JP2015013408A - Paper cup flange mold - Google Patents

Abstract

To obtain a paper cup flange molding die in which a conventional paper cup flange manufacturing apparatus can be used and the paper cup is unlikely to pop out. In a paper cup flange molding die comprising an upper mold (7) attached to an ultrasonic horn and a lower mold (8) into which a paper cup body is inserted, the upper end (513) of the paper cup is molded into a flange shape. A tapered surface (71) whose outer side expands downward is provided on the contact surface with which the upper surface of the flange portion of the upper mold contacts, and the outer peripheral surface of the flange (31) is parallel to the movement of the ultrasonic horn provided on the lower mold. The inner surface of the ring is restricted by the inner peripheral surface (820) urged in the upper mold direction, and the vicinity of the inner periphery of the upper surface of the plastic ring has a tapered surface that can contact the tapered surface of the upper mold. And a paper cup flange molding die characterized in that the upper end is regulated by a donut-shaped anvil (81) parallel to the tapered surface. [Selection] Figure 5

Description

  The present invention mainly includes a flange portion of a cup used for manufacturing a paper cup using paper as a base material, which stores liquids, granules, powders, etc., such as beverages such as juice and solid confectionery such as potato chips. It relates to a mold to be molded.

The top opening of a paper cup molded container with a lid used for paper cups used in vending machines such as juice and coffee, and instant foods such as cup soup and cup miso soup, even if you hold the top of the container by hand It has the role of giving rigidity to the container so that the shape does not collapse.
Further, if necessary, a lid is fused to the upper opening of the paper cup molding container to prevent moisture and oxidation of the contents.
Laminated sheets used in the manufacture of paper cups are composed of paper as the base material, and the inner and outer surfaces are made of polyolefin resin with excellent heat sealability. Depending on the components of the contents, this can provide gas barrier properties. A layer was added.
For example, in the juice and coffee of a vending machine, it is a simple laminated sheet 5 such as a [paper cup outside] polyethylene / paper / polyethylene [container inside] configuration.
However, for containers such as cup soup and instant miso soup that need to be stored for a long period of time, a configuration having barrier properties against oxygen gas and oil is necessary.
[Outside of paper cup] Consisting of a multilayer laminated sheet 5 such as polyethylene / polyethylene terephthalate (hereinafter abbreviated as PET) film / polyethylene / paper / polyethylene / aluminum foil / polyethylene [inside of container]. Such a configuration is widely used as a container for filling a fragrance-retaining or easily oxidizable content, and the strength of the cup container itself such as rigidity is improved.
Usually, after such a laminated sheet 5 is punched, a bottom material is inserted under the side surface, bent and fused to form a rigid bottom, and the flange portion on the outer periphery of the upper end of the container side surface is ultrasonicated. By forming a top curl portion that has been wound by more than one turn, the rigidity of the opening is obtained, and the shape of the container is easily maintained.
The top curl portion is manufactured by spreading the upper end of the cup in advance and processing it into a curl shape, and then compressing, heating and fusing the top curl portion with an ultrasonic fusion machine to form it flat. It was.

Conventionally, the structure of the flange molding die attached to this ultrasonic fusion machine is that the upper end of the cup has been widened in advance, the paper cup body that has been processed into a round and curled shape is held in the lower mold, and the outer diameter matched to the finished outer diameter of the flange While restricting the outer diameter of the flange by the regulating ring 83, the lower outer peripheral portion 72 of the upper die of the upper die regulates the inner diameter of the flange, while lowering the upper die from the upper portion, the upper face 84 of the lower die cup receiver, The top curl portion is pressed with the flange pressing surface 74 to form the flange portion. At this time, the upper die outer peripheral portion 75 and the outer diameter regulating ring 83 are in direct contact with each other, and when the spring is contracted, the outer die regulating ring 83 is also moved downward together with the upper die flange pressing surface 74, and the flange portion is gradually wound up. And molded. Such a paper cup flange molding die is shown in cross section in FIGS. 3-1 and 3-2.
By the way, since the lower surface outer peripheral portion 72 of the upper mold and the outer diameter regulating ring 83 are in direct contact with each other in the flange molding, the contact surface is struck at high speed by ultrasonic vibration, which causes a problem that the contact surface is worn. Was. Abrasion does not wear evenly, and a portion with a high contact pressure is partially worn, resulting in a non-uniform state. Therefore, as soon as production is started, the contact surface is worn and a gap is formed, and the resin of the film melted by heat protrudes in the gap in the horizontal direction, as shown in an enlarged view in FIG. The resin sometimes jumped out in the horizontal direction.
If the resin jumps out 34 in the horizontal direction, the mouth feels bad when the cup is used, and in extreme cases, the hand or mouth may be cut. In addition, there is a risk that the generated film protrudes and mixes into the food that is the contents of the container. Furthermore, the outer diameter regulating ring 83 is likely to be worn, and accumulation of debris has caused many problems such as the outer diameter of the flange not being finished as specified.

In contrast to such a paper cup flange molding mold that solves the problem of paper cup flange molding, in Patent Document 1, an ultrasonic horn and a cup receiving mold are used to make the top curl of the paper cup into a flat flange shape. An ultrasonic welding apparatus for molding, wherein the ultrasonic horn has a circular groove portion having a depth into which a top curl portion of the paper cup can be inserted in an outer peripheral portion of a tip, and an outer cylindrical surface of the groove portion is An outer diameter restricting collar that is parallel to the moving direction of the ultrasonic horn and whose inner circumference dimension is equal to the finished outer diameter dimension of the cup flange is formed, and the cup receiving mold accommodates and holds the paper cup body. And an upper end of the cup receiver, the inner diameter of the upper end is substantially equal to the outer diameter immediately below the top curl portion of the paper cup, and the outer peripheral surface of the cup receiver is The ultrasonic horn is parallel to the moving direction of the ultrasonic horn, and the outer diameter is a dimension that can be fitted to the outer cylindrical surface of the groove of the ultrasonic horn, and the bottom surface of the groove of the ultrasonic horn and the cup receiver The ultrasonic horn and the cup receiving mold are not in direct contact with each other when the cup flange portion is formed by pressing the top curl portion of the paper cup with the cup receiving upper surface of the mold. A welding device is proposed.
This paper cup molding die is shown in FIGS. 4-1 and 4-2.

However, when the flange portion of the paper cup is processed with such an ultrasonic welding device, the outer cylindrical surface 731 of the groove 73 of the ultrasonic horn descends while being ultrasonically vibrated, and therefore the outer cylindrical surface 731 of the groove 73. And the outer peripheral surface 841 of the cup receiver 84 inevitably come into contact with each other and wear. For this reason, a gap is generated in the contact portion, and the molten resin provided on the front and back of the base material that has been rubbed and softened is not horizontally oriented, as shown in the enlarged sectional view of FIG. The resin jump 35 is generated.
When this downward protrusion 35 of the resin occurs, the mouth feels bad when the cup is used as in the horizontal direction, and in extreme cases, the hand or mouth may be cut. Further, there is a risk that the generated resin protrusion 35 may drop and be mixed into the food that is the contents of the container. In addition, the direction of the resin pop-out that occurs on the lower side lays down during processing, faces the outside, the flange outer diameter dimension is not finished according to the standard, or variation occurs when heat sealing the lid, resulting in poor sealing. Although the frequency of problems such as generating was reduced, the problem still occurred.

JP 2009-184169 A

  Therefore, it is possible to use a paper cup flange manufacturing apparatus using a conventional ultrasonic horn, and to obtain a paper cup molding die in which the resin used on the front and back of the paper cup is less likely to occur stably. It is a problem.

The invention according to claim 1 of the present invention is a paper cup flange molding die comprising an upper mold attached to an ultrasonic horn and a lower mold into which a paper cup body is inserted, and molding the upper end of the paper cup into a flange shape.
On the contact surface where the upper surface of the flange portion at the top end of the upper paper cup contacts, a tapered surface is provided with the outer side extending downward,
The outer peripheral surface of the flange is regulated by the inner peripheral surface of the ring that is provided in the lower mold and is urged in the upper mold direction in parallel with the movement of the ultrasonic horn,
The inner periphery of the upper surface of the plastic ring has a tapered surface that can contact the tapered surface of the upper mold,
The lower surface of the flange is a paper cup flange molding die characterized in that it is provided on the lower mold and the upper end is regulated by a donut-shaped anvil parallel to the tapered surface.

  The paper cup flange molding die of the present invention can be used in a paper cup production line using a conventional ultrasonic horn. In addition, the paper cup can be stably manufactured in a state in which the resin used on the front and back of the paper cup is unlikely to occur during manufacturing.

It is an external view which shows an example of the paper cup manufactured by this invention, and sectional drawing of an opening part vicinity. It is an expanded view of the lamination sheet of the paper cup manufactured by this invention. It is sectional drawing of the opening part vicinity of the paper cup manufactured with the conventional paper cup flange molding die. It is sectional drawing of the opening part vicinity of the paper cup flange molding die proposed by patent document 1 which improved the conventional paper cup flange molding die, and the paper cup manufactured with the metal mold | die. It is sectional drawing of the opening part vicinity of the paper cup flange molding metal mold | die of this invention, and the paper cup manufactured with the metal mold | die. It is sectional drawing which shows the shaping | molding of the flange part of the paper cup manufactured with the paper cup flange molding die of this invention in steps.

Hereinafter, a manufacturing example of paper cup flange molding using the paper cup flange molding die of the present invention will be described in detail with reference to the drawings.
FIG. 1-1 is an example of a paper cup 1 manufactured according to the present invention. A flange 3 is formed around the upper opening 2, and a bottom surface is fused to the lower part.
In this example, the lid 4 is fused to the flange 3.

1-2 is a cross-sectional view of the flange 3 in the vicinity of the opening 2 of the paper cup.
The flange 3 is manufactured by winding the upper end of the side surface 6 at least once.
The present invention relates to a paper cup molding die used in the process of winding the flange 3.

FIG. 2 shows the laminated sheet 5 extracted in a shape used for a paper cup.
The side surface 6 is manufactured by winding a side material 51 obtained by removing the laminated sheet 5 in a fan shape into a frustum side surface shape and fusing the end portions 511 together. The lower end portion 512 of the side surface 6 is bent inward, the periphery 521 of the bottom material 52 is also bent, and the bent lower end portion 512 and the end portions of the periphery 521 are wound or fused together so as to be wrapped, A bottom 9 and a bottom 91 are formed.

FIG. 5 shows a flange molding die for the paper cup of the present invention.
This mold includes an upper mold 7 attached to an ultrasonic horn and a lower mold 8 into which a paper cup main body is inserted. The mold is a paper cup flange molding mold for molding the upper end portion 513 of the paper cup into the flat flange 3. ing.
An upper die taper surface 71 whose outer side extends downward is provided on the contact surface with which the flange portion upper surface 33 at the tip of the paper cup of the upper die 7 is in contact.
The outer peripheral surface 31 of the flange portion is parallel to the movement of the ultrasonic horn provided on the lower mold 8, has a vertical surface, and is regulated by the inner peripheral surface 820 of the plastic ring 82 urged by the spring 823 in the upper mold direction. ing.
The vicinity of the inner periphery of the upper surface of the plastic ring 82 has a tapered surface that can come into contact with the upper tapered surface 71.
The flange portion lower surface 32 is provided on the lower mold 8, and its upper end is regulated by a donut-shaped anvil 81 parallel to the upper mold tapered surface 71.

FIG. 6 shows a manufacturing process in tightening the flange 3.
Prior to this manufacturing process, as shown in FIG. 1, the paper cup 1 is first, in a separate process, the side material of the laminated sheet 5 is rolled into a side shape of a truncated cone, and the end portions 511 are joined together. The bottom member 52 is fused to the lower end of the side member 51.
FIG. 6A is a preforming operation for making a flange provided with the opening 2 of the paper cup 1. That is, it is a process of pressing the opening die 70 against the opening-side tip, opening the tip in the horizontal direction, making it curve, and making a top curl that triggers winding. The processing up to the opening mold 70 is the same as the conventional processing, and the opening mold 70 is processed by a mold different from the steps of FIGS. 6-2, 6-3, and 6-4.

FIGS. 6-2, 6-3, and 6-4 are manufacturing steps using the paper cup flange molding die of the present invention. Normally, in this process, ultrasonic vibration is applied to the upper mold 7, and the plastic on the front and back of the base material near the contact surface is softened, and the shape changes due to vibration. Combine with the top of the mold. The ultrasonic frequency is preferably a low frequency of about 15 to 20 kilohertz (KHz). However, it is necessary to keep the strength so weak that the plastic on the front and back of the base material does not melt.
In FIG. 6B, the upper end portion 513 of the side member 51 opened in the horizontal direction presses the upper die 7 of the molding die provided with the upper die taper surface 71 whose outer side expands downward, and the upper die taper surface 71. The upper end 513 is bent along the upper arc surface 73 so as to hit the upper arc surface 73 between the upper die vertical surface 72 and the upper die arc surface 73.
The flange outer peripheral surface 31 is regulated by the inner peripheral surface 820 of the plastic ring 82 that is provided in the lower mold 8 and is urged in the upper mold direction in parallel with the movement of the ultrasonic horn, and hits the inner peripheral surface 820. The upper end 513 of the side member 51 starts to descend downward.
Here, the inner peripheral vicinity 821 of the upper surface of the plastic ring 82 has a tapered surface that can contact the upper taper surface 71, and is in contact with the upper mold 7 by a spring 823 provided on the lower side of the plastic ring 82. There is no gap between the upper die taper surface 71 and the plastic ring 82. Therefore, the upper end 513 is lowered and wound.

In FIG. 6C, the flange portion lower surface 32 is provided on the lower mold 8 and is regulated by a donut-shaped anvil 81 whose upper surface is parallel to the tapered surface 71.
Then, as the upper die 7 descends, it enters the inside of the upper end of the side face 6 as it is, and is further wound along the inside of the flange portion upper surface 33.

6-4, the tip of the upper end 513 of the side member 51 is completely wound inside the flange 3, and the gap between the upper die tapered surface 71 and the upper surface of the anvil 81 is reduced in accordance with the winding. It is molded into a flat shape.
At this point, the periphery is shaped to be tapered and lowered to the outside, but when taken out from the mold, it becomes almost horizontal.

In the case of the paper cup flange molding die of the present invention, as shown in FIG. 6B, before the upper end of the side surface 6 moves outward from the upper die taper surface 71, the inner periphery 821 near the upper surface of the upper surface of the plastic ring 82 having the taper surface. However, since there is no gap between the upper taper surface 71 and the plastic ring 82, there is no room for generating burrs. Even if the upper die taper surface 71 is worn, it is urged by the spring 823 and always comes into contact with the upper die taper surface, so that there is no gap. Since the inner peripheral surface 820 of the plastic ring 82 is also designed vertically, even if pressure is applied between the plastic ring 82 and the upper die taper surface 71, the gap between the plastic ring 82 and the upper die taper surface 71 is opened. The force that generates the gap is difficult to work.
Further, since the plastic ring 82 and the anvil 81 are provided in the same lower mold 8, even if the sliding part is moved up and down, the clearance can be minimized, so that it is difficult to generate burrs and pain. There are features.

  The mold material used for the paper cup flange molding mold of the present invention may be a normal mold material such as titanium material, aluminum alloy, die steel for the upper die, alloy tool steel, die steel, stainless steel for the lower die. However, since the temperature of the upper die changes particularly in a short time, it is desirable to use a material that has been baked at a high temperature to remove distortion. Also, the upper mold surface should be hard chrome plated, the lower mold should be gas-nitrided or salt-nitrided, and the internal hardness should remain the same, but the surface hardness should be increased to prevent abrasion due to rubbing. Is preferred.

The configuration of the laminated sheet 5 used in the paper cup of the present invention is such that a thermoplastic resin is used for the outermost surface and the innermost surface, and paper is used as the base material.
Furthermore, the structure which has a layer containing the polyethylene terephthalate layer which has a polyethylene terephthalate layer in a layer structure, or vapor deposition layers, such as a silicon oxide and aluminum, may be sufficient.
For example, polyethylene / paper / polyethylene / PET / sealant,
Polyethylene / paper / polyethylene / inorganic oxide-deposited PET / sealant,
Polyethylene / paper / polyethylene / aluminum-deposited PET / sealant,
Polyethylene / paper / polyethylene / aluminum foil / urethane adhesive / PET / sealant,
Polyethylene / PET / polyethylene / paper / polyethylene / aluminum foil / sealant,
Such a configuration is conceivable.

As the front side thermoplastic resin in the laminated sheet 5 of the paper cup, linear low density polyethylene, medium density polyethylene, high density polyethylene, polypropylene, ethylene / propylene copolymer, etc. can be used in addition to the high pressure method low density polyethylene.
Further, the thickness of the base paper is adjusted according to the cup capacity, and the thickness is increased as the paper cup capacity is increased. Usually, the basis weight which is the thickness of paper can be used in the range of 200 g / m ² to 500 g / m ² .

  As the barrier layer provided between the paper and the sealant layer in the laminated sheet 5 of the paper cup, an aluminum vapor-deposited polyethylene terephthalate film, an aluminum oxide vapor-deposited polyethylene terephthalate film, a silicon oxide vapor-deposited polyethylene terephthalate film, or the like is used. Can be used.

  The barrier layer and the base paper in the laminated sheet 5 of the paper cup are usually fused by laminating the molten resin as an adhesive while extruding the molten resin between the barrier layer and the paper with an extruder laminating machine. Let The molten resin to be used includes high-pressure low density polyethylene, linear low density polyethylene, medium density polyethylene, high density polyethylene, polypropylene, ethylene / propylene copolymer, ethylene / vinyl acetate copolymer, ethylene-methacrylic. An acid copolymer, an ethylene-acrylic acid copolymer, an ethylene-methyl acrylate copolymer, an ionomer resin, or the like can be used. The molten resin used for this lamination is used in a thickness of 5 μm to 70 μm, depending on the surface properties of the paper and the strength of the waist.

A dry lamination adhesive may be used between the barrier layer and the innermost sealant layer in the laminated sheet 5 of the paper cup. The amount of the adhesive used for dry lamination is preferably 1 g / m ² to 5 g / m ² . Further, it may be fused between the barrier layer and the innermost sealant layer by extruding a molten resin with an extruder laminating machine. In addition to high-pressure low-density polyethylene, this molten resin includes linear low-density polyethylene, medium-density polyethylene, high-density polyethylene, polypropylene, ethylene / propylene copolymer, ethylene / vinyl acetate copolymer, and ethylene-methacrylic acid copolymer. A polymer, an ethylene-acrylic acid copolymer, an ethylene-methyl acrylate copolymer, an ionomer resin, or the like can be used. The molten resin used for this lamination is used in a thickness of 10 μm to 40 μm.

As the innermost sealant layer in the laminated sheet 5 of the paper cup, linear low-density polyethylene, medium-density polyethylene, high-density polyethylene, polypropylene, ethylene / propylene copolymer, etc. can be used in addition to the high-pressure method low-density polyethylene. Furthermore, an easy peel sealant layer can be used for part or all of the innermost layer to improve openability. This easy peel sealant layer is a resin layer in which dissimilar materials such as polybutene-1, polypropylene, cyclic polyolefin, polystyrene, and tackfire are mixed with high-pressure low-density polyethylene or linear low-density polyethylene. It is a resin layer that can be easily fused and easily opened. The easy peel sealant layer can be used by being laminated on the barrier layer side with a thermoplastic resin such as high-pressure low-density polyethylene, laminated on the innermost surface side, or laminated from the front and back sides.
Similarly, a similar thermoplastic resin layer is provided on the outside of the base paper. In this case, printing is performed on the outside of the surface side thermoplastic resin or on the inside of the surface side thermoplastic resin.
The thickness of the sealant layer used for the innermost layer is suitably 30 μm to 90 μm, and the thickness of the surface side thermoplastic resin of the outermost layer is 5 μm to 40 μm.
It is preferable to thicken the resin of the inner layer so that the end surface of the container is not exposed to the inside so that it can be covered with a seal between the end portions 511 of the side surfaces.
In addition, since the inner layer is on the sealing side of the flange 3, increasing the thickness of the inner sealant layer also has an advantage of improving the sealing performance with the lid member 4.

The paper cup flange mold according to the present invention is as described above.
By contacting the contact surfaces of the upper mold 7 and the plastic ring 82 with tapers, the pressure of the contact surface of the mold is increased in the vicinity of the flange forming portion. Furthermore, since the contact surface is tapered, the position is corrected and the resin does not leak even if the position is slightly shifted during molding.
Further, even if the contact surface is worn, since it is tapered, a gap is hardly generated and a horizontal protrusion 34 is not easily generated.
In addition, since the plastic ring 82 is provided in the lower mold, the plastic ring 82 and the anvil 81 slide slightly, there is no difficulty in movement, and there is almost no need to provide a gap, so that the vertical protrusion 36 also occurs. There is nothing.
Therefore, the paper cup flange molding die of the present invention is less likely to wear out even when used for a long time, and does not easily pop out. The advantages of the present invention are great, such as elimination and productivity.

1 ... Paper cup 2 ... Opening 3 ... Flange 31 ... Flange outer peripheral surface 32 ...・ ・ ・ ・ ・ ・ Flange bottom surface 33 ・ ・ ・ ・ ・ ・ ・ ・ Flange top surface 34 ・ ・ ・ Pump out (horizontal direction)
35 ..... popping out (vertical direction)
4 ... Lid material 5 ... Laminated sheet 51 ... Side material 511 ... End (side material)
512 ・ ・ ・ ・ ・ ・ ・ Lower end (side material)
513 ・ ・ ・ ・ ・ ・ ・ Upper end (side material)
52 ... Bottom material 521 ... Periphery (bottom material)
6 ···· Side 7 ······························································································ ········································································································ Upper flange flange pressing surface Mold outer peripheral part 8 ... Lower mold 81 ... Anvil 82 ... Plaling 820 ... Inner peripheral surface (Plaring)
821 .. ・ Near upper surface inner circumference (Plaring)
823 ... Spring (Plaring)
83 ... outer diameter regulating ring 84 ... upper surface 9 of mold cup holder ... ... thread bottom 91 ... ... bottom

Claims (1)

In the paper cup flange molding mold that consists of an upper mold attached to the ultrasonic horn and a lower mold into which the paper cup body is inserted, the upper end of the paper cup is molded into a flange shape,
On the contact surface where the upper surface of the flange portion at the top end of the upper paper cup contacts, a tapered surface is provided with the outer side extending downward,
The outer peripheral surface of the flange is regulated by the inner peripheral surface of the ring that is provided in the lower mold and is urged in the upper mold direction in parallel with the movement of the ultrasonic horn,
The inner periphery of the upper surface of the plastic ring has a tapered surface that can contact the tapered surface of the upper mold,
A paper cup flange molding die characterized in that the lower surface of the flange is provided in the lower mold and the upper end is regulated by a donut-shaped anvil parallel to the tapered surface.