JP6306066B2 - Square standing packaging bag - Google Patents

Description

The present invention relates to a corner standing packaging bag using the plastic film.

  In the plastic film production process, first, a resin raw material sent from a raw material hopper to a cylinder is melted with a heater, and then extruded through a screw and a die to continuously produce a cooled film. At present, when a packaging bag is made using an original fabric tube that is blown with 100% polyethylene (PE) pellets, the packaging bag film is usually very soft. And even if a gusset (gusset) is formed on such a soft packaging film, no corners appear and the appearance is not clean.

  Currently, the plastic wrapping bags with corners that are in circulation on the market are all laminated products. For example, a laminate product of CPP (unstretched polypropylene film) and PE (polyethylene) can be mentioned. Since such a laminate product uses an adhesive, the cost is high and it is not friendly to the environment.

  An object of the present invention is to provide a corner-standing packaging bag that can stand on a gusset when the packaging bag made of a polyethylene film is gusseted, and can increase a three-dimensional effect.

  In order to achieve the above object, the present invention is a square packaging bag made of a 100% polyethylene (PE) plastic film, wherein the bag body is formed in a square cylinder shape, and a predetermined shape is provided along the cylindrical corner portion. It is characterized in that a self-supporting seal portion is formed by heat fusion with a width.

  In the bag body, the plastic film may be formed in either a single layer structure or a composite structure. In the case of a single layer structure, LLDPE (Linear Low Density Polyethylene) 78% to 90%, LDPE (Low Density Polyethylene: specific gravity 0.90 to 0.92) 8% to 18%, and slip agent 1.2% to 4.5%. Preferred values include 84% LLDPE, 14% LDPE, and 2% slip agent.

  In the case of a composite structure, the plastic film can be composed of an outer layer, an intermediate layer and an inner layer. MDPE (medium density polyethylene: 0.92 to 0.94) is 78% to 90%, LDPE is 6% to 15%, HDPE (high density polyethylene: 0.94 to 0.96) is 3% to 5.5%, and slip agent is 0.8 to The intermediate layer contains MDPE from 0% to 85%, LDPE from 12% to 25%, HDPE from 2% to 5%, and slip agent from 0.8% to 2.5%, and the inner layer contains MDPE. 70% to 85%, LDPE 12% to 25% and slip agent 1% to 5%. In a preferred embodiment, the plastic film comprises 84% MDPE in the outer layer, 9.5% LDPE, 4.5% HDPE and 2% slip agent, 78% MDPE in the intermediate layer, 17% LDPE, As an example, HDPE contains 3.5% and slip agent contains 1.5%, and the inner layer contains MDPE 79%, LDPE 19% and slip agent 2%.

  Further, a dot-like or net-like pattern can be formed on the surface of the seal portion having a predetermined width, and the appearance of the product can be improved.

  Further, in the method for manufacturing a square packaging bag according to the present invention, first, a plastic film is slit-sealed to form a tube, which is formed into a square tube with a corner, and then a square tube-shaped corner is formed. The portion is sealed to form a seal portion having a seal width of 7 mm or less, and then the bottom of the rectangular tube shape is bottom-sealed to form a square packaging bag body.

  As described above, according to the present invention, a packaging bag made of a plastic film has a corner after a gusset, makes it look more beautiful, and can stand up the packaging bag. Can be increased.

It is a front view which shows embodiment of the square packaging bag concerning this invention. FIG. 2 is a right side view of FIG. FIG. 2 is also a plan view of FIG. (a), (b), (c), (d), (e), (f), (g), (h), and (i) are views showing the surface pattern of a hot plate for forming a seal portion, respectively.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[First embodiment]
The square packaging bag 1 of the present embodiment is made of a composite layer plastic film composed of an outer layer, an intermediate layer and an inner layer with 100% polyethylene (PE), and the bag body is formed in a square cylinder shape. A columnar seal portion 2 that can stand on its own is formed by heat-sealing the corner portion with a predetermined width D.

  A three-layer plastic film of 100% polyethylene (PE) is produced by blending the following raw materials into an outer layer, an intermediate layer and an inner layer. MDPE (medium density polyethylene: 0.92 to 0.94) is 78% to 90%, LDPE (low density polyethylene: specific gravity 0.90 to 0.92) is 6% to 15%, HDPE (high density polyethylene: specific gravity 0.94 to 0.96) is composed of 3% to 5.5% and slip agent 0.8 to 3.2%. The intermediate layer is composed of 70% to 85% MDPE, 12% to 25% LDPE, 2% to 5% HDPE, and 0.8% to 2.5% slip agent. The inner layer is composed of 70 to 85% MDPE, 12 to 25% LDPE, and 1 to 5% slip agent. The thickness of the three-layer plastic film is 30 μm to 70 μm.

  In a preferred embodiment, the outer layer is composed of MDPE 84%, LDPE 9.5%, HDPE 4.5%, and slip agent 2%, and the intermediate layer is composed of MDPE 78%, LDPE 17%, HDPE 3.5%, and slip agent 1.5%. The inner layer is composed of 79% MDPE, 19% LDPE, and 2% slip agent.

  The raw material composition is based on the sealing principle. That is, the raw material composition is designed based on the transmission of temperature. Since the film has three layers, when sealed, the film must have a sealing strength up to the inner layer and have a sealing property. In the sealing method, it is necessary to apply heat and pressure to the outer layer so that the inner layer seal has a certain strength and the outer layer does not melt. The basic principle of blending the raw materials is such that the density is increased from the highest to the lowest from the outer layer to the inner layer, so that the heat-resistant temperature follows from the highest to the lowest. Based on this principle, the sealing strength of the inner layer can be secured, and the appearance of the film (the outer layer side does not melt) can be secured.

  The production method of the packaging bag is to mix the raw materials blended in the above ratio to make the outer layer, intermediate layer and inner layer of the film to be printed in a mixer, melt by a three-layer extruder with a known structure, and extrude from the slit, When it is pushed out, it is blown with a predetermined air volume so as to be formed into a tube shape. Next, the formed tube is cut with a double-opening cutter into a sheet shape, and this sheet is melted and sealed with a slit sealer to form a tube shape with a desired dimension. This tube is folded right and left with a gusset box of a gusset machine to form gusset 4 (gusset). By the gusset box, the tube is formed in a square tube shape having four folds at four corners.

  The columnar seal portion 2 having a predetermined width is formed by pressing and heating the folds at the four corners of the left and right and upper and lower corners by a bag making machine with the opening of the original tube formed in a square tube shape in the front-rear direction. The seal width of the columnar seal portion 2 is a predetermined width D of 3 mm to 7 mm. A suitable seal width can be exemplified by 5 mm. Thereafter, the raw fabric tube is bottom-sealed 5 and the front and rear ends are cut to produce a square packaging bag.

  4 (a) (b) (c) (d) (e) (f) (g) (h) (i) are views showing the surface pattern of the hot plate 3 for forming a seal portion, respectively. In FIG. 2A, a square uneven pattern is formed on the hot plate 3 in a dot shape. In FIG. 2B, a turtle pattern is applied to the hot plate 3 in a net shape. Fig. 2 (c) shows a hexagonal half cut, with the turtle wings being staggered (dotted) up and down. FIG. 4D shows a pattern in which four diagonal hatches are arranged in rows and spaces at intervals. FIG. 4E shows a cross hatch pattern on the surface of the hot plate 3. In FIG. 5 (f), a character-filled pattern in which characters are engraved in a rectangular frame arranged at intervals is provided. FIG. 5G shows a pattern in which round holes are formed in a frame arranged at intervals on the hot plate 3. FIG. 6 (h) shows a pattern in which two large and small round holes are formed in a frame arranged at intervals on the hot plate 3. In FIG. 4 (i), the frame of FIG. 2 (h) is obliquely arranged, and a pattern is formed in which two large and small round holes are formed in the frame.

  In either case, the inner layer can be sealed with a certain strength. However, since the sealing portion as a corner is provided with a sealing portion for the corner in the four directions of the tube, there is no problem even if the sealing strength is insufficient and air leakage occurs.

  In this way, the packaging bag 1 made of a three-layer plastic film of 100% PE has a good appearance and can be erected by the columnar seal portion 2, so that the three-dimensional feeling and aesthetics of the packaging bag 1 can be increased. In addition, the production process can be simplified and the cost can be reduced by making a four-side sealed packaging bag including the columnar seal portion 2 with polyethylene.

  In addition, conventional CPP (non-stretched polypropylene film) and PE (polyethylene) laminate products are significantly more expensive than polyethylene, and automatic packaging machines with reel-wrapping shipments have a strong tendency to laminate products. Was impossible. On the other hand, the polyethylene film of the present embodiment is flexible and opens in various shapes to enable automatic packaging such as napkins and liners.

  In addition, because it uses polyethylene film, it is more gas permeable than conventional laminate products, and can also be used to compress packed products during automatic packaging of packed products such as napkins. When using a bag of goods, it has the advantage that the opening sound is lower than that of a laminated product. Furthermore, since the columnar seal portion 2 is formed with a predetermined width at the corner portion of the square tube shape, there is an advantage that the product can be neatly displayed even when the product of the packaged product is displayed.

Hereinafter, the compounding aspect of a three-layer film is illustrated.
<Example 1>
The outer layer of the three-layer plastic film contains 84% MDPE, 9.5% LDPE, 4.5% HDPE, and 2% slip agent. The intermediate layer contains 78% MDPE, 17% LDPE, 3.5% HDPE, and 1.5% slip agent. The inner layer contains MDPE 79%, LDPE 19% and slip agent 2%.

<Example 2>
The outer layer of the three-layer plastic film contains 78% MDPE, 15% LDPE, 5.5% HDPE, and 1.5% slip agent. The middle layer contains 70% MDPE, 25% LDPE, 4.2% HDPE, and 0.8% slip agent. The inner layer contains 70% MDPE, 25% LDPE, and 5% slip agent.

<Example 3>
The outer layer of the three-layer plastic film contains 90% MDPE, 6% LDPE, 3% HDPE, and 1% slip agent. The intermediate layer contains 85% MDPE, 12% LDPE, 2% HDPE, and 1% slip agent. The inner layer contains 85% MDPE, 12% LDPE, and 3% slip agent.

<Example 4>
The outer layer of the three-layer plastic film contains 90% MDPE, 6% LDPE, 3.2% HDPE, and 0.8% slip agent. The intermediate layer contains 80% MDPE, 12.5% LDPE, 5% HDPE, and 2.5% slip agent. The inner layer contains 85% MDPE, 14% LDPE, and 1% slip agent.

[Second Embodiment]
The square packaging bag of the present embodiment is made of a single layer plastic film made of 100% polyethylene (PE). The raw materials for single-layer plastic film are LLDPE, LDPE, and slip agent.
In the present embodiment, the bag body includes LLDPE of 78% to 90%, LDPE of 8% to 18%, and slip agent of 1.2 to 4.5%. As a preferable embodiment, an embodiment in which the bag body includes 84% LLDPE, 14% LDPE, and 2% slip agent can be exemplified.

  The raw materials blended in the above ratio as a film to be printed are blended with a mixer, and this is melt-extruded with a three-layer extruder, and blown with an appropriate air volume when extruded, and blown into a tube shape. . Next, the formed tube is cut with a cutter and formed into a sheet shape, and the sheet is sealed with a slit sealer and formed into a tube shape. Fold this tube in the gusset box of the gusset machine and make four folds at the four corners of the tube. Then, the raw fabric is put on a bag making machine, sealed at the creases on the left, right, top and bottom, and made into a bag with a cutter. The seal width of the fold is set to a predetermined width D of 3 mm to 7 mm. As a preferred embodiment of the seal width, a seal width of 5 mm can be exemplified. Thereafter, the packaging bag is bottom-sealed 5 and manufactured.

  As described above, inflation molding is performed with 100% PE pellets by changing the raw material composition. And an exterior bag is made with the raw material which carried out the inflation molding. The manufacturing process includes raw material mixing, film production, coating processing, slit processing, bag making processing, gusset processing, and sealing processing. This sealing process ensures the waist and strength of the film molded with 100% PE, and keeps the width D of the four-sided seal within 7 mm.

Hereinafter, the compounding aspect of a single layer film is illustrated.
<Example 1>
The raw material blending ratio of 100% PE single layer plastic film is LLDPE84%, LDPE14%, slip agent 2%.

<Example 2>
The raw material blending ratio of single layer plastic film with 100% PE is LLDPE 78%, LDPE 18%, and slip agent 4%.

<Example 3>
The raw material blending ratio of single layer plastic film with 100% PE is LLDPE 90%, LDPE 8%, slip agent 2%.

<Example 4>
The raw material blending ratio of single layer plastic film of PE100% is LLDPE88%, LDPE10.8%, slip agent 1.2%.

  It should be noted that the present invention is not limited to the above-described embodiment, and many modifications and changes can be made within the scope of the present invention, and all these modifications and changes fall within the protection scope of the present invention. . For example, it is good also as a structure which apply | coats a varnish on the surface of packaging bags, such as the said gusset 4, and gives rigidity.

Industrial application fields

  The present invention is a square packaging bag having a four-side seal shape using a polyethylene film, and can be used for packaging various objects to be packaged.

DESCRIPTION OF SYMBOLS 1 Packaging bag 2 Column-shaped seal part 3 Hot plate 4 Gusset

Claims (4)

The bag body is a square packaging bag made of a single-layer plastic film of 100% polyethylene containing 78% to 90% LLDPE, 8% to 18% LDPE, and 1.2 to 4.5% slip agent, A seal part that can be self-supported is formed by being heat-fused with a predetermined width along the cylindrical corner part, and a dot-like or net-like pattern is formed on the surface of the seal part with the predetermined width. Square-standing packaging bag, characterized in that is engraved. The square bag according to claim 1, wherein the bag body includes 84% LLDPE, 14% LDPE, and 2% slip agent. The bag body is a square packaging bag made of a 100% polyethylene composite layer plastic film consisting of an outer layer, an intermediate layer, and an inner layer, and the bag body is formed in a rectangular cylinder, and has a predetermined width along the cylindrical corner. A self-supporting seal part is formed by heat sealing with
The outer layer is blended with MDPE 78% -90%, LDPE 6% -15%, HDPE 3% -5.5%, and slip agent 0.8-3.2%,
The intermediate layer contains MDPE 0% to 85%, LDPE 12% to 25%, HDPE 2% to 5%, and slip agent 0.8% to 2.5%.
Furthermore, the inner layer is blended with MDPE 70-85%, LDPE 12% -25% and slip agent 1% -5%,
A square-shaped packaging bag, wherein a dot-like or net-like pattern is engraved on the surface of the seal portion having the predetermined width. The outer layer is blended with MDPE84%, LDPE9.5%, HDPE4.5% and slip agent 2%,
The intermediate layer contains MDPE 78%, LDPE 17%, HDPE 3.5% and slip agent 1.5%,
The inner layer was blended with MDPE 79%, LDPE 19% and slip agent 2%,
The square packaging bag according to claim 3.

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