JP2007186229A - Method for packing thermoplastic synthetic resin film product into outer packaging bag - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an advantageous method for packaging a thermoplastic resin film product into an outer packaging bag, which reduces extra dimensions to enable tight bag packaging with less looseness in putting a required number of thermoplastic synthetic resin film products into the outer packaging bag of thermoplastic resin film. <P>SOLUTION: According to the bag packaging method, a bottomed outer packaging bag with an opening is formed by applying a thermal welding seal and a cut to a transverse direction of a longitudinal tubular film made of a thermoplastic synthetic resin at required intervals. A required number of thermoplastic synthetic resin film products are deformed to be bent into a continuous waveform, and the deformed film products are inserted into the outer packaging bag from the opening. After insertion of the thermoplastic synthetic resin film products, the opening is sealed by thermal welding. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for bagging and packaging a thermoplastic synthetic resin film product in an exterior bag which is also made of a thermoplastic synthetic resin film.

  Thermoplastic synthetic resin film products, which are generally called “garbage bags”, “resource bags”, “polybags”, etc., are marketed on a per-leaf basis. Depending on the situation, the required number of sheets, for example, 10-50 sheets, for example, 10-50 sheets can be packed together and packaged in an outer bag made of a thermoplastic synthetic resin film and provided to the market. Is customary.

  Conventionally, packaging with an exterior bag in the required number of thermoplastic synthetic resin film products is performed by folding a sheet-like thermoplastic synthetic resin film in between and sandwiching the thermoplastic synthetic resin film product between them. In other words, a so-called three-way seal is used in which the three directions of the longitudinal direction and the front-rear lateral direction, which are the open side edges excluding the bent portion, are each heat-sealed.

  However, according to the conventional packaging method using such a three-way seal, when the sealer that bears the heat-sealing seal at the time of the three-way seal unnecessarily steps on the side edge of the thermoplastic synthetic resin film product as the package, There is a possibility that the thermoplastic synthetic resin film product itself is thermally welded to the thermoplastic synthetic resin film to be the exterior bag, thereby causing a product defect. Therefore, in order to avoid the occurrence of such product defects and ensure safe and reliable packaging work, each seal in the three-way seal is expected to have a large dimensional surplus in each case, and a heat-welded seal is required. I have to do it.

Therefore, the conventional required number of thermoplastic synthetic resin film products packaged in an outer bag formed by such a three-sided seal is different from the required number of thermoplastic synthetic resin film products in which the outer bag is a package. Since the excess of dimensions is excessive and the package has to be extremely loose and has a large slack, it does not look good and impairs the value of the product. In addition, the amount of film material applied to the outer bag is increased, resulting in a high cost and uneconomical problem.
Japanese Patent Laid-Open No. 06-286731

  The problem to be solved by the present invention has been devised to alleviate this problem in view of the above problems, and is a bag made of an outer bag made of a thermoplastic synthetic resin film for a required number of thermoplastic synthetic resin film products. To provide a method for packing and packaging a useful thermoplastic synthetic resin film product into an outer bag, capable of performing bagging and packaging with less tightness and less looseness by reducing the occurrence of excess dimensions in packing and packaging. It is intended.

  According to the present invention, a thermoplastic synthetic resin film product is packaged and packaged in an outer bag, and a thermoplastic synthetic resin tubular film is subjected to heat sealing and cutting in a direction transverse to the longitudinal direction at a necessary interval. In addition to forming an open bottomed outer bag, the required number of thermoplastic synthetic resin film products are bent and deformed into a continuous wave shape, and inserted into the outer bag from the opening in the bent state. The most important feature is to heat seal the opening later.

  According to the packaging method of the present invention, the required number of thermoplastic synthetic resin film products to be packaged are bent and deformed in a continuous wave shape using the soft elasticity of the thermoplastic synthetic resin film product itself, thereby possessing the thermoplastic synthetic resin film product. This can be changed to be smaller than the end face area in the original state, so that the insertion work into the outer bag can be easily performed with a margin in size, and then in the outer bag. Since the thermoplastic synthetic resin film product is elastically restored to its original shape, it can be fitted to the outer bag in the width direction.

  Therefore, it is not necessary to anticipate an excessive dimension in advance in the width dimension of the outer bag, and an appropriate-sized outer bag can be selected and used in advance to perform bagging and wrapping with a tight outer bag that is loose in the width direction and has little looseness. it can.

  After that, the opening of the outer bag needs to be heat-sealed and sealed, so there is still a possibility of surplus dimensions in the vertical direction, but since it is only one part of the opening, the loose as a whole The required number of thermoplastic synthetic resin film products can be packaged with a tight outer bag with little slackness, improving the appearance of the product and increasing the value of the product, and improving the handling property in the conveyance work, In addition, it is possible to reduce the cost by reducing the amount of film material used for forming the outer bag.

  Below, the packaging method of the thermoplastic synthetic resin film product of this invention to the exterior bag is demonstrated based on an Example.

  FIG. 1 is an explanatory view of an end face area of a required number of thermoplastic synthetic resin film products in an original state. FIG. 2 is an explanatory view of an end face area in a state where a required number of thermoplastic synthetic resin film products are bent and deformed in a continuous wave shape.

  In the present invention, the material used for forming the outer bag is a tubular film made of thermoplastic synthetic resin. The tube-shaped film made of thermoplastic synthetic resin is provided with a bottomed outer bag by forming a bag bottom by applying a heat-sealing seal in a direction transverse to the longitudinal direction and cutting the upper and lower sides at a predetermined interval. Can do. As will be described later, the outer bag is one in which a plastic synthetic resin film product is inserted into the outer bag and then the upper end opening is heat-sealed and sealed.

  The present invention uses the soft elasticity inherently possessed by the thermoplastic synthetic resin film product when inserting the required number of thermoplastic synthetic resin film products into the outer bag. Is characterized by being bent and deformed into a continuous wave shape and inserted into the outer bag under the state of the bending deformation.

  The end face shape under the original state of the thermoplastic synthetic resin film product to be packed by the outer bag is a flat rectangular shape as illustrated in FIG. This is the sum of the front and back of the width dimension A and the left and right sides of the thickness dimension B, and is A × 2 + B × 2.

  Such a predetermined number of thermoplastic synthetic resin film products are bent and deformed into a continuous wave shape as illustrated in FIG. 2 by utilizing their soft elasticity. Then, the entire circumference of the deformed contour formed under the bent state changes from the width dimension A to a (A> a) and increases the thickness dimension B to b ( B <b) changes and becomes a × 2 + b × 2.

  The total perimeter a × 2 + b × 2 of the contour under the bending deformation state is longer than the total perimeter A × 2 + B × 2 of the contour under the original state of FIG. 1 before bending deformation. Shorter.

  This is because the width dimension A is shortened to a by being bent in a continuous wave shape, but the shortening equivalent does not directly convert to the thickness side and increase the thickness dimension as it is. The portion corresponding to the shortening is equally divided into each of the continuous wave shapes, and only the equally divided dimension increases the thickness dimension from B to b. Accordingly, the increase in the thickness dimension from B to b is only a fraction of the shortening from A to a in the width direction, thereby changing to A × 2 + B × 2> a × 2 + b × 2. It can be said that

  The above-mentioned required number of thermoplastic synthetic resin film products can be bent and deformed into a continuous wave shape using their soft elasticity. For example, a plurality of round bars are arranged in parallel at predetermined intervals, The thermoplastic synthetic resin film product can be mounted on and the portions corresponding to the gaps between the round bars in the thermoplastic synthetic resin film product can be sequentially pressed.

  As described above, by bending and deforming in a continuous wave shape, it is possible to shorten the entire peripheral length of the contour of the end face of the thermoplastic synthetic resin film product, thereby allowing a dimensional margin from the opening in the exterior bag. It can be created and inserted easily.

  Moreover, the thermoplastic synthetic resin film product which is inserted into the outer bag and bent and deformed into a continuous wave shape has the original shape shown in FIG. 1 due to the elastic restoring force of the material over time in the outer bag. Since the restoration is performed, the entire circumference of the contour on the end face once shortened returns to the original dimension. Thereby, the thermoplastic synthetic resin film product can be fitted in the width direction of the exterior bag.

  Thereafter, a heat-sealing seal is applied to the opening of the exterior bag, and the required number of thermoplastic synthetic resin film products can be packaged and packaged in the exterior bag.

  The heat-sealing seal applied to the opening of the exterior bag here must still allow for extra dimensions in order to avoid product defects due to unnecessary welding.

  This causes loose looseness in the longitudinal direction of the exterior bag, but it is a small amount because the number of heat-sealing seals is small compared to the conventional case, and the tightness with little loose looseness as a whole. It is possible to pack and package the required number of thermoplastic synthetic resin film products with the exterior bag.

  As a result, the appearance of the product can be improved, the value of the product can be increased, the handling property in the conveying operation is good, and the excellent effect that the amount of film material used can be reduced and the cost can be reduced is achieved.

It is explanatory drawing of the end surface area under the original state of a required number of thermoplastic synthetic resin film products. It is explanatory drawing of the end surface area under the state which bent and deform | transformed the required number of thermoplastic synthetic resin film products in the continuous wave shape.

Explanation of symbols

A Width dimension B Thickness dimension a Width dimension b Thickness dimension

Claims (1)

A tube-shaped film made of thermoplastic synthetic resin is heat-sealed and cut in a direction transverse to the longitudinal direction at a required interval to form an open-bottomed exterior bag, and the required number of thermoplastic synthetic resin film products Of the thermoplastic synthetic resin film product characterized by being bent and deformed in a continuous wave shape, inserted into the outer bag from the opening under the bent deformation state, and the opening is heat-sealed and sealed after the insertion. Packing and packaging method for exterior bags.

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