bag having a mat-like cushioning material such as an air cushion provided with a plurality of air chambers or a foam cushion formed by foam has been developed. For example, a bag-making method in which an interior air cushion is attached to an exterior bag has been proposed (see Patent Document 1).

Japanese Unexamined Patent Publication No. 2004-26160

By the way, not only the mat-shaped cushioning material but also the sheet-shaped cushioning material is known. Specifically, a sheet-shaped cushioning material (also referred to as "cushion paper" or "honey paper") in which a plurality of notches are arranged in a staggered manner along the same direction is known. When this cushioning material is stretched in a direction intersecting the extending direction of the cut portion, a sheet piece around the cut portion rises and a cushioning allowance is formed in the thickness direction before stretching.
However, the method for manufacturing a packaging bag using a mat-shaped cushioning material in which a cushioning allowance in the thickness direction is provided in advance as described above does not take into consideration the elongation of the cushioning material for forming the cushioning allowance, and thus is in the form of a sheet. It cannot be applied as it is to the production of packaging bags using the cushioning material of.

This case was devised in view of the above-mentioned problems, and one of the purposes is to make it possible to manufacture a packaging bag using a sheet-shaped cushioning material in which a cushioning allowance appears when stretched. do. Not limited to this purpose, it is also possible that the actions and effects derived from each configuration shown in the “mode for carrying out the invention” described later and which cannot be obtained by the conventional technique are exhibited. It can be positioned as another purpose.

The packaging bag manufacturing method disclosed here includes a first supply step of supplying an exterior material to be a bag-shaped exterior body having an opening, and a plurality of notches extending along a predetermined direction are provided in a staggered pattern. In the second supply step and the first supply step, the sheet-shaped interior material to be the interior body to be installed in the exterior body is supplied in a folded state without being stretched in a direction intersecting the predetermined direction. Of the supplied exterior materials, the exterior edge regions arranged on one side and the other side of the opening and the ends of the interior material supplied in the second supply step in the direction intersecting the predetermined directions. It includes a bonding step of bonding the interior edge areas arranged on the edges.

According to the method for manufacturing the packaging bag of the present invention, it is possible to manufacture a packaging bag using a sheet-shaped interior material in which the elongation of the interior material is taken into consideration and a buffering allowance appears when the interior material is stretched.

It is a perspective view which shows the packaging bag when it is not used. It is a vertical sectional view of FIG. It is a top view which shows the main part of the cushioning part in an unstretched state in an enlarged manner. It is a vertical cross-sectional view which shows the packaging bag at the time of use. It is a perspective view which shows the main part of the cushioning part in an extended state in an enlarged manner. It is sectional drawing which shows the AA cross section of FIG. It is a development view of a packaging bag. (A) shows a developed view of the main body bag (first surface portion, second surface portion and flap), and (B) shows a developed view of the buffer portion. It is a schematic diagram explaining the first manufacturing method (manufacturing method) of a packaging bag. (A) shows the first supply process and the first application process, (B) shows the second supply process and the first bonding process, (C) shows the second application process, and (D) shows. Indicates a folding bag making process and a second bonding process, and (E) indicates another bag making process. It is a flowchart explaining the procedure of the 1st manufacturing method. It is a schematic diagram explaining the second manufacturing method (manufacturing method) of a packaging bag. (A) shows a first supply process and a second supply process, (B) shows a folding bag making process and a heat crimping process, and (C) shows another bag making process. It is a flowchart explaining the procedure of the 2nd manufacturing method.

A packaging bag as an embodiment relating to a method for manufacturing a packaging bag will be described with reference to the drawings. It should be noted that the embodiments shown below are merely examples, and there is no intention of excluding the application of various modifications and techniques not specified in the following embodiments. Each configuration of the present embodiment can be variously modified and implemented without departing from the gist thereof. In addition, it can be selected as needed, or can be combined as appropriate.

A wrapping bag is a bag for wrapping an article. In the present embodiment, a packaging bag in which a cushioning portion for protecting the article to be packaged is provided in the main body bag will be described. The main body bag (exterior body) and cushioning part (interior body) that make up this wrapping bag are kraft paper, high-quality paper, medium-quality paper, art paper, coated paper, cast-coated paper, inkjet recording paper, kurupack paper, liner, etc. Paper such as white paperboard and paperboard, laminated paper in which thermoplastic resin such as polyethylene resin is laminated on one or both sides of these papers, non-woven fabrics such as spunbond and spunlace, and sheet materials such as plastic sheets such as synthetic paper and film. It can be formed from, and it is particularly preferable to use kraft paper or kurupack paper. However, the main body bag and the cushioning portion may be formed of different materials.
In the present embodiment, the packaging bag to be manufactured will be described first, and the sheet material assembled into the packaging bag will be described. After that, a method of manufacturing a packaging bag will be described.
In the description of the packaging bag, the packaging bag in a state where the openings are arranged upward will be described. The direction of action of gravity is downward, and the opposite direction of downward is upward.

In the description of the sheet material, the sheet material in a state of being placed on a horizontal plane will be described. This sheet material will be described using the X and Y directions that are orthogonal to each other in the horizontal direction. Each of the X direction and the Y direction extends in two directions opposite to each other. Therefore, for each of the X and Y directions, one is indicated by a subscript with "1" and the other is indicated by a subscript with "2". For example, one of the X _{directions is indicated as the X 1} direction, and the other is indicated as the X ₂ direction.
In the method for manufacturing a packaging bag, a form in which a strip-shaped continuum used as an interior material serving as a cushioning portion is unwound is illustrated. This feeding direction coincides with the longitudinal direction of the continuum (the direction in which the band extends) and is called the MD direction. The direction orthogonal to the MD direction coincides with the bandwidth direction of the continuum and is called the CD direction.

[1. Packaging bag configuration]
First, the main body bag 10 of the packaging bag will be described with reference to FIGS. 1 and 2.
The main body bag 10 is provided in an envelope type without a gusset having an opening 9 opened and closed by a flap 19 formed at the upper portion. Here, a square envelope is illustrated as the main body bag 10, but a long envelope, a Western-shaped envelope, or a nonstandard envelope may be used as the main body bag.
The main body bag 10 is provided with a first surface portion 11 and a second surface portion 12 facing each other.

These face portions 11 and 12 are connected to each other at the bottom portion 13 provided below the opening 9 in the main body bag 10 and the two side portions 14 and 15 erected so as to connect the bottom portion 13 and the opening 9. Will be set up. Further, the upper end edge portion (first end edge portion) 110 of the first surface portion 11 is arranged on one side of the opening 9 (upper right side in FIG. 1), and the upper end edge portion (second end edge portion) of the second surface portion 12 is arranged. ) 120 is arranged on the other side of the opening 9 (lower left side in FIG. 1).
Further, flaps 19 provided so as to project upward are continuously provided on the first surface portion 11.

Next, the cushioning portion 20 of the packaging bag will be described.
The cushioning portion 20 is also referred to as cushion paper or honey paper, and is a sheet-shaped cushioning material in which a plurality of notch portions 23a are provided in a staggered manner.
Further, the cushioning portion 20 is built in the main body bag 10 and is suspended between the upper end edge portion 110 of the first surface portion 11 and the upper end edge portion 120 of the second surface portion 12.

The cushioning portion 20 is suspended (suspended state) between the sticking ends 21 and 22 attached to the upper end edges 110 and 120 of the surface portions 11 and 12 and these sticking ends 21 and 22. It is roughly divided into two types of parts, that is, a main body portion 23 provided inside the main body bag 10.
Here, the first sticking end portion 21 is attached to the inner surface 111 of the upper end edge portion 110 of the first surface portion 11, and similarly, the first sticking end portion 21 is attached to the inner surface 121 of the upper end edge portion 120 of the second surface portion 12. The second sticking end portion 22 is stuck. On the other hand, the main body 23 is not attached to any part.

Further, the cushioning portion 20 in a state of being folded in half at the central folding line portion 230 in the suspension direction connecting the first pasting end portion 21 and the second pasting end portion 22 along the cushioning portion 20 is illustrated.
As shown in FIG. 2, the main body 23 of the cushioning portion 20 folded in half in this way has the first main body 231 and the second sticking end 22 on the side of the first sticking end 21 with the folded line 230 interposed therebetween. It is roughly divided into two parts, the second main body portion 232 on the side.

Further, the main body 23 is stretched by the weight of the article 1 by placing the article 1 (see FIG. 4) placed in the packaging bag through the opening 9.
That is, before the article 1 is put in the packaging bag (when the packaging bag is not used), the shock absorber 20 is not stretched (hereinafter referred to as "unstretched state"), and the article 1 is put in the packaging bag. After that (when the packaging bag is used), the buffer portion 20 is in an stretched state (hereinafter referred to as "stretched state").
The structure that allows the buffer portion 20 to be extended in this way is provided in the main body portion 23.
Hereinafter, the main body 23 in the unstretched state will be described, and then the main body 23 in the stretched state will be described.

First, the main body 23 in the unstretched state will be described with reference to FIG.
A large number of notches 23a are cut into the main body 23. These notch portions 23a are provided in at least the main body portion 23 of the cushioning portions 20.
The notch portion 23a extends in a direction (hereinafter referred to as "width direction") orthogonal to the suspension direction (here, the vertical direction).

The cut portions 23a are provided intermittently side by side along the width direction. That is, a non-cut portion 23b that is not cut is provided between the cut portions 23a adjacent to each other in the width direction.
The width direction dimension of the notch portion 23a is set to be larger than the width direction dimension of the non-notch portion 23b. That is, if the dimension of the notch portion 23a is "L ₁ " and the dimension of the non-notch portion 23b is "L ₂ ", the inequality 1 "L ₁ > L ₂ " is satisfied.

Here, notch 23a and the non-slit portion 23b is the first pattern P ₁ an arrangement of row provided arranged alternately along the width direction. Further, the cut portion 23a'and the non-cut portion 23b'arranged with a half pitch offset from the cut portion 23a and the non-cut portion 23b of the first pattern P _{1 are provided alternately along the width direction.} the arrangement of the rows and the second pattern P _2. These first pattern P ₁ and second pattern P ₂ are provided alternately side by side along the suspension direction.

Speaking in detail, the 'width direction center C _b' of the non-slit portion 23b in the widthwise center C _a and the second pattern P ₂ of the cut portion 23a in the first pattern P ₁ is arranged along the suspension direction NS. _{Similarly, the width direction center C b} of the non-cut portion 23 b in the first pattern P _{1 and the width direction center C a} ′ of the notch portion 23 a ′ in the second pattern P ₂ are arranged side by side along the suspension direction.

The buffer portion 20 having the main body portion 23 provided with such cut portions 23a, 23a'and non-cut portions 23b, 23b' has a blade portion (cutter) having a shape corresponding to the cut portions 23a, 23a' on the outer periphery. It is manufactured by cutting the uncut sheet material while rotating it by the provided rotary die cutter. Alternatively, the buffer portion 20 is manufactured by cutting the uncut sheet material while pressing it with a flat plate die cutter provided with a blade portion having a shape corresponding to the cut portions 23a, 23a'.

The sheet piece in one of the suspension directions (upper in FIG. 3) with respect to the notch 23a of the first pattern P _{1 is the first piece depending on the position of the second pattern P 2} with respect to the notch 23a'and the non-notch 23b'. It is roughly divided into a portion 31, a second piece portion 32, and a third piece portion 33.
The first piece portion 31 is _{one of the notch portions 23a of the first pattern P 1 in} the width direction (left in FIG. 3) and the other of the notch portions 23a'of the second pattern P _{2 in} the width direction (right in FIG. 3). ) And the part sandwiched between them. The second piece portion 32 is a portion sandwiched between the center of the notch portion 23a of _{the first pattern P 1 in the width direction and the non-notch portion 23b'of the second pattern P 2.} The third piece portion 33 is a portion sandwiched between the notch portion 23a of _{the first pattern P 1 in} the width direction and the notch portion 23a ′ of _{the second pattern P 2 in the width direction.}

The other sheet pieces of the suspension direction with respect to the first pattern P ₁ of the cut portion 23a, similarly to the above pieces 31, 32, 33, the fourth arm portion 34, the fifth arm portion 35 and the It is roughly divided into six pieces 36.
The fourth piece portion 34 is _{sandwiched between one of the notch portions 23a of the first pattern P 1 in} the width direction and the other of the _{notch portions 23a'of the second pattern P 2} in the width direction. The fifth piece portion 35 is sandwiched between the center of the notch portion 23a of _{the first pattern P 1} in the width direction and the non-notch portion 23b'of _{the second pattern P 2.} The sixth piece portion 36 is sandwiched between the notch portion 23a of _{the first pattern P 1 in} the width direction and the notch portion 23a ′ of _{the second pattern P 2 in the width direction.}

Subsequently, the main body 23 in the extended state will be described with reference to FIGS. 4, 5 and 6.
As shown in FIG. 4, the main body 23 in the stretched state is extended in the suspension direction as compared with the main body 23 in the non-stretched state. At this time, in the main body 23, the pieces 31 to 36 (see FIGS. 5 and 6) stand up from the suspension direction in the thickness direction of the face portions 11 and 12 (thickness direction of the main body 23 in the non-extended state), and the pieces stand up. The three-dimensional buffer cells 40 are formed by the portions 31 to 36. In other words, one buffer cell 40 appears when the pieces 31 to 36 arranged around the notch 23a stand up.

More specifically, as shown in FIG. 5, the first wall portion 41 corresponding to the first piece portion 31, the second wall portion 42 corresponding to the second piece portion 32, and the third corresponding to the third piece portion 33 The fourth wall portion 44 corresponding to the wall portion 43, the fourth piece portion 34, the fifth wall portion 45 corresponding to the fifth piece portion 35, and the sixth wall portion 46 corresponding to the sixth piece portion 36 are hexagonal cylinders. It is erected in the buffer cell 40 so as to form each side wall.

In the state where the main body 23 is geometrically most stretched (hereinafter referred to as "maximum stretched state") within a range where the main body 23 is not damaged, the first wall 41 and the fourth wall 44 are along the same plane and the third wall. The portion 43 and the sixth wall portion 46 face the first wall portion 41 and the fourth wall portion 44 along the other coplanar plane. Therefore, in the buffer cell 40 in the maximum extended state, wall portions 41 to 46 are erected so as to form each side wall of the square cylinder.

As described above, the main body 23 after being stretched is in a state in which the main body 23 before being stretched has a sheet shape, whereas the main body 23 is thicker than this sheet shape (hereinafter referred to as “mat shape”). Make an eggplant. A deformation allowance for cushioning, that is, a buffering allowance is formed in the mat-shaped main body portion 23 whose dimensions in the thickness direction are secured in this way. As described above, the form of the main body portion 23 changed from the unstretched state to the stretched state changes from a sheet shape to a mat shape by stretching. Basically, the main body 23 that has changed from a sheet shape to a mat shape does not become a sheet shape again, and the shape of the main body 23 is irreversibly changed even if it is slightly restored by the restoring force.

Further, as shown in FIG. 4, the extended cushioning portion 20 is provided in non-contact with the bottom portion 13 of the main body bag 10.
Specifically, it is provided so that the folded line portion 230 located at the lowermost position in the buffer portion 20 in the maximum extended state and the bottom portion 13 of the main body bag 10 do not come into contact with each other. In other words, the vertical dimension between the upper ends 21a and 22a of the sticking ends 21 and 22 and the bottom 13 of the main body bag 10 of the cushioning portions 20 is set to "M ₁ ", and the upper ends 21a and 22a and the cushioning portions in the maximum extended state are set. Assuming that the vertical dimension between the folded line portion 230 and the folded line portion in 20 is "M ₂ ", the inequality 2 "M ₁ > M ₂ " is satisfied.

Further, it is preferable to satisfy this inequality 2 and _{set "M 2} " as large as possible to bring it closer _{to "M 1".}
Conversely, as shown in FIG. 2, the folded line portion 230 in the unstretched buffer portion 20 is the bottom portion 13 of the main body bag 10 so that the buffer portion 20 in the maximum stretched state does not come into contact with the bottom portion 13 of the main body bag 10. It is provided in advance by a predetermined dimension "M _{3" with respect to the above.} That is, the buffer portion 20 is formed short in anticipation of the elongation allowance.

Subsequently, with reference to FIG. 4, an example of setting the dimensions of the cushioning portion 20 for realizing the above-mentioned non-contact structure will be described.
_{If the number of lines of patterns P 1} and P ₂ in the buffer portion 20 is "N" and the vertical dimension of the pasted end portions 21 and 22 is "M ₄ ", the approximate expression 3 "M _2- M ₄ ≒ (L ₁₎ −L ₂ ) × (N / 4) ”is established.
The left side of the approximate expression 3 represents the vertical dimension of the first main body portion 231 or the second main body portion 232 in the maximum extended state.
_{On the other hand, (L 1 −} L ₂ ) on the right side of the approximate expression 3 is the suspension direction dimension per buffer cell 40 in the maximum extension state, that is, the suspension direction of the first wall portion 41 and the fourth wall portion 44. Represents the dimensions.

Further, since the number of buffer cells 40 arranged in the suspension direction in the main body 23 is _{half (N / 2) of the number of rows of patterns P 1} and P ₂ , (N / 4) of the right side of the approximate expression 3 is , The number of buffer cells 40 arranged in the suspension direction in the first main body 231 or the second main body 232 is represented.
Here, ignoring the suspension direction dimensions of the second wall portion 42 and the fifth wall portion 45 extending in the width direction, the number of buffer cells 40 arranged in the suspension direction in the first main body portion 231 or the second main body portion 232 (N). The value obtained by multiplying / 4) by the suspension direction dimension (L _{1 −} L ₂ ) per buffer cell 40 in the maximum extension state (the right side of the approximate expression 3) is the first main body portion 231 or the second main body portion 232. It can be said that it approximates the vertical dimension in the maximum extension state of.

Therefore, it corresponds to each item in the approximate expression 3 such as _{the width direction dimensions L 1} , L _{2 of} the notched portion 23a or the non-notched portion 23b, the number of lines of the patterns P ₁ , P _{2 , and the vertical dimension M 4} of the pasted end portions 21 and 22. The above-mentioned non-contact structure can be designed by appropriately setting the parameters to be used.

[2. Sheet material composition]
Next, with reference to FIG. 7, the sheet material assembled in the above-mentioned packaging bag will be described.
This sheet material is composed of two members, a main body sheet material 10S assembled in the main body bag 10 and a cushioning sheet material 20S assembled in the cushioning portion. That is, in the packaging bag, the main body bag 10 having the first surface portion 11 and the second surface portion 12 and the cushioning portion 20 are separate members, and the two members of the main body sheet material 10S and the cushioning sheet material 20S are attached to each other and assembled. Be done.
Hereinafter, the configuration of the cushioning sheet material 20S will be described after describing the configuration of the main body sheet material 10S.

<Main body sheet material>
As shown in FIG. 7A, the main body sheet material 10S is provided with two horizontal ruled lines R _X1 and R _X2 (folding curves) extending in the X direction side by side in the Y direction, and two lines extending in the Y direction. Vertical ruled _{lines R Y1} and R _Y2 (folding curves) are provided side by side in the X direction. In the horizontal ruled lines R _X1 and R _X2 , one first horizontal ruled line R _X1 is arranged on the Y ₁ direction side with respect to the other second horizontal ruled line R _X2. Further, in the vertical ruled lines R _Y1 and R _Y2 , one of the first vertical ruled lines R _Y1 is arranged on the X ₁ direction side of the other second vertical ruled line R _{Y 2.}
The main body bag 10 is assembled by bending the main body sheet material 10S along these ruled lines R _X1 , R _X2 , R _Y1 , and R _{Y 2.}

The above-mentioned ruled lines R _X1 , R _X2 , R _Y1 , and R _{Y 2} form a rectangular outline that divides the first sheet piece 11S corresponding to the first surface portion 11.
A flap sheet piece 19S corresponding to the flap 19 is continuously provided on the Y _{1 direction side via the first horizontal ruled line R X1} on the Y direction side with respect to the first sheet piece 11S _{, and the second horizontal ruled line R X 2} is provided. second sheet piece 12S corresponding to the second surface portion 12 in the Y ₂ direction side through is continuously provided.

Further, each of X ₁ direction and X ₂ direction with respect to the first sheet piece 11S, is continuously provided the margin sheet piece 18S via the vertical ruled R _Y1, R _Y2. Margin sheet piece 18S is affixed on the surface of the second sheet piece 12S (corresponding to the inner surface of the second surface portion 12) facing the when the body sheet 10S is bent in a second horizontal lines R _X2.
Further, the Y ₁ direction side edge of the first sheet piece 11S, the first body pasting area 110S to be pasted in buffer sheet member 20S is set. Similarly, the edge of Y ₂ direction side of the second sheet piece 12S, the second body pasting area 120S to be pasted in buffer sheet member 20S is set.

<Cushion sheet material>
As shown in FIG. 7B, the cushioning application areas to be attached to the main body attachment areas 110S and 120S (exterior edge areas) are provided at the ends of the cushioning sheet material 20S on the Y ₁ direction side and the Y _{2 direction side.} 21S and 22S (interior edge area) are set. The buffer pasting areas 21S and 22S are areas corresponding to the above-mentioned pasting end portions 21 and 22. The buffer pasting areas 21S and 22S are not provided with the notch 23a.
Further, the cushioning sheet material 20S is _{provided with a third horizontal ruled line R X3} extending in the X direction at the center in the Y direction. The third horizontal ruled _{line R X3} is a folding curve corresponding to the folding line portion 230.

A main body sheet piece 23S corresponding to the main body portion 23 is provided in a region of the cushioning sheet material 20S excluding the cushioning attachment areas 21S and 22S. The main body sheet piece 23S is provided with the above-mentioned notch portions 23a in a staggered manner.
Further, the main body sheet piece 23S is provided with the first main body sheet piece 231S corresponding to the first main body portion 231 on the _{Y 1} direction side with respect to _{the third horizontal ruled line R X3.} On the other hand, a second main body sheet piece 232S corresponding to the second main body portion 232 is provided on the _{Y 2} direction side with respect to the third horizontal ruled line R _X3.

[3. Procedure for using the packaging bag]
Next, how to use the packaging bag will be described.
As shown in FIGS. 1 and 2, the flap 19 is first opened to open the opening 9, and the main body bag 10 is opened.

Then, the article 1 is put in the packaging bag, and the article 1 is placed or inserted into the main body 23 of the cushioning portion 20. At this time, as shown in FIG. 4, the main body 23 of the cushioning portion 20 extends in the suspension direction, so that the single portions 31 to 36 around the notch 23a rise in the thickness direction of the surface portions 11 and 12, and FIGS. As shown in 6, the buffer cell 40 appears in the main body 23.
Then, the flap 19 is attached to the upper end edge portion 120 of the second surface portion 12 of the main body bag 10 to seal the packaging bag. At this time, the article 1 is surrounded by the buffer cell 40.

[4. Packaging bag manufacturing method]
Next, a method of manufacturing a packaging bag will be described.
As described above, in the packaging bag to be manufactured by this method, when the buffer portion 20 is extended by the article 1, the buffer cell 40 stands up and appears, and changes to a state in which the cushioning function is exhibited. Conversely, since the cushioning portion 20 in the unextended state is in the form of a sheet, it is unused as compared with a packaging bag in which a cushioning material having a deformation allowance for cushioning such as an air cushion or a forming cushion is used. It is possible to suppress the bulkiness of the packaging bag at times.

Therefore, in the manufacturing method described in detail below, this interior material is attached to the exterior material to be the main body bag 10 without extending the interior material to be the cushioning portion 20.
The manufacturing method in which the interior material is maintained in the unstretched state will be described by taking two examples, the first manufacturing method and the second manufacturing method.

In the manufacturing method illustrated here, a pre-cut single-wafer-shaped main body sheet material 10S is used as the exterior material to be the main body bag 10. On the other hand, as the interior material to be the cushioning portion 20, a strip-shaped continuum (hereinafter referred to as "interior raw fabric") is used, and a single-wafer-shaped cushioning sheet material 20S is obtained by cutting the drawn interior raw fabric. ing.
The arrangement of the interior fabric is not particularly limited as long as it can be extended. For example, examples of the state in which the interior fabric is arranged include a wound state and a Z-shaped folded state. Here, an example is an interior fabric in a wound state.

The interior fabric cut by the cushioning sheet material 20S is provided with a plurality of notches 23a extending in the MD direction (predetermined direction) in a staggered manner.
Further, the interior fabric used in the first manufacturing method is in a state of forming two layers (multi-layers) folded at a portion corresponding to _{the third horizontal ruled line RX3 (see FIG. 7).} On the other hand, the interior fabric used in the second manufacturing method is not folded and is in a single layer state.

<First manufacturing method>
Hereinafter, the first manufacturing method will be described step by step with reference to FIG.
First, as shown in FIG. 8A, the main body sheet material 10S is supplied, and an adhesive is applied to the second main body sticking area 120S (second exterior edge region) in the supplied main body sheet material 10S. The second main body sticking area 120S is arranged at a position forming the other side of the opening 9.
Next, as shown in FIG. 8 (B), the second buffer bonding area 22S (second interior edge region) in the supplied buffer sheet material 20S and the second main body attachment area 120S to which the adhesive is applied. Paste together.

The cushioning sheet material 20S bonded in this way is continuously obtained by cutting the interior fabric 20W along the cutting line A along the CD direction (direction intersecting the feeding direction). For example, when the feeding speed of the interior fabric 20W is "Z ₁ [m / s]" and the dimension in the MD direction (width direction) set in the cushioning sheet material 20S is "Z ₂ [m]". 20W of the interior fabric is cut along the cutting line A at every time interval "Z ₂ / Z _{1 [s]".}
The interior fabric 20W is fed out in the MD direction without being extended in the CD direction. In other words, the interior fabric 20W is maintained in an unextended state when it is fed by feeding.

After that, as shown in FIG. 8C, the adhesive is applied to the first main body sticking area 110S (first exterior edge region) of the main body sheet material 10S. The first main body sticking area 110S is arranged at a position forming one side of the opening 9.
Then, as shown in FIG. 8 (D), the main body sheet material 10S is folded and overlapped at the fold line of the bottom region 13S corresponding to the bottom 13 of the packaging bag (see FIGS. 1 and 2, the portion facing the opening 9). ..
Then, of the cushioning sheet material 20S, the first buffering sticking area 21S (first interior edge region) and the first main body sticking area 110S to which the adhesive is applied are bonded together.
That is, the edge of the cushioning sheet material 20S in the CD direction (direction intersecting the predetermined direction) (the left or right cushioning sticking area 21S, 22S in FIG. 8) and the main body sticking area 110S, 12S of the main body sheet material 10S. And stick together.

As shown in FIG. 8 (E), the main body sheet material 10S, which was bag-made at the same time as the cushioning sheet material 20S was bonded in this way, has the glue margin sheet piece 18S as the second sheet in the same manner as in normal bag-making. It is folded and glued on the piece 12S.
A known adhesive or adhesive (hereinafter abbreviated as "adhesive") may be used when the cushioning sheet material 20S is attached to the main body sheet material 10S or when the main body sheet material 10S is glued into a bag shape. can. The application of the adhesive includes various application forms such as application by a sprayer or a brush, application by printing, and application in the form of a tape.

In the first manufacturing method described above, each step shown in FIG. 9 is sequentially carried out.
First, the first supply step of supplying the main body sheet material 10S is carried out (step A10). Subsequently, the first application step (bonding step) of applying the adhesive to the second main body attachment area 120S of the main body sheet material 10S supplied in the first supply step is carried out (step A30).

In addition, a second supply step of supplying the buffer sheet material 20S is carried out (step A20). In this second supply step, a multi-layer feeding step (feeding step) of feeding out the interior raw fabric 20 W in a state of being folded into multiple layers is carried out (step A22), and the interior raw fabric fed in the multi-layer feeding step is carried out. A cutting step of cutting 20 W along the cutting line A is carried out (step A24).
Subsequently, the second main body attachment area 120S to which the adhesive was applied in the first application step and the second buffer application area 22S of the buffer sheet material 20S supplied in the second supply process are bonded (bonded) to each other. One bonding step (bonding step) is carried out (step A40).

Then, a second applying step (bonding step) of applying the adhesive to the first main body attaching area 110S of the main body sheet material 10S is carried out (step A50).
After that, a folding bag making step (bag making step) in which the main body sheet material 10S is folded and overlapped in the bottom region 13S is carried out (step A60).
Then, a second bonding step (bonding step) of bonding (bonding) the first buffer bonding area 21S of the buffer sheet material 20S and the first main body bonding area 110S to which the adhesive has been applied in the second bonding step is performed. It is carried out (step A70).
After that, another bag-making step of folding and gluing the glue margin sheet piece 18S on the second sheet piece 12S is carried out in the same manner as the normal bag-making step (step A80).

<Second manufacturing method>
The second manufacturing method mainly differs from the first manufacturing method described above in the following points.
Difference 1: Use the main body sheet material with the thermoplastic layer laminated. Difference 2: The point that the interior material is unfolded in a single layer state (unfolded state). Difference 1 is the main body sheet material. Since thermal pressure bonding (adhesive action) is obtained by melting or softening (hereinafter, simply referred to as "melting") the laminated layer of No. 1 and heating and pressurizing, the adhesive is applied or applied, which is carried out in the first manufacturing method. The step of bonding with the adhesive is omitted.
The difference 2 is the step of folding the interior fabric, which is not carried out by the first manufacturing method using the pre-folded interior fabric 20W, because the interior fabric is a buffer portion in a folded state in the packaging bag. Is carried out.

Hereinafter, the second production method will be described step by step with reference to FIG.
First, as shown in FIG. 10 (A), the interior fabric 20W'in a single layer state is unwound. Then, the interior fabric 20W'is folded along _{the folding line R X3'corresponding} to the third horizontal ruled line R _X3 (see FIG. 7). The interior fabric 20W'supplied in this way is maintained in an unstretched state in the CD direction, as in the first manufacturing method.

After that, as in the first manufacturing method, the interior fabric 20W'is cut along the cutting line A'along the CD direction, and the cushioning sheet material 20S'is continuously obtained.
The first buffer sticking area 21S'of the obtained cushioning sheet material 20S'is placed on the first body sticking area 110S'of the supplied main body sheet material 10S'.
A layer of polyethylene resin is laminated on the inner surface of the main body sheet material 10S'in the packaging bag. On the other hand, the thermoplastic layer is not laminated on the interior fabric 20W'cut by the cushioning sheet material 20S'.

Subsequently, as shown in FIG. 10 (B), the main body sheet material 10S'is folded in the bottom region 13S', and the second cushioning attachment area 22S'of the cushioning sheet material 20S'and the second main body attachment of the main body sheet material 10S' The region 120S'is overlapped so as to face each other. Of the main body sheet material 10S'fabricated in this way, the buffer sticking areas 21S'and 22S'are laminated between the main body sticking areas 110S'and 120S'.
Then, these sticking areas 110S', 120S', 21S', 22S' are heat-pressure treated to melt the laminated layer of the main body sticking areas 110S', 120S'. By this melting, the first main body sticking area 110S'and the first buffer sticking area 21S' are heat-bonded, and the second main body sticking area 120S'and the second buffer sticking area 22S' are heat-bonded.

However, the first buffer sticking area 21S'and the second buffer sticking area 22S'are not heat-bonded to each other, and the portion corresponding to the opening is not sealed. This is because the cushioning sheet material 20S'is not laminated, so that no member for heat-bonding the cushioning regions 21S'and 22S' intervenes. Further, since the unstretched state of the cushioning sheet material 20S'is maintained, the heat-bonded material melted in the main body sticking regions 110S'and 120S' is passed through the notch 23a'to the buffer pasting regions 21S'and 22S'. This is because the invasion is prevented. Even if the cutout portions 23a'are provided in the buffer attachment regions 21S'and 22S', the opening corresponding to the notch portions 23a'is not formed in these buffer attachment regions 21S'and 22S', and the buffer is buffered. Non-thermal crimping between the sticking areas 21S'and 22S' is ensured.
Finally, as shown in FIG. 10C, the glue margin sheet piece 18S'is folded over and glued to the second sheet piece 12S'in the same manner as in normal bag making.

In the second manufacturing method described above, each step shown in FIG. 11 is sequentially carried out.
First, the first supply step of supplying the main body sheet material 10S'is carried out (step B10).
In addition, a second supply step of supplying the buffer sheet material 20S'is carried out (step B20). In this second supply step, a single-layer feeding step (feeding step) of feeding out the interior raw fabric 20W'in a single-layer state is carried out (step B22), and the interior raw fabric 20W' fed out in the single-layer feeding step is carried out. A folding _{feeding step of folding along the folding line R X3} ′ is carried out (step B24). After that, a cutting step of cutting the interior fabric 20W'folded in the folding supply step along the cutting line A'is carried out (step B26).

Subsequently, the first main body sticking area 110S'of the main body sheet material 10S'supplied in the first supply step is placed on the first buffer sticking area 21S'of the buffer sheet material 20S'supplied in the second supply step. Place. While maintaining this state, a folding bag making step of folding the main body sheet material 10S'in the bottom region 13S is carried out (step B30).

Then, a heat pressure bonding step (bonding step) is carried out in which heat is applied to the sticking areas 110S', 120S', 21S', and 22S' to melt the laminated layer of the main body sticking areas 110S', 120S' (step B40). ).
After that, another bag making step of folding and gluing the glue margin sheet piece 18S'on the second sheet piece 12S' is carried out in the same manner as the normal bag making step (step B50).

[5. Action and effect]
Since the present embodiment is configured as described above, the following actions and effects can be obtained.
[5-1. Packaging bag]
First, the actions and effects of the packaging bag will be described.
(1) By putting the article 1 in the packaging bag and placing it on the main body 23 of the shock absorber 20, the sheet-shaped main body 23 is stretched in the unstretched state, and the notch 23a is made in the stretched main body 23. A three-dimensional buffer cell 40 corresponding to each of the above appears. By surrounding the article 1 with the cushioning cell 40 appearing inside the main body bag 10, the protective property of the article 1 can be ensured, and the packaging bag can be provided with the cushioning property.
Moreover, since the main body 23 in the unstretched state is in the form of a sheet, it is unused as compared with a packaging bag using a cushioning material provided with a deformation allowance for cushioning such as an air cushion, a forming cushion, and a single-sided corrugated cardboard. It is possible to suppress the bulkiness of the packaging bag at the time.

In addition, when a cushioning material is provided separately from the main body bag in the conventional packaging bag, it is necessary to attach the entire cushioning material to the main body bag in order to fix the cushioning material to the main body bag. On the other hand, since the cushioning portion 20 is suspended in the present packaging bag, a part of the cushioning portion 20 may be attached to the main body bag 10, and the amount of adhesive or adhesive used can be reduced.
Further, since the cushioning portion 20 exerts a cushioning function by extending inside the main body bag 10, the cushioning portion 20 is formed short in anticipation of an elongation allowance. Therefore, the amount or weight of the cushioning material can be suppressed as compared with the packaging bag used as the cushioning material for the single-sided corrugated cardboard sheet manufactured by applying the wavy processing (flute processing) of the flat material sheet. ..

(2) Since the extended cushioning portion 20 is provided in non-contact with the bottom portion 13, the contact (bottomed) between the article 1 to be put in the packaging bag and the bottom portion 13 of the main body bag 10 is suppressed, and the article 1 Protectiveness can be enhanced.

(3) The sticking end portions 21 and 22 of the cushioning portion 20 are pasted on the inner surfaces 111 and 121 of the upper end edge portions 110 and 120 of the main body bag 10. Therefore, the amount of material of the cushioning portion 20 and the amount of material of the cushioning portion 20 are increased as compared with the packaging bag in which the cushioning portion is folded in a mountain between the pasting end portion and the main body portion and the pasting end portion is attached to the outer surface of the upper end edges 110 and 120. The weight can be suppressed.
In addition, by attaching the sticking end portions 21 and 22 to the inner surfaces 111 and 121, interference between the flap 19 of the main body bag 10 and the cushioning portion 20 is prevented, and the opening 9 can be smoothly opened and closed.

(4) When the main body bag 10 and the cushioning portion 20 composed of the first surface portion 11, the second surface portion 12 and the flap 19 are all made of the same material, the processability of the packaging bag after use is improved. Can be improved. For example, when the packaging bag is recycled or disposed of, it is not necessary to separate the packaging bag for each type of material, and the processing workability can be improved. If the main body bag 10 and the cushioning portion 20 are made of paper (for example, kraft paper), the used packaging bag can be taken out as it is for waste paper collection or combustible waste.

(5) Since the cushioning portion 20 is suspended in a folded state, the thickness of the packaging bag when not in use is compared with, for example, a packaging bag suspended in a state where the cushioning portion is folded in three or more. Can be suppressed.
Specifically, in the unused packaging bag where the main body 23 is provided, four sheet pieces are provided in the order of the first surface portion 11, the first main body portion 2311, the second main body portion 223, and the second surface portion 12. Stacked. On the other hand, in the cushioning portion folded into three or more, three or more main body portions are folded and five or more sheet pieces are laminated. Therefore, by suppressing the thickness of the folded main body 23, the bulkiness of the packaging bag can be suppressed.

(6) In addition, since the main body bag 10 having the first surface portion 11 and the second surface portion 12 and the cushioning portion 20 are separate members, the cushioning portion 20 is provided for the main body bags 10 having various shapes and sizes. Can be pasted. On the contrary, cushioning portions 20 of various sizes can be attached to the main body bag 10. Therefore, various packaging bags according to the size and shape of the article 1 can be efficiently manufactured.

[5-2. Production method]
Next, the action and effect of the method for manufacturing the packaging bag will be described.
In the actions and effects described here, first, the outline common to the first manufacturing method and the second manufacturing method is described, and then the details peculiar to each manufacturing method are described.

<Overview>
(1) The interior fabrics 20W and 20W'cut into the buffer sheet materials 20S and 20S'in the second supply step are supplied without being stretched in the CD direction. That is, in consideration of the fact that the cushioning portion 20 of the packaging bag is stretched by the user, the interior fabrics 20W, 20W'corresponding to the cushioning portion 20 and the cushioning sheet materials 20S, 20S'are not stretched at the time of manufacturing. There is. A sheet-shaped cushioning material in which a cushioning allowance appears when the cushioning sheet material 20S, 20S'and the main body sheet material 10S, 10S', which are held in the unstretched state, are bonded to each other and stretched is used. Packaging bags can be manufactured.

(2) Further, in the second supply step, since the single-wafer-shaped cushioning sheet materials 20S and 20S'are obtained by cutting the unwound interior fabrics 20W and 20W', the cushioning sheet materials 20S and 20S' are continuously provided. Can be manufactured, and the manufacturing efficiency of the packaging bag can be improved.
(3) Since the main body sheet materials 10S and 10S'supplied in the first supply process are folded and made in the folding bag making process, a cushioning sheet is applied to the bag making line of the bag corresponding to the main body bag. A packaging bag can be manufactured only by adding equipment to which the materials 20S and 20S'are added. That is, the packaging bag can be manufactured only by adding the manufacturing part for the shock absorber 20 without making a significant change to the normal bag making line.

<Details of the first manufacturing method>
(1) In the first manufacturing method, the interior raw fabric 20W in a state of being folded into two layers is fed out, so that the folding supply process performed in the second manufacturing method can be omitted, and the equipment cost increases. It can be suppressed.

(2) Further, in the first manufacturing method, since the main body sheet material 10S and the cushioning sheet material 20S are bonded with an adhesive, the heat-bonding function is performed like the laminated interior raw fabric 20W'used in the second manufacturing method. Various materials can be used for the interior fabric 20W, not limited to the materials to which the above is given.
The laminated interior fabric 20W'used in the second manufacturing method may be used in the first manufacturing method. When the heat crimping step is provided in this manufacturing method, the main body sticking areas 110S and 120S and the buffer sticking areas 21S and 22S can be firmly bonded by the heat crimping by the heat crimping step in addition to the bonding by the bonding step.

(3) By the way, the dimensions of the buffer-attached areas 21S and 22S in the unfolded buffer sheet material 20S are smaller than the dimensions of the main body-attached areas 110S and 120S in the unfolded main body sheet material 10S. In other words, the distance between the buffer attachment areas 21S and 22S is shorter than the distance between the main body attachment areas 110S and 120S. Therefore, both the cushioning application areas 21S and 22S cannot be attached to the main body sheet material 10S in the unfolded state without stretching the cushioning sheet material 20S.
On the other hand, in the first manufacturing method, after the second main body sticking area 120S and the second buffer sticking area 22S are stuck together, the main body sheet material 10S is folded in the bottom area 13S and overlapped, and then the first main body is stuck. The area 110S and the first buffer bonding area 21S are bonded together. Since the bonding steps are performed before and after the folding bag making process in this way, the cushioning sheet material 20S held in the unstretched state can be bonded to the main body sheet material 10S.

<Details of the second manufacturing method>
(1) In the second manufacturing method, the interior fabric 20W'in a single layer state is fed out, and then the interior fabric 20W'is folded _{along the folding line RX3'.} For this reason, it is not necessary to prepare the interior fabric 20W which is folded in two layers in advance as in the first manufacturing method, and it is possible to suppress an increase in material cost.

(2) Further, in the second manufacturing method, the laminated layer of the main body sheet material 10S'is melted in a state where the buffer sticking areas 21S'and 22S' are sandwiched between the main body sticking areas 110S'and 120S'. The main body sticking areas 110S'and 120S'and the buffer sticking areas 21S'and 22S' are heat-bonded. Therefore, by omitting the applying step and the bonding step of the first manufacturing method, the manufacturing man-hours can be reduced, which also contributes to suppressing the increase in equipment cost.

[6. others]
Finally, other modifications of the present embodiment will be described.
[6-1. Packaging bag]
First, a modified example of the packaging bag will be described.
The notched portion and the non-notched portion are not limited to the orientation extending in the width direction, and may extend at least in the direction intersecting the suspension direction. With such an orientation, the buffer can be extended in the suspension direction. In this case, the orientation of the notch portion in the interior fabric is not parallel to the MD direction, but is oriented along the MD direction (crosses the CD direction).
The main body bag is not limited to the gussetless envelope type with a flap, but various types of bags such as a square bottom bag, a gusset bag, a pillow bag, and a standing pouch can be used. You may use a bag without. In this case, a body sheet material having a shape corresponding to various types of bags is used.

The material that can be used for the main body bag and the cushioning portion is not particularly limited as long as it is a sheet-like material having a strength that does not damage it during use. For example, the above-mentioned paper, paperboard, non-woven fabric, plastic sheet and the like can be used as the sheet material. Further, a material obtained by laminating these (in addition to the laminating material as described above in the second manufacturing method, laminated paper, corrugated cardboard, etc.) can also be used as the sheet material. Among them, paper and paperboard are preferably used as sheet materials because it is easy to recycle used paper. In particular, kraft paper, kurupack paper, and paperboard are preferable to be used as sheet materials because of their excellent strength. The sheet material may be provided with a coating layer on one side or both sides for the purpose of imparting water resistance, printability, and improving strength.

[6-2. Production method]
Next, a modified example of the method for manufacturing the packaging bag will be described.
The application of the adhesive to the first main body sticking area in the first manufacturing method described above may be carried out at the same time as or before the application of the adhesive to the second main body sticking area regardless of the implementation timing.

In the first manufacturing method, the main body sheet material and the cushioning sheet material are bonded by bonding the first main body sticking area and the first buffering sticking area, and then the second main body sticking area and the second buffer sticking area. You may. Similarly, in the second manufacturing method, the main body sheet material and the cushioning sheet material are bonded to the first main body pasting area and the first buffering pasting area after the second main body pasting area and the second buffering pasting area are bonded together. May be pasted together.

The adhesive application area in the first production method may be a buffer application area in addition to or in place of the main body application area. Correspondingly, in the second production method, a cushioning sheet material in which a thermoplastic layer is laminated may be used. In this case, in order to prevent thermal pressure bonding between the cushioning areas, a cushioning sheet material which is laminated on the surface facing the main body sheet material and which is not laminated is used on the opposite surface.

The interior fabric that is unwound by the first manufacturing method is not limited to the layer form that is folded into two layers, but if the cushioning application areas are overlapped in a plan view, the multi-layers that are laminated in two layers are folded. It may have been. In this case, a packaging bag is manufactured in which the cushioning portion is folded in four or more and suspended.
Further, the interior fabric to be fed out may be provided with a plurality of notches in a staggered manner along the CD direction (predetermined direction). In this case, the interior fabric is cut along the CD direction and then bent at a folding curve along the CD direction. The cushioning area of the buffer sheet material thus obtained and the body attachment area of the main body sheet material are bonded together. For example, a double-folded cushioning sheet material cut from the interior fabric and a main body sheet material oriented by rotating the above-mentioned main body sheet material by 90 ° in its extending plane are bonded together.

Instead of supplying the main body sheet material that has been cut out in a single-wafer shape in advance in the first manufacturing method and the second manufacturing method, a strip-shaped exterior material may be fed out, and the drawn out exterior material may be cut to supply the main body sheet material. In this case, the main body sheet material can be continuously manufactured, and the manufacturing efficiency of the packaging bag can be further improved. On the other hand, a cushioning sheet material cut out in a sheet-fed shape in advance may be supplied, and this cushioning sheet material may be attached to the main body sheet material. In this case, the step of feeding out the buffer sheet material and the step of cutting can be omitted, and an increase in equipment cost can be suppressed.

In addition, in the method for manufacturing a packaging bag, a sealing adhesive portion such as glassine tape such as double-sided tape or Arabic glue may be added to the flap sheet piece. When a tape is used for the sealing adhesive portion, cutting the tape at the same time as the interior fabric can contribute to the improvement of manufacturing efficiency.
Alternatively, a main body bag (exterior material) formed in a bag shape in advance may be supplied, and a cushioning sheet material (interior material) may be installed in the main body bag. For example, the cushioning area of the cushioning sheet material may be attached to an existing envelope. In this case, the bag making step can be omitted, and the above-mentioned packaging bag can be manufactured only by adding a cushioning sheet material to the existing main body bag.
The following additional notes are disclosed with respect to the above embodiments.
[Appendix 1]
The first supply process to supply the exterior material that becomes a bag-shaped exterior body with an opening,
A plurality of notches extending along a predetermined direction are provided in a staggered manner, and a sheet-shaped interior material to be an interior body to be installed in the exterior body is folded without extending in a direction intersecting the predetermined direction. The second supply process to supply in the state of being
Of the exterior edge regions arranged on one side and the other side of the opening in the exterior material supplied in the first supply step and the interior material supplied in the second supply step, in the predetermined direction. With the bonding process of bonding the interior edge areas arranged at the edge in the intersecting direction.
A method for manufacturing a packaging bag, which comprises.
[Appendix 2]
The second supply step includes a feeding step of feeding out the strip-shaped interior material and a cutting step of cutting the interior material fed out in the feeding step by a cutting line intersecting with the feeding direction.
The method for manufacturing a packaging bag according to Appendix 1, wherein the packaging bag comprises.
[Appendix 3]
The feeding step includes a multi-layer feeding step of feeding the interior material in a state of being folded to form a multi-layer.
The method for manufacturing a packaging bag according to Appendix 2, wherein the packaging bag is manufactured.
[Appendix 4]
The feeding step includes a single-layer feeding step of feeding the interior material in a state of forming a single layer.
The second supply step includes a folding supply step of folding the interior material fed in the single-layer feeding step before the interior material is cut in the cutting step.
The method for manufacturing a packaging bag according to Appendix 2, wherein the packaging bag is manufactured.
[Appendix 5]
The bonding step includes an application step of applying an adhesive to at least one of the interior edge region and the exterior edge region, and the interior edge region and the exterior edge with the adhesive applied in the application step. With the bonding process to bond the edge area
The method for producing a packaging bag according to any one of Supplementary Provisions 1 to 4, wherein the packaging bag comprises.
[Appendix 6]
Including a bag making step of making a bag of the exterior material supplied in the first supply step.
The method for manufacturing a packaging bag according to any one of Supplementary Provisions 1 to 5, wherein the packaging bag is manufactured.
[Appendix 7]
The bag making step includes a folding bag making step of folding and superimposing the exterior materials in a bottom region corresponding to a bottom facing the opening.
The applying step includes a first bonding step of adhering one of the interior edge regions and one of the exterior edge regions with the adhesive applied in the applying step prior to the folding bag making step. Includes a second bonding step of adhering the other of the interior edge region and the other of the exterior edge region with the adhesive applied in the applying step after the folding bag making step.
The method for manufacturing a packaging bag according to Appendix 6, which cites Appendix 5, characterized by the above.
[Appendix 8]
In the first supply step, the exterior material having a thermoplastic layer laminated on a region including at least the exterior edge region is supplied.
The bonding step includes a thermal pressure bonding step of melting or softening the thermoplastic layer in a state where the exterior edge region and the interior edge region are overlapped with each other.
The method for manufacturing a packaging bag according to any one of Supplementary Provisions 1 to 7, wherein the packaging bag is manufactured.

1 Article 9 Opening 10 Body bag (exterior body)
10S body sheet material (exterior material)
11,12 Faces 110,120 Upper end edge (first end edge, second end edge)
110S, 120S Main body attachment area (exterior edge area)
13S Bottom area 13 Bottom 14,15 Side 18S Glue sheet piece 19 Flap 19S Flap sheet piece 20 Cushioning part (interior body)
20S cushioning sheet material (interior material)
20W interior fabric (interior material)
21,22 Sticking end 21S, 22S Buffer sticking area (interior edge area)
23 Main body 23S Main body sheet piece 230 Folded line part 231S, 232S Main body sheet piece 23a, 23a'Notch part 23b, 23b'Non-cut part 31,32,33,34,35,36 One piece 40 Buffer cell 41,42,43 , 44, 45, 46 Wall A Cutting line _RX1 , R _X2 Horizontal ruled line (polygonal curve)
R _Y1 , R _Y2 vertical ruled line (folded curve)
R _X3 Third horizontal ruled _{line R X3} ′ Folded line

Claims (4)

The first supply process to supply the exterior material that becomes a bag-shaped exterior body with an opening,
A plurality of notches extending along a predetermined direction are provided in a staggered manner, and a sheet-shaped interior material to be an interior body to be installed in the exterior body is folded without extending in a direction intersecting the predetermined direction. The second supply process to supply in the state of being
Of the exterior edge regions arranged on one side and the other side of the opening in the exterior material supplied in the first supply step and the interior material supplied in the second supply step, in the predetermined direction. a bonding step of bonding the interior edge area which is arranged in the direction of the edges intersect,
See containing and a bag-making step of bag making the outer material supplied by said first supplying step,
The bonding step includes an application step of applying an adhesive to at least one of the interior edge region and the exterior edge region, and the interior edge region and the exterior edge with the adhesive applied in the application step. Including a bonding step of bonding to the edge area
The bag making step includes a folding bag making step of folding and superimposing the exterior materials in a bottom region corresponding to a bottom facing the opening.
The applying step includes a first bonding step of adhering one of the interior edge regions and one of the exterior edge regions with the adhesive applied in the applying step prior to the folding bag making step. Includes a second bonding step of adhering the other of the interior edge region and the other of the exterior edge region with the adhesive applied in the applying step after the folding bag making step. > A method of manufacturing a packaging bag, which is characterized by this. The second supply step is characterized by including a feeding step of feeding out the strip-shaped interior material and a cutting step of cutting the interior material fed out in the feeding step by a cutting line intersecting with the feeding direction. The method for manufacturing a packaging bag according to claim 1. The method for manufacturing a packaging bag according to claim 2, wherein the feeding step includes a multi-layer feeding step of feeding out the interior material in a state of being folded to form a plurality of layers. The feeding step includes a single-layer feeding step of feeding the interior material in a state of forming a single layer.
2. The second supply step includes a folded supply step of folding the interior material fed in the single-layer feeding step before the interior material is cut in the cutting step. The manufacturing method of the packaging bag described in .

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