JP2005067735A - Film for packaging cut rice cake - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a film for packaging a cut rice cake which is excellent in such characteristics as oxygen permeability, steam barrier properties, strength, high stiffness, transparency and tearing properties, is a low cost, and is suitable for coping with the environment. <P>SOLUTION: The film comprises a two-layer laminated film 3 of a polypropylene resin layer 1 manufactured by co-extruding a polypropylene resin and a polyethylene resin and a polyethylene resin layer 2, or a three-layer laminated film of a polyethylene resin layer manufactured by co-extruding the polypropylene resin and the polyethylene resin, the polypropylene resin layer, and the polyethylene resin layer. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a cutting wrapping film.

  Conventionally, laminated films having various layer configurations have been developed and proposed as cutting and packaging films.

  As one of them, for example, a film having a low gas barrier property and a high ultraviolet transmittance, specifically, a 0PP / PE (a laminate of biaxially oriented polypropylene and polyethylene) film is known (for example, , See Patent Document 1).

In the above, a film 2 having a low gas barrier property and a high ultraviolet transmittance, specifically, for example, a 0PP / PE (biaxially stretched polypropylene and polyethylene) film is used, 1 is vacuum-packed one by one, and the cut straw is individually wrapped, and then the individually wrapped cut straw is subjected to ultraviolet sterilization treatment, and then the outer casing formed of a film having a high gas barrier property together with an oxygen scavenger or an inert gas. Wrapped and packaged ginger.
Japanese Examined Patent Publication No. 7-94245 (Examples, drawings, etc.)

  However, the laminated film proposed above uses a laminating adhesive or the like to bond biaxially stretched polypropylene and polyethylene, and the both are bonded together with the adhesive layer interposed. It must be.

  Therefore, it requires an operation process such as an adhesive application process, a lamination process, and the like, and accordingly, not only can not be expected to provide a cost advantage, but also for a laminate composed of a solvent system or the like. Use of an adhesive or the like causes a deterioration of the working environment, etc., is inferior to the surrounding environment, and is also a preferred laminated film, due to the influence of residual odor etc. on the contents such as cutting waste It cannot be said.

  By the way, as a laminated film that individually wraps cutting straw, it is generally excellent in oxygen permeability, but for water vapor permeability, it has excellent barrier properties to prevent its permeation, in the case of individual packaging, strength, Excellent waist, etc., excellent packaging machine suitability, tearability, excellent bag opening ability, excellent transparency for visually observing the contents, and transmits ultraviolet rays, It is required to have ultraviolet sterilization treatment suitability and other characteristics.

  Accordingly, the present invention provides a cutlet packaging film that is excellent in oxygen permeability, water vapor barrier properties, strength, high waist, transparency, tearability, etc., and is low in cost and suitable for the environment. It is to be.

  As a result of various studies to solve the above-mentioned problems, the present inventor has paid attention to the co-extrusion film forming technology. First, a polypropylene resin and a polyethylene resin are used, and these are co-extruded. If so, a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer are laminated by applying a weak stretching process, or three layers of a polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer are laminated. A laminated film obtained by laminating the film, and then using the laminated film obtained by laminating the two or three layers formed as described above to produce a bag for cutting and packaging, and then In the cutting bag packaging bag, cutting bags are individually packaged one by one to produce a cutting bag packaging product, which is formed into a film by coextrusion. For example, a laminating adhesive made of a solvent or the like is used. In addition, there are no harmful effects associated with it, and the above-mentioned two- to three-layer laminate film has oxygen permeability, water vapor barrier properties, strength, high waist, transparency, tearability, etc. The present invention has been completed by finding that it has excellent properties such as the above and can wrap the cut straws very well.

  That is, the present invention is a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer obtained by coextrusion of a polypropylene resin and a polyethylene resin are laminated, or a polypropylene resin and a polyethylene resin are co-extruded. The present invention relates to a cutting wrapping film comprising a laminate film in which three layers of an extruded polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer are laminated.

  According to the present invention, a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer according to the present invention are laminated, or a polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer. Since the film for cutting and wrapping made of a laminate film in which three layers are laminated is formed into a film by coextrusion, for example, without using a laminating adhesive made of a solvent system, etc. There are no harmful effects, and it is suitable not only for the abolishment of adhesives and reduction of processing processes, but also for the environment. Moreover, the above-mentioned film for cutting and wrapping made of a laminated film of two or three layers is oxygen permeable. Excellent in properties such as water resistance, water vapor barrier property, strength, high waist, transparency, tearability, etc. A.

  Also, a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer according to the present invention are laminated, or a laminate in which three layers of a polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer are laminated. The film for chopping and wrapping made of body film is coextruded and further subjected to weak stretching treatment, and in particular, realizes high oxygen permeability and unidirectional tearability due to anisotropy. It relates to a useful laminated film.

  The cutlet packaging film according to the present invention will be described in more detail with reference to the drawings.

  FIG. 1 and FIG. 2 are schematic cross-sectional views showing an example of the layer structure of the cutting pad packaging film according to the present invention, and FIG. 3 shows a book made using the cutting pad packing film shown in FIG. FIG. 4 is a schematic perspective view showing an example of the cutting bag packaging bag according to the invention, and FIG. 4 shows the cutting bag according to the present invention manufactured by filling and packaging the cutting bag packaging bag shown in FIG. It is a schematic perspective view which shows the example about a packaged product.

  First, in the present invention, as the cutlet packaging film A according to the present invention, as shown in FIG. 1, a polypropylene resin and a polyethylene resin are used, and these are coextruded to form a polypropylene resin layer 1 and a polyethylene resin. The basic structure consists of a laminate film 3 in which two layers of the resin layer 2 are laminated.

Next, in the present invention, as another example of the film for cutting and wrapping according to the present invention, as shown in FIG. 2, a polypropylene resin and a polyethylene resin are used, and these are coextruded to form a polyethylene An example of the cut-off packaging film A ₁ composed of a laminate film 4 in which three layers of a resin layer 2, a polypropylene resin layer 1, and a polyethylene resin layer 2 are laminated can be exemplified.

  The above exemplification illustrates one or two examples of the cutting and packaging film according to the present invention, and it goes without saying that the present invention is not limited thereto.

  Next, in the present invention, an example of a cut bag packaging bag made using the cut bag packaging film according to the present invention as described above will be described. As such cut bag packaging bag, FIG. As shown in FIG. 1, the case where the cut-and-wrap packaging film A according to the present invention shown in FIG. 1 is used will be described as an example. First, two cut-and-wrap packaging films A according to the present invention are prepared, and the polyethylene resin is prepared. The surfaces of the layers 2 and 2 are made to face each other, and after that, heat sealing is performed on the three ends of the periphery of the outer periphery to form the seal portions 11, 11, and 11, and the opening 12 is formed upward. A cut bag packaging bag B produced using the cut bag packaging film A according to the present invention comprising a three-way seal type soft packaging bag is manufactured.

  Next, in the present invention, as shown in FIG. 4, for chopping and wrapping made by using the chopping and wrapping film A according to the present invention comprising the three-side seal type soft wrapping bag manufactured above. From the opening 12 of the bag B, for example, one cutting bar 13 is filled, and then individually wrapped by, for example, vacuum packaging or the like, and the upper opening 12 is heat sealed, and the upper sealing portion 14 can be produced, and a cut and wrapped product C in which one cut bar is individually packaged in a cut and wrapped bag B made using the cut and wrapped film A according to the present invention can be manufactured.

  In the present invention, the cut bag packaging bag made using the cut bag packaging film according to the present invention is limited to the illustrated three-way seal type soft packaging bag packaging bag illustrated above. Needless to say, for example, a two-side seal bag, a three-side seal bag, a four-side seal bag, a gusset bag type, a self-supporting bag type, a horizontal or vertical pillow -It is possible to manufacture a cutting bag packaging bag composed of a flexible packaging bag of any packaging form such as a bag mold, a bag-in-box inner bag mold, and the like.

  Moreover, the cutting bag packaging film according to the present invention shown in FIG. 2 described above can be used, and bags can be made in the same manner as described above to manufacture cutting bag packaging bags composed of soft packing bags in various packaging forms. Is.

  Next, in the present invention, the film for cutting and packaging according to the present invention, the material constituting the bag for packaging and making bags using the film, the manufacturing method thereof, etc. will be described. As the polypropylene-based resin constituting the cutting and packaging film according to the present invention, it is basically possible to use a polypropylene homopolymer or a copolymer of propylene and an α-olefin such as ethylene. As the copolymer, a block copolymer (copolymer) or a random copolymer (copolymer) can be used.

  Thus, in the present invention, the polypropylene resin is excellent in melt tension, stretchability, etc., and has an inflation molding suitability described later, and in particular, a high pressure method low density polyethylene having a long chain branch described later is melted. As in the case of high tension, it is preferable to use a material in which a long chain branch is introduced into the main chain of the polypropylene resin to increase the tension in the molten state.

  In the present invention, specifically, as a polypropylene resin excellent in melt tension and stretchability, a polypropylene resin composed of a block copolymer or a random copolymer of propylene and ethylene or propylene and 1-octene is used. It is preferable to use a random copolymer from the viewpoint of transparency.

Thus, in the polypropylene resin comprising the block copolymer of propylene and ethylene or propylene and 1-octene or random copolymer, the density is about 0.9 [g / cm ³ ], The melt flow index (MFR) is in the range of 0.1 to 2.0 [g / 10 min], and the melt tension is in the range of 100 [mN] or more (10 [cN] or more). Can be used.

  Thus, in the above, when the melt flow index (MFR) is less than 0.1 [g / 10 minutes], the resin pressure rises during resin extrusion, giving a large load to the film forming machine, etc. Those exceeding 2.0 [g / 10 min] are not suitable for the top blowing inflation film formation method and are not preferred because they do not blow upward.

  Furthermore, in the above, when the melt tension is less than 100 [mN] (less than 10 [cN]), it is not preferable because it is not suitable for the top blown inflation film forming method.

  Next, in the present invention, examples of the polyethylene-based resin that constitutes the cutting packaging film according to the present invention include ethylene, propylene, 1-butene, 1-pentene, 4-methyl-1-pentene, and 1-hexene. , 1-heptene, 1-octene, 1-nonene, 1-decene, and other such copolymers with α-olefins can be used.

  Accordingly, in the present invention, the polyethylene resin is specifically described from the viewpoint of compatibility with the polypropylene resin, affinity, and the like, and further from the viewpoint of melt tension of the polyethylene resin. Specifically, it is preferable to use a copolymer of ethylene and 1-octene.

As the copolymer of ethylene and 1-octene, those having a melt flow rate (MFR) in the range of 0.1 to 4.0 [g / 10 min] and having a density of 0 The thing in the range of 880-0.920 [g / cm < ³ >] can be used.

  In the above, if the melt flow rate (MFR) is less than 0.1 [g / 10 min], an increase in the resin pressure is not preferable because it causes the machine (film forming machine) to stop. When the melt flow rate (MFR) exceeds 4.0 [g / 10 minutes], it is not preferable because the top blown inflation film formation becomes difficult.

In addition, in the above, if the density is less than 0.880 [g / cm ³ ], it is not preferable because of a decrease in the stiffness (rigidity) of the entire laminated film, and the density is 0.920 [g / Cm ³ ] is not preferable because of lack of suitability as a heat seal layer (heat seal material).

  In the present invention, the melt flow rate (MFR) is a value measured at (ASTM) D1238 190 ° C. 2.16 kg, and the density is a value measured at (ASTM) D1505.

  Next, in the present invention, the film forming method of the cutting bag packaging film according to the present invention will be described. First, in the present invention, the polypropylene resin as described above is used, which is the main component of the vehicle, If necessary, for example, antioxidants, ultraviolet absorbers, light stabilizers, antistatic agents, antiblocking agents, lubricants (fatty acid amides, etc.), flame retardants, inorganic or organic fillers, crosslinking agents, Add one or more additives such as dyes, pigments and other colorants, modifier resins, etc., and if necessary, add solvents, diluents, etc. To prepare a polypropylene resin composition.

  Further, in the present invention, in the same manner as described above, the above-described polyethylene-based resin is used, and these are used as the main components of the vehicle, and if necessary, for example, an antioxidant, an ultraviolet absorber, a light Stabilizers, antistatic agents, antiblocking agents, lubricants (fatty acid amides, etc.), flame retardants, inorganic or organic fillers, crosslinkers, dyes, pigments and other colorants, as well as modifying resins, etc. One or more of these additives are added, and if necessary, a solvent, a diluent and the like are added and kneaded sufficiently to prepare a polyethylene resin composition.

  Next, in the present invention, the polypropylene-based resin composition and the polyethylene-based resin composition prepared above are used, for example, an inflation coextrusion film forming method or a T-die coextrusion film forming method. A laminated film in which two layers of two layers of a polypropylene resin layer and a polyethylene resin layer are laminated together, or two layers of three layers of a polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer The film for cutting and wrapping packaging according to the present invention, which is made of a laminate film obtained by laminating layers, can be formed into a film.

  Thus, in the present invention, the film is formed by coextrusion film formation by the above-described inflation coextrusion film formation method or T-die coextrusion film formation method, and then further in the flow direction (MD) is set to 0.00. By applying a 5% to 20% orientation stretching treatment and a weak stretching treatment, a particularly useful laminate for packaging of cuttings is realized, especially by realizing high oxygen permeability and unidirectional tearability by anisotropy. The film for cutting and wrapping packaging according to the present invention comprising a film can be formed.

  Furthermore, in the present invention, when forming the film for cutting and wrapping according to the present invention, the above-mentioned inflation coextrusion film forming method or T-die coextrusion film forming method is particularly preferable. It is preferable to form a film by a blown inflation coextrusion film forming method.

  The above-mentioned top blown inflation coextrusion film forming method will be described in more detail. Using the polypropylene resin composition and the polyethylene resin composition prepared above, the polypropylene resin layer by the polypropylene resin composition is One layer constituting the laminate film is formed, and the polyethylene resin layer by the polyethylene resin composition is laminated on one side or both sides of the polypropylene resin layer. Using a circular die, first, each resin layer is extruded from a circular die by a plurality of extruders, and then the extruded tube-shaped molten resin is expanded in a bubble shape upward. The tube-shaped bubble immediately after extrusion is cooled with cold air around the outer surface while preventing the bubble from shaking and stabilizing it. Spraying and manufactured form a film and cooled, further, if desired, subjected to a weak stretching process is for manufacturing the film-forming the rice cake packaging film according to the present invention.

  Thus, in the present invention, as described above, a single layer constituting a laminated film is formed by forming a tubular molded laminated film into a film using an upward inflation co-extrusion method using an air cooling system. It is possible to produce a cutting / wrapping film according to the present invention comprising a cylindrical multilayer laminated film comprising a polypropylene resin layer and having a polyethylene resin layer laminated on one or both sides of the polypropylene resin layer. Is.

  Next, in the present invention, the total film thickness of the cut and wrapped packaging film according to the present invention produced as described above, and further the film thickness of each layer constituting the film, will be described first. The total film thickness is about 20 to 150 μm, preferably about 30 to 90 μm in the case of a laminate film in which two layers are laminated, and about 30 to about 30 to 90 μm in the case of a laminate film in which three layers are laminated. 250 μm, preferably about 30 to 120 μm is desirable.

  In the above, if the total thickness of the film for cutting and wrapping according to the present invention is less than 30 μm, and further less than 20 μm, it is not preferable from the viewpoint of mechanical suitability to a filling machine due to low waist, and 90 μm. And more than 150 μm to 250 μm are not preferable from the viewpoint of oxygen permeability, tearability and the like.

  Thus, in the present invention, as the film thickness of the polypropylene resin layer and the polyethylene resin layer constituting the cutting and packaging film according to the present invention, the film thickness of the polypropylene resin layer is about 10 to 50 μm, Preferably, about 15 to 40 μm is desirable, and the film thickness of the polyethylene resin layer is about 10 to 100 μm, preferably about 15 to 50 μm.

  In the above, if the film thickness of the polypropylene-based resin layer is less than 10 μm, and further less than 15 μm, it is not preferable because the waist becomes low and the handling and filling machine suitability deteriorates, and more than 50 μm, Furthermore, if it exceeds 40 μm, it is not preferable from the viewpoint of oxygen permeability.

  Further, in the above, if the film thickness of the polyethylene resin layer is less than 10 μm, and further less than 15 μm, it is not preferable because the seal strength becomes unstable, and more than 100 μm, If it exceeds 50 μm, it is not preferable from the viewpoints of oxygen permeability and tearability.

  In the cut and wrapping film according to the present invention produced above, the polyethylene resin and the polypropylene resin are melted to each other, both of which show compatibility, affinity, etc., both of which are firmly welded, Following the inflation moldability of polyethylene-based resin, which is formed while taking up the molded laminated film upward using the air cooling method, the polypropylene-based resin layer also takes up the molded laminated film using the air-cooled method upward However, the film can be formed by an inflation coextrusion molding method.

  Thus, in the cutting and packaging film according to the present invention, the polyethylene-based resin layer and the polypropylene-based resin layer are extremely firmly and tightly bonded and exhibit the characteristics of both, for example, excellent in transparency. Therefore, it is possible to visually see the individually wrapped cut waste from the outside, and since it is excellent in ultraviolet ray permeability, it has the advantage that it has ultraviolet sterilization treatment suitability for ultraviolet sterilization after individual cutting of the cut waste. Is.

  In addition, the film for cutting and wrapping according to the present invention expresses the synergistic effects of each of the polyethylene resin layer and the polypropylene resin layer, and has an opening property, blocking resistance, slipperiness, waist / rigidity, and impact resistance. In addition, it has excellent pinhole resistance and other properties, and is excellent in flexibility, heat seal characteristics, laminating characteristics, and the like, and a laminate film of a polyethylene resin layer and a polypropylene resin layer Therefore, the laminated film has excellent oxygen permeability and water vapor barrier properties that prevent water vapor permeation, can be formed at high speed, has excellent film forming stability, and has little curling properties. It is possible to produce a film for cutting and packaging according to the present invention.

  In particular, the film for cutting and wrapping according to the present invention combines the properties of polypropylene resin such as strength, rigidity, waist strength, etc. with the flexibility and heat seal properties of polyethylene resin. It is effective, has excellent transparency, has good opening, blocking resistance, slipperiness, stiffness / rigidity, impact resistance, pinhole resistance, etc. -Manufacture a cut and wrapping product that is excellent in tosyl and laminating properties, has almost no phenomena such as delamination, and has suitability for packaging machinery to wrap the cut pieces individually and is fully satisfactory. In addition, even after the wrapping, even if the corners of the cutting hook come into contact with the film, a phenomenon such as breakage of the film and breakage of the bag is not recognized.

  Moreover, since the film is excellent in tearing property, the cutting bag packaging product in which the cutting pad packaging film according to the present invention is used to individually wrap the cutting paddle can tear the packaging bag and easily take out the cutting paddle. It has the advantage that.

  Furthermore, in the present invention, the coextrusion laminating method is used to form a film, and the film for cutting and wrapping according to the present invention is manufactured. Therefore, the laminated film can be formed at a high speed, and In forming the film, the film forming stability is excellent, and the manufacturing cost can be remarkably reduced, so that the very useful film for cutting and packaging according to the present invention can be manufactured.

  Further, in the present invention, when forming a film by using the coextrusion lamination method, a solvent-based adhesive such as a laminating adhesive is not used, and therefore, there is an adverse effect associated therewith, for example, It is possible to improve the complexity of the work process, maintenance of the work environment, environmental response, etc.

  Next, in the present invention, when using the film for cutting and wrapping packaging according to the present invention, and explaining a method for making a bag for chopping and packaging from this, for example, using the film for wrapping and cutting the packaging according to the present invention produced above, The polyethylene resin layer faces each other and folded, or the two sheets are overlapped, and the outer peripheral peripheral edge is heat sealed to provide a seal portion to provide a bag body. Can be configured.

  Thus, as the bag making method, the cutting and packaging film according to the present invention is folded with the polyethylene-based resin layer facing each other, or the two sheets are overlapped, and the peripheral edge of the outer periphery For example, a side seal type, a two-side seal type, a three-side seal type, a four-side seal type, an envelope-attached seal type, a joint-attached seal type (pillary seal type) ), Heat-sealed in the form of heat seal such as pleated seal type, flat bottom seal type, square bottom seal type, etc., and using the film for cutting and wrapping according to the present invention Thus, a cut bag packaging bag having various forms can be manufactured.

  In addition, for example, a self-supporting packaging bag (standing pouch) or the like can be manufactured.

  In the above, as the heat seal method, for example, a bar seal, a rotary roll seal, a belt seal, an impulse seal, a high frequency seal, an ultrasonic seal and the like are known. It can be done by the method.

  Thus, in the present invention, the cut straw packaging bag made as described above is put one by one, and if necessary, it is filled by adding a packaging process such as deaeration packaging, vacuum packaging, etc. By doing so, the cut and wrapped product in which the cut and wrapped are individually packaged can be manufactured.

  In the above, not only one piece but also two or more pieces may be packaged, and the shape of the cut piece may be any shape.

  In the present invention, the cut and wrapped products individually packaged as described above, for example, after the post-treatment such as ultraviolet sterilization, usually, several to dozens or more of cut and wrapped products are again, A large soft packaging bag is packed and packaged with oxygen scavengers to produce a bag packaging product.

  Therefore, as a packaging material for making a large flexible packaging bag filled and packaged with the above-mentioned cut and packaged product, it is excellent in moisture proofing and the like, in particular, excellent in gas barrier property that prevents permeation of oxygen gas, water vapor and the like. It is said that it is necessary.

  As the packaging material, for example, at least a packaging material in which a base film, a barrier base material, a heat-seal resin layer, etc. are laminated can be used. To produce large-sized flexible packaging bags of various forms, and then several to a dozen or more chopped packaging products in the large-sized flexible packaging bag. , Packing and packaging, and manufacturing candy packaging products.

  In the above, as the barrier substrate, for example, a single-layer film of a polyvinylidene chloride resin, a co-extruded film using a polyvinylidene chloride resin, a coat film by a polyvinylidene chloride resin composition, an ethylene-vinyl alcohol Copolymer film, nylon MXD6 resin film, etc. can be used.

  Further, as the above-mentioned barrier base material, for example, a vapor-deposited film of metal such as aluminum, silicon oxide, oxide, etc. on one side of a base material film such as a polyester resin film, a polyamide resin film or a polypropylene resin film A barrier material provided with a vapor-deposited film of a metal oxide such as aluminum or the like can be used.

  Hereinafter, the present invention will be described in more detail with reference to examples.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition Functional polypropylene made of a polypropylene random copolymer (propylene-1 octene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) 100 weight A resin composition consisting of parts was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 25 μm, ( The layers of the resin composition of (b) are coextruded to 25 μm and formed into a film with a blow ratio of 1.8, and the present invention comprises a coextruded inflation laminate film of two types and two layers with a total thickness of 50 μm. A cut wrapping packaging film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, biaxially stretched nylon 6 film with a thickness of 20 μm / printed pattern layer / laminate adhesive layer / biaxially stretched polyethylene terephthalate film with a thickness of 12 μm / deposited film of silicon oxide with a thickness of 200 mm / plasma treatment Surface / primer layer / laminate adhesive layer / 50 μm thick linear low density polyethylene film packaging material is used, and two of the packaging materials are prepared. The surface of the low-density polyethylene film is overlapped facing each other, and thereafter, the end portion around the outer periphery is sealed in three directions to form a seal portion, and a three-way seal having an opening on the upper side. Type soft packaging bag, and then filling and packaging the cut-and-wrap packaging product individually packaged from the opening into the three-sided seal type soft packaging bag, and then opening the opening Heat the seal and Section to form a, to produce a rice cake packaging products.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition Functional polypropylene made of a polypropylene random copolymer (propylene-1 octene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) 100 weight A resin composition consisting of parts was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation co-extrusion film forming machine, the layer of the resin composition (a) is 20 μm, ( The layers of the resin composition of (b) are coextruded to 30 μm and formed into a film with a blow ratio of 1.8, and the present invention is composed of two types and two layers of coextruded inflation laminate film having a total thickness of 50 μm. A cut wrapping packaging film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, biaxially stretched nylon 6 film having a thickness of 15 μm, vapor-deposited film of silicon oxide having a thickness of 200 mm, plasma-treated surface / primer layer / printing pattern layer / adhesive layer for laminating / straight chain having a thickness of 50 μm Use a packaging material consisting of a layered structure of a low-density polyethylene film, prepare two sheets of the packaging material, and superimpose the surfaces of the linear low-density polyethylene film facing each other. A three-sided seal type flexible packaging bag having an opening at the top is formed by forming a seal part by three-side heat sealing the end, and then the three-sided seal type flexible packaging The sachet packaging product individually packaged as described above is filled and packaged in the bag from the opening, and then the opening is heat sealed to form the upper seal part, Manufactured.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition Functional polypropylene made of a polypropylene random copolymer (propylene-1 octene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) 100 weight A resin composition consisting of parts was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 25 μm, ( The layers of the resin composition of (b) are coextruded to 25 μm, and further formed into a film while being stretched in the flow direction at a weak stretch ratio of 7%, thereby coextruding inflation of two types and two layers with a total thickness of 50 μm. A film for cutting and wrapping packaging according to the present invention comprising a laminate film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, a biaxially stretched polyethylene terephthalate film having a thickness of 12 μm, a vapor-deposited film of silicon oxide having a thickness of 200 mm, a plasma-treated surface / primer layer / printing pattern layer / laminating adhesive layer / thickness 15 μm Using a packaging material composed of a biaxially stretched nylon 6 film / laminate adhesive layer / 50 μm thick linear low density polyethylene film, two sheets of the packaging material are prepared. The surface of the low-density polyethylene film is overlapped facing each other, and thereafter, the end portion around the outer periphery is sealed in three directions to form a seal portion, and a three-way seal having an opening on the upper side. Type soft packaging bag, and then filling and packaging the cut-and-wrap packaging product individually packaged from the opening into the three-sided seal type soft packaging bag, and then opening the opening Heat the seal and Section to form a, to produce a rice cake packaging products.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition From 100 parts by weight of functional polypropylene (propylene-ethylene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) made of a polypropylene random copolymer A resin composition was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 25 μm, ( The layers of the resin composition of (b) are coextruded to 25 μm and formed into a film with a blow ratio of 1.8, and the present invention comprises a coextruded inflation laminate film of two types and two layers with a total thickness of 50 μm. A cut wrapping packaging film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, biaxially stretched nylon 6 film with a thickness of 20 μm / printed pattern layer / laminate adhesive layer / biaxially stretched polyethylene terephthalate film with a thickness of 12 μm / deposited film of silicon oxide with a thickness of 200 mm / plasma treatment Surface / primer layer / laminate adhesive layer / 50 μm thick linear low density polyethylene film packaging material is used, and two of the packaging materials are prepared. The surface of the low-density polyethylene film is overlapped facing each other, and thereafter, the end portion around the outer periphery is sealed in three directions to form a seal portion, and a three-way seal having an opening on the upper side. Type soft packaging bag, and then filling and packaging the cut-and-wrap packaging product individually packaged from the opening into the three-sided seal type soft packaging bag, and then opening the opening Heat seal the upper sheet Section to form a, to produce a rice cake packaging products.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition From 100 parts by weight of functional polypropylene (propylene-ethylene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) made of a polypropylene random copolymer A resin composition was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation co-extrusion film forming machine, the layer of the resin composition (a) is 20 μm, ( The layers of the resin composition of (b) are coextruded to 30 μm and formed into a film with a blow ratio of 1.8, and the present invention is composed of two types and two layers of coextruded inflation laminate film having a total thickness of 50 μm. A cut wrapping packaging film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, biaxially stretched nylon 6 film having a thickness of 15 μm, vapor-deposited film of silicon oxide having a thickness of 200 mm, plasma-treated surface / primer layer / printing pattern layer / adhesive layer for laminating / straight chain having a thickness of 50 μm Use a packaging material consisting of a layered structure of a low-density polyethylene film, prepare two sheets of the packaging material, and superimpose the surfaces of the linear low-density polyethylene film facing each other. A three-sided seal type flexible packaging bag having an opening at the top is formed by forming a seal part by three-side heat sealing the end, and then the three-sided seal type flexible packaging The sachet packaging product individually packaged as described above is filled and packaged in the bag from the opening, and then the opening is heat sealed to form the upper seal part, Manufactured.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

  (1). First, the following resin compositions (a) and (b) were prepared.

(I). Resin composition Ethylene-1 / octene copolymer copolymerized using a single-site catalyst (metallocene catalyst) (Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , A resin composition comprising 100 parts by weight of melt flow rate, MFR = 1.6 g / 10 min) was prepared.

(B). Resin composition From 100 parts by weight of functional polypropylene (propylene-ethylene copolymer, density = 0.900 g / cm ³ , melt flow rate, MFR = 1.8 g / 10 min) made of a polypropylene random copolymer A resin composition was prepared.

  Next, using the resin composition prepared above, using a two-type two-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 25 μm, ( The layers of the resin composition of (b) are coextruded to 25 μm, and further formed into a film while being stretched in the flow direction at a weak stretch ratio of 7%, thereby coextruding inflation of two types and two layers with a total thickness of 50 μm. A film for cutting and wrapping packaging according to the present invention comprising a laminate film was produced.

  When the physical properties of the above-described cutlet packaging film were measured, it showed high stiffness and rigidity.

  Also, the interlayer strength at each lamination interface was high, and no phenomenon such as peeling at the lamination interface was observed in the tensile test after heat sealing between the polyethylene resin layers.

  Next, using the film for cutting and wrapping packaging formed as described above, making a pillow bag, filling and packaging the cutting paddle into it, and manufacturing the cutting paddy packaging product, the machine suitability for packaging the cutting paddle individually Excellent and individual packaging was possible without any problem.

  In addition, the cut and packaged product can be visually recognized from the outside, and is excellent in tearing suitability by the opening operation.

  Moreover, it was able to confirm that the cutting board packaging film formed into the above film has a very high oxygen permeability and is suitable as a cutting board packaging film.

  (2). On the other hand, a biaxially stretched polyethylene terephthalate film having a thickness of 12 μm, a vapor-deposited film of silicon oxide having a thickness of 200 mm, a plasma-treated surface / primer layer / printing pattern layer / laminate adhesive layer / thickness 15 μm Using a packaging material composed of a biaxially stretched nylon 6 film / laminate adhesive layer / 50 μm thick linear low density polyethylene film, two sheets of the packaging material are prepared. The surface of the low-density polyethylene film is overlapped facing each other, and thereafter, the end portion around the outer periphery is sealed in three directions to form a seal portion, and a three-way seal having an opening on the upper side. Type soft packaging bag, and then filling and packaging the cut-and-wrap packaging product individually packaged from the opening into the three-sided seal type soft packaging bag, and then opening the opening Heat the seal and Section to form a, to produce a rice cake packaging products.

  The soot-packed product produced above has excellent barrier properties against oxygen gas, water vapor, etc., has excellent laminating strength, etc., withstands distribution in the market, and is excellent in storage and storage.

[Comparative Example 1]
A polypropylene film (biaxially stretched polypropylene film, manufactured by Toyobo Co., Ltd., trade name, Pyrene P2161, film thickness 20 μm) is used as a base layer, and a two-component curable urethane-based adhesive (main agent: polyester polyol) -Copolymerized using a single-site catalyst (metallocene catalyst) having a film thickness of 30 μm, formed from a single-layer inflation film-forming machine using a rubber, a curing agent: aliphatic isocyanate) 1. Octene copolymer (manufactured by Dow Chemical Japan Co., Ltd., trade name, AFFINITY PF1140: density = 0.898 g / cm ³ , melt flow rate, MFR = 1.6 g / 10 min) A laminate film having a thickness of 50 μm was produced.

  When the physical properties of the laminate film produced above were measured, it showed high stiffness / rigidity, and was also excellent in machined cutting machine filling, but the oxygen permeability was very low due to the lighting of the stretched film. It was confirmed to be unsuitable as a film.

[Experimental Example 1]
About the laminated body film manufactured in said Examples 1-6 and the comparative example 1, each physical-property evaluation was implemented as shown below.

(1). Measurement of film thickness This was evaluated by measuring from a μ-meter manufactured by Sony Corporation.

(2). Measurement of waist / rigidity This was evaluated by measuring the waist (bending torque) of the laminated film after printing from SMT Co., Ltd., a pure bending tester, model name, JTC-911BT / pure bending tester.

(3). Measurement of tear strength This was evaluated by measuring tear strength in the flow direction (MD) from a method based on JIS-K-7128 using an Elmendorf tear tester manufactured by Tester Sangyo Co., Ltd.

(4). Measurement of total light transmittance This was evaluated by measuring the transmittance of all light from Zuka Tester Co., Ltd., haze meter, model name, SM-C.

(5). Measurement of oxygen permeability This was evaluated by measuring the oxygen permeability of a laminate film from JASCO Corporation, model name, gas palm type 100.

  The measurement results are shown in Table 1 below.

(Table 1)
┌───────────┬───────┬───────┬───────┐ │ │ Example 1 │ Example 2 │ Example 3 │ ├───────────┼───────┼───────┼───────┤ │ Film thickness (μm) │ 50 │ 50 │ 50 │ ├───────────┼───────┼───────┼───────┤ │ Waist / Rigidity [Nm] │4. 2 × 10 ^-6 │5.2 × 10 ^-6 │4.5 × 10 ^-6 │ ├───────────┼───────┼─────── ┼───────┤ │ Tear strength [N] │ 0.2 │ 0.2 │ 0.2 │ ├───────────┼───────┼── ──────┼───────┤ │ Total light transmittance [%] │ 93.1 │ 93.1 │ 94.2 │ ├───────────┼─ ── ───┼───────┼───────┤ │ oxygen permeability ^{│4.8 × 10 3 │4.2 × 10 3} │4.6 × 10 3 │ └─── ────────┴┴───────┴───────┴───────┘
┌───────────┬───────┬───────┬───────┐ │ │ Example 4 │ Example 5 │ Example 6 │ ├───────────┼───────┼───────┼───────┤ │ Film thickness (μm) │ 50 │ 50 │ 50 │ ├───────────┼───────┼───────┼───────┤ │ Waist / Rigidity [Nm] │4. 2 × 10 ^-6 │5.2 × 10 ^-6 │4.5 × 10 ^-6 │ ├───────────┼───────┼─────── ┼───────┤ │ Tear strength [N] │ 0.2 │ 0.2 │ 0.2 │ ├───────────┼───────┼── ──────┼───────┤ │ Total light transmittance [%] │ 93.1 │ 93.1 │ 94.2 │ ├───────────┼─ ── ───┼───────┼───────┤ │ oxygen permeability ^{│4.8 × 10 3 │4.2 × 10 3} │4.6 × 10 3 │ └─── ────────┴┴───────┴───────┴───────┘
┌───────────┬───────┐
│ │ Comparative Example 1 │ ├───────────┼───────┤ │ Film thickness [μm] │ 50 │ ├───────────┼─ ──────┤ │ Waist / Rigidity [N ・ m] │6.8 × 10 ^-6 │ ├───────────┼───────┤ │ Tear strength [ N] │ 0.6 │ ├───────────┼───────┤ │ Total light transmittance [%] │ 92.1 │ ├──────── ───┼───────┤ │ Oxygen permeability │1.7 × 10 ³ │ └───────────┴───────┘
In Table 1 above, the unit of oxygen permeability is [cc / m ² · day · atm (23 ° C.)].

  As is clear from the results shown in Table 1 above, Examples 1 to 6 according to the present invention are those of Comparative Example 1 in waist / rigidity, tear strength, total light transmittance, and oxygen permeability. It was confirmed that it was better than that.

  The present invention is a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer are laminated, or a laminate film in which three layers of a polyethylene resin layer, a polypropylene resin layer, and a polyethylene resin layer are laminated. In more detail, since the film is formed by coextrusion, for example, there is no use of a laminating adhesive composed of a solvent, etc. In addition, it is suitable not only for the abolishment of adhesives and reduction of processing processes, but also for the environment. Furthermore, the above-mentioned film for cutting and wrapping made of a laminated film of two or three layers is oxygen permeable. Excellent in water vapor barrier properties, strength, high waist, transparency, tearability, etc. Than it is.

It is a schematic sectional drawing which shows an example of the layer structure about the cutlery packaging film concerning this invention. It is a schematic sectional drawing which shows an example of the layer structure about the cutlery packaging film concerning this invention. It is a schematic perspective view which shows the example about the cutting bag packaging bag concerning this invention produced into a bag using the cutting bag packaging film shown in FIG. It is a schematic perspective view which shows the example about the cutting and packaging product concerning this invention manufactured by using the bag for cutting and packaging shown in FIG. 3, and filling and packaging cutting into this.

Explanation of symbols

A Cut-and-wrap packaging film A ₁ Cut-and-wrap packaging film B Cut-and-wrap packaging bag C Cut-and-wrap product 1 Polypropylene resin layer 2 Polyethylene resin layer 3 Laminate film 4 Laminate film

Claims (9)

A film for wrapping packaging comprising a laminate film in which two layers of a polypropylene resin layer and a polyethylene resin layer obtained by coextruding a polypropylene resin and a polyethylene resin are laminated. A cutting film packaging film comprising a laminate film in which three layers of a polyethylene resin layer obtained by co-extrusion of a polypropylene resin and a polyethylene resin, and a polypropylene resin layer and a polyethylene resin layer are laminated. The film for cutting and wrapping packaging according to any one of claims 1 to 2, wherein the polypropylene resin comprises a block copolymer, a random copolymer, or a homopolymer. The cut-off packaging according to any one of claims 1 to 3, wherein the polyethylene-based resin is made of an ethylene-α-olefin copolymer having a density of 0.880 to 0.920 g / m ^3. Film. The co-extrusion film is produced by an inflation co-extrusion film forming method or a T-die co-extrusion film forming method. The above-mentioned coextrusion is an inflation coextrusion film-forming method or a T-die coextrusion film-forming method, and the flow direction (MD) is subjected to 0.5% to 20% orientation stretching. The film for cutting and wrapping packaging according to any one of claims 1 to 5. Co-extrusion is based on the top-blown inflation co-extrusion film-forming method, The film for wrapping packaging according to any one of claims 1 to 6 above. The film for wrapping packaging according to any one of claims 1 to 7, wherein the polypropylene-based resin layer has a thickness of 10 µm to 50 µm. The film for cutting straw packaging according to any one of claims 1 to 8, wherein the polyethylene-based resin layer has a thickness of 10 µm to 100 µm.

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