KR20200102048A - Plastic bag with improved sealability and strength - Google Patents

Abstract

The present invention relates to a sack having a structure which is designed to prevent a sealing part from being torn even by impact force such as falling, not to be easily damaged, thereby safely storing contents, to be manufactured at low costs and to be easily opened. To this end, the sack comprises: a tube-shaped main body made of a synthetic resin material; a U-shaped folding unit formed by folding one end in a U-shaped shape to form a bottom part in the tube-shaped main body; and an adhesion unit formed by one or more adhesion methods selected from thermal adhesion sealing and adhesion sealing by an adhesive so that multiple folds of stack members of the U-shaped folding unit except for an outside member of the main body can tightly adhere to each other. The adhesion unit is formed on the outside of the main body.

Description

Plastic bag with improved sealability and strength}

The present invention relates to a bag suitable for containing grains, feed, sugar, milling or chemical products, particularly toxic contents, and if described in more detail, the rigidity and durability of the sealing portion are ensured, so that the rigidity of the sealing portion is guaranteed even in the action of impulsive force. It relates to a plastic bag that is not torn and can safely store the contents against moisture.

In general, sacks are bags that contain grain, feed, sugar, milling or chemical products, and are divided into grain sacks, feed sacks, sugar or milling sacks, and chemical product sacks, depending on the type of the contents.

Such a bag is usually composed of 1 to 4 ply kraft paper or synthetic resin laminate, and the means for sealing the top or bottom of the bag is a sewing type, a tip type, a pinch bag type, an easy open type, and a faceted valve bag. It is configured to be sealed by type.

Among the bags as described above, the feed bag and the grain bag are generally sewn type as a method of finishing the end of the bag.

The sewing part of the sewing type bag consists of a binding thread that penetrates the bag and an opening thread that locks the binding thread through the bag in the form of a nose hook.If you want to open the sewing part of a conventional sewing type bag, pull the opening thread to bind it. By releasing the tied state of the nose ring, the sewing thread is released and the sewing part is opened.

However, if the material contained in the bag is toxic, the strength of the bag must be high and there must be no external leakage due to stability problems, and various difficult conditions must be satisfied, such as that moisture does not penetrate from the outside.

In order to meet these conditions, plastic bags, especially polypropylene bags, are used a lot.The covered bags contain salt, sugar, cement, fertilizer, various chemical products, and chemical raw materials in addition to various grains. Paper is used as a bag, and this cover bag is made of polypropylene (hereinafter referred to as "PP") as the main raw material and melted and stretched to have a film or sheet-like tape produced with excellent tensile strength and uniform quality. The PP woven body, which is woven in a cylindrical shape so that the top and bottom are opened through a weaving machine, is made with sewing means to sew the lower end and open the upper end.

In particular, the cover bag as described above is usefully used when the contents contained therein are particularly toxic substances.

Such a conventional cover bag has a film or sheet-shaped tape before the bottom is sewn, and is woven in a cylindrical shape so that the top and bottom are opened through a weaving machine (hereinafter referred to as the outer shell), and PP inside the PP woven body. After inserting the PE plastic paper (the state where the bottom is sealed), which is formed into a film with superior chemical resistance, the PE plastic paper (hereinafter referred to as the inner skin) and the lower end of the woven PP woven body (skin) are In order not to damage the sealed part at the bottom, it is used by sealing at the same time with a sealing means to form a cover bag, and then packing and packing toxic substances into the inside of the inner skin.

Therefore, even when the inner skin and the outer skin of the enveloped bag are separated from each other and a pinhole is generated due to a physical influence on the woven PP fabric forming the outer skin, the PE plastic paper forming the inner skin is separated from each other. In addition to the advantage of preventing toxic contents contained in plastic paper from leaking to the outside, it is possible to minimize damage to the packaged contents by preventing condensation caused by external temperature differences.

However, if the bottom of the cover bag is finished with only sewing by sewing, moisture may penetrate from the outside or, in the case of powder, the contents may leak to the outside through the sewing gap, and the sewing thread is caught by external objects. If this happens, it will be released automatically and the bag will be damaged and there is a risk of external leakage of the contents.

In particular, in the case of a bag storing dangerous substances such as potassium hydroxide (KOH), potassium hydroxide has strong deliquescent and corrosive properties, and has a strong property of absorbing moisture and carbon dioxide, so that when it absorbs moisture through the gap, it hardens and leaks. If it is, it is a strong basic substance, so if it comes into contact with the human body, there is a risk of burning the skin and damaging it.

In view of this point, in Korean Patent Publication Nos. 10-1920066 (Patent Document 1) and No. 10-1891302 (Patent Document 2), a sealing configuration for preventing external leakage of the bag and preventing moisture absorption has been proposed.

1 is a view showing the cover bag disclosed in Patent Document 1, the cover bag 100 is a tube-shaped PP woven that is connected to the left and right using a plurality of strips made of polypropylene material and penetrates in the upward direction Inside the outer shell 110 made of the sieve (1), the inner skin 120 made of PE vinyl paper (2) having better chemical characteristics than the PP woven body (1) has a lower melting point than the PP and PE materials It is bonded by 130 to form a unity. And at the bottom of the outer shell 110, the PE vinyl paper 2 located inside while being pressed by a heating bar or band sealing machine having a predetermined width is fused to form a bonding surface 140 long in the left and right direction with a predetermined width, In the lower part of the bonding surface 140, the lower end of the outer shell 110 is rolled upward at a predetermined interval to form a folded portion 150 that is long folded to the left and right at a predetermined height, while the folded portion 150 A support sewing line 160 is formed at the bottom of the bonding surface 140 by sewing means to prevent the inner skin from being broken. Thereafter, after the toxic material is filled inside of the cover bag 100, the opened upper end of the cover bag is folded with a sewing means to form a sealed surface.

However, in the conventional bag of the above-described sealing method, the bonding surface 140 is positioned between both side walls of the bag, that is, it is located inside the bag to form a vertical surface, so that the bag has its own weight, especially falling or throwing, while the contents of the weight are accommodated. In the event of an impact such as losing, as shown in FIG. 2, the force applied in the direction of gravity is ejected in a direction perpendicular thereto (see arrow force F), and the force in the direction perpendicular to the junction surface 140 perpendicular to it (F ) Directly acts on the upper entrance point (140a) of the joining surface (140), and the force (F) is concentrated, so that it is easily split on both sides from the upper entrance point (140a). If the bag is pulled to both sides by applying force in a right angle direction, the force is concentrated from the small point on the upper side of the bonding surface, and the tearing is gradually propagated to the bottom, and the tearing is easily broken even with a small force.) (140) If a significant portion or even a part of this is torn open or a gap is created, some external leakage of dangerous contents may occur due to the support sewing line 160, and in particular, the moisture-proof function is released through the cracked gap. It has been pointed out that it is not possible to prevent irrationality such as deterioration of the contents due to the inflow of moisture and the increase in harmfulness caused by chemical reactions as it cannot block the inflow of external moisture.

In addition, since the inner wall surfaces are directly melt-bonded to each other as both side walls of the bag at the bottom, which are subject to the load of the contents intensively, are melted by heat, the strength is inevitably reduced due to the increase in brittleness caused by the hardening phenomenon at the bonding site. The risk of damage is greatly increased, such as the joints easily open even under impact force and crack propagation occurs quickly.

On the other hand, as another problem, it is inevitable to increase the production cost of the bag due to the double sealing treatment of the bonding surface 140 and the support sewing line 160, and there is inconvenience due to the need to open two sealing parts when opening.

[Patent Document 1] Korean Patent Publication No. 10-1920066 [Patent Document 2] Korean Patent Publication No. 10-1891302

Accordingly, the present invention has been proposed in consideration of the above points, and its purpose is that the sealing portion is designed so that it does not receive a force torn even by impact forces such as falling, so that the contents are not easily damaged, so that the contents can be safely stored, and the manufacturing cost is low and opening It is to provide a bag of this easy structure.

The bag according to the present invention for achieving the above object comprises: a tube-shaped body made of a synthetic resin material; A U-shaped folded portion formed by folding one end in a U-shaped shape to form a bottom portion of the tube-shaped body; Consisting of an adhesive portion formed by at least one bonding method selected from thermal bonding sealing or adhesive sealing so that the remaining plurality of stacked members excluding the outer member of the main body adhere to each other in the U-shaped folded portion As a result, it is characterized in that the adhesive portion is formed outside the body.

According to the present invention, the thermal adhesive sealing of the adhesive portion is characterized in that heat is applied to the lamination member to adhere by high frequency, ultrasonic, or hot air methods.

According to the present invention, the formation of the adhesive portion by thermal adhesive sealing is characterized in that heat is received by a roller that rotates or a flat plate member corresponding to the entire length of the adhesive portion is heat-bonded.

According to the present invention, the inner wall of the tube-shaped body is formed in a cylindrical shape and is coated with a vinyl waterproofing body that prevents moisture from permeating.

According to the present invention, the support plate member is inserted into the main body during thermal sealing for forming the adhesive portion to block heat transfer to the outer member of the main body.

According to the present invention, the bonding unit is characterized in that a plurality of rows of circular or rectangular heat-compressed points are continuously formed at predetermined intervals, but adjacent rows are oriented in a zigzag shift with each other.

According to the present invention, unlike in the prior art, the thermal bonding portion is not located inside the bag, but is located in the U-shaped folded portion formed by folding one end, but only the remaining stacks of the folded portion excluding the outer member of the body are thermally bonded. (That is, the thermal bonding part is placed on the outside of the bag), there is no thermal curing phenomenon of the inner wall of the bag in direct contact with the contents, so there is no decrease in strength, especially in the direction that the bag opens when the contents are filled inside the bag. Even if the force is applied, the force directly exerted on the thermal bonding portion is very weak, and when the U-shaped folded portion forms a flat bottom surface (i.e., forms a horizontal surface) while the contents are packed, the force in the direction in which the bag opens (F ), because the heat-sealed part is placed in the same direction, it can resist a large force, so even if a large tensile force acts on the sealing part of the bag, it has the effect of not breaking apart. In other words, the thermal bonding part forms a shear surface, and the direction of force and the shear surface coincide and the shear surface is in two places, so that the force is dissipated by resisting the shear force through the entire area of the shear surface. It can endure in a solid state without tearing.

As a result of this effect, the effect of blocking the inflow of moisture from the outside is continuously achieved, and there is an effect that the production cost of the bag is lowered because a separate sewing is not required.

1 is a view showing a conventional sealing structure of the bottom surface of the bag.
2 is a view for explaining the effect of the force on the joint when the tensile force of the conventional bag is applied.
3 is a view showing the tube-shaped body of the present invention bag.
Figure 4 is a side cross-sectional view showing the structure of the sealing portion of the bag bottom of the present invention.
5 is a front view showing the structure of the sealing portion of the bottom of the bag according to the present invention.
6 is a view showing the thermal sealing method of the bag of the present invention, (a) is a conceptual diagram showing a high-frequency thermal bonding method by a rotating roller, and (b) is heat-bonded by receiving heat by a flat plate member. It is a diagram showing the method.
7 is a view for explaining the effect of the force on the joint when the tensile force is applied to the bag according to the present invention.
8 is a view showing the configuration of an embodiment in which a coating layer for waterproofing a bag of the present invention is formed inside.

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

The embodiments of the present invention are provided to more completely describe the present invention to those of ordinary skill in the art, and the following examples may be modified in various other forms, and the scope of the present invention is as follows. It is not limited to the examples. Rather, these embodiments are provided to make the present disclosure more faithful and complete, and to completely convey the spirit of the present invention to those skilled in the art.

In addition, since a material in the form of a film having a very thin thickness is used for the bag of the present invention, the thickness or size of each layer in the following drawings is exaggerated for convenience and clarity of description, and the same reference numerals refer to the same elements in the drawings. As used herein, the term “and/or” includes any and all combinations of one or more of the corresponding listed items.

The terms used in this specification are used to describe specific embodiments, and are not intended to limit the present invention. As used herein, the singular form may include the plural form unless the context clearly indicates another case. Also, as used herein, “comprise” and/or “comprising” specify the presence of the mentioned shapes, numbers, steps, actions, members, elements and/or groups thereof. And does not exclude the presence or addition of one or more other shapes, numbers, actions, members, elements, and/or groups.

Figure 3 is a view showing the shape of the main body of the present invention bag, Figure 4 is a view showing the structure of the bottom sealing portion of the present invention bag, Figure 5 is a view showing the shape of the front view of the present invention bag.

3 to 5, the bag 10 of the present invention has a tube-shaped, that is, a cylindrical body 12, and the tube-shaped body 12 is manufactured using a synthetic resin material. There is no limitation on the material to be used, but for example, a PP woven body is used to form a tube shape in the vertical direction using a plurality of bands made of polypropylene.

The PP woven body cut by a predetermined length according to the size of the bag is used as the container body, and the body 12 is opened at both ends in the cut state, and the opening on one side is sealed to form the bottom of the bag 10 Process.

In the present invention, a U-shaped folded portion 14 is formed by taking one end of a predetermined length, for example, 2 to 7 cm, and folding it in a U shape for sealing treatment.

The U-shaped folded portion 14 has a plurality of layers of stacking members 14a, 14b, 14c (or simply referred to as'layers') other than the outer member 12a of the main body 12 in close contact with each other. The adhesive portion 16 is formed by at least one adhesive method selected from thermal adhesive sealing or adhesive sealing for adhesion.

Accordingly, the three layers 14a, 14b, and 14c of the bonding portion 16 can be integrally bonded to each other by heat sealing, or the two layers 14a, 14b of the bonding portion 16 are thermally bonded. Sealing, and bonding between the two layers (14b, 14c) positioned on the inner side of the adhesive, for example, silicone rubber, etc. can be applied.

The thermal sealing of the bonding portion is performed by applying heat while pressing the stacking members 14a, 14b, and 14c by a high frequency, ultrasonic, or hot air method so that the pressure interfaces are fused to each other by heat to adhere to each other.

The greatest feature of the present invention is that the adhesive portion 16 is disposed outside the bag 10 as a result of this structure, and the U-shaped folded portion 14 is adhered to the outer wall surface of the bag. The effect of the invention is caused by these features.

6 is a view showing the thermal bonding sealing method of the bag of the present invention, (a) is a conceptual diagram showing a high-frequency thermal bonding method by a rotating roller, (b) is heat-bonded by receiving heat by a flat plate member It is a diagram showing the method.

In Fig. 6(a), the bonding part 16 is formed using a roller 18 that rotates, and a support plate member 20 made of metal or plastic or wood is used as a counter part member for this purpose. The outer member (12a) and the inner member (12b) of the (here, the concept of the inside and the outside of the main body is the surface of the side in close contact with the U-shaped folded portion 14 based on the U-shaped folded portion 14), The opposite side is defined as the outer side) and then insert the roller 18 from the one end of the starting point of the bonding part 16 and place the three layers 14a, 14b, 14c against the base plate member 20. When rotating and moving to the opposite end while maintaining this pressurized shape, high-frequency heat from the electric supply is transmitted to the pressing contact portions of the three layers 14a, 14b, and 14c through the roller 18, and between the layers (14a, 14b). ) The pressing surfaces of (14b, 14c) are fused to each other to form the bonding surfaces (16a, 16b), and the three layers are bonded to each other by thermal fusion. And accordingly, the heat-sealed bonding surfaces 16a and 16b form a shear surface.

In Fig. 6(b), the bonding portion 16 having a predetermined width and length is formed using a flat plate member 22 having a size capable of covering the entire area of the bonding portion, and as shown in (a), the main body ( The support plate member 20 is inserted between the inner member 12b of 12) and the outer member 12a to support the descending plate member 22, and transfers heat or applied heat through the plate member 22 The three layers (14a, 14b, 14c) (14c is an end extending from 12b) positioned above the plate member 22 are thermally bonded.

Here, the reason for inserting the support plate member 20 into the main body 12 during heat sealing to form the bonding portion 16 is to block heat transfer to the outer member 12a of the main body 20 to prevent the outer member. It is to prevent (12a) from being thermally fused to the inner member (12b) and to support the pressing force of the roller 18 or the flat plate member 22 such as an iron.

And the above three layers (14a, 14b, 14c) can be thermally bonded together, but the bonding surface (16b) between the layer 14c and the layer 14b is adhered by applying an adhesive such as silicone, and the remaining two layers (14a) Between ,14b), thermal bonding may be performed in the same manner as described above.

As shown in FIG. 5 or 8, the bonding portion 16 has a plurality of rows of heating and compression points 24 having a circular or rectangular shape at predetermined intervals, but adjacent rows are staggered from each other. It is formed to be oriented.

To this end, on the surface of the roller 18 of the present invention, projections 16, which are convex portions corresponding to the shape of the heating and compression point 24, which are visually recognized as recessed grooves from the bag surface, are formed, and the projections ( The matrix arrangement of 16) is formed in the same manner in the flat plate member 20, and heat is applied to the pressing points through the projections 16, so that the pressing points are joined.

Accordingly, when the roller 18 or the flat plate member 20 presses the three layers 14a, 14b, 14c against the support plate member 20, the portion pressed by the protrusions 16 is depressed. At this time, since it is melted and joined by heat applied through the protrusions, when the joint 16 is formed, a clear trace thereof is engraved so that the heating and compression points 24 are identified by the naked eye as shown in FIGS. 5 and 8.

At this time, the heating and compression points 24 process the protrusions 16 of the roller or the plate member so that adjacent rows (or columns) appear to be staggered from each other.

The reason why the heat-compressed points 24 are formed at a predetermined interval between neighboring ones and arranged in a zigzag is that when the whole is thermally fused in a straight line, consider the characteristics of the resin weak to heat and In order to block the continuous progression of the other side by the curing of the resin, the contents are leaked into the gap by placing a predetermined interval, or moisture is easy. In order to prevent penetration, the heat-compressing points 24 of the adjacent heat are arranged to cover and block the gaps, that is, the gaps between the heat-compressing points of the adjacent heat, thereby preventing the decrease in the strength of the fused part and at the same time blocking the deterioration of the sealing ability. It is for sake.

7 is a setting of a force action when a drop impact force is applied under a situation where the contents are filled in the bag of the present invention (the upper opening is sealed after the contents are filled), and when the contents are filled in the body, a U-shaped fold ( 14) forms a flat bottom portion in contact with the ground, and accordingly, the bonding surfaces 16a and 16b of the bonding portion 16 are also disposed on a horizontal plane.

In this state, if the bag 10 falls and hits the ground and an impact force is applied, the bag 10 receives a force F in the direction in which it is opened (refer to the horizontal arrow direction).

That is, when a horizontal tensile force (force) F is applied to the bag 10, this force F acts as a shear force on the bonding surfaces 16a, 16b, and the shear surfaces 16a, 16b Since the direction of force (F) coincides with the direction of force (F), the force (F) acts over the entire shear surface (joining surfaces 16a, 16b), thereby dispersing the stress, that is, reducing the stress per unit area, causing the bonding surfaces (16a, 16b) to tear. Because it resists the load strongly, damage does not occur easily.

This phenomenon is possible because the U-shaped folded portion 14 is in close contact with and adhered to the outer wall surface of the bag 10, that is, the inner member 12b through the bonding surface 16b.

On the other hand, as shown in FIG. 8, the inner wall of the tube-shaped main body 12 may be coated with a cylindrical vinyl waterproof body 26 to prevent moisture from permeating, and the vinyl waterproof body 26 ) Can be formed on the outside of the body 12, but the vinyl waterproof body 26 has a significantly weaker strength than the woven body 12 and is a material that is easily damaged such as being torn when contacting other objects, so the bag 10 It is preferable to form by laminating inside. The present invention can be particularly suitably applied in the case of a structure in which a vinyl waterproof body 26 is laminated therein. This is a characteristic of the vinyl waterproof body 26 when the bonding surface is inside the bag, the effect of tensile force due to thermal deformation. At the time, the bonding surface is inevitable, such as being more easily torn off, but in the present invention, the bonding surfaces 16a and 16b are formed on the outside of the bag so that they are not affected by the internal material, thereby having a strong tensile force.

On the other hand, when the sealing state of the bottom of the bag 10 is released and opened, grabbing the end E of the U-shaped folded part 14 and pulling it in a direction perpendicular to the bonding surfaces 16a, 16b (Fig. 7), the direction of the force (H1) acting at this time is the direction perpendicular to the joint surfaces (16a, 16b), so a crack that breaks from the entrance point of the joint surface closest to the application point of the force (H1) occurs and goes to the other side. Since it is propagated, it can be easily released with a small force. This is as if the two fabrics that are sewn and laminated are pulled to both sides in a direction perpendicular to the sewing line, and the sewing line is easily torn off, but pulling the two fabrics in the opposite direction in the direction of the axis line coincident with the sewing line does not tear. It is the same principle as enduring.

It should be understood that the invention is not limited to the exemplary embodiments described herein. Various types and styles of user interfaces can be used in accordance with the present invention without limitation. As will be appreciated by those skilled in the art in light of the above teaching, modifications and variations of the above-described embodiments of the present invention are possible. Accordingly, it is to be understood that within the scope of the appended claims and their equivalents, the invention may be practiced differently from what has been specifically described.

10: turret
12: main body
14: U-shaped folding part
14a, 14b, 14c: laminate (layer)
16(16a,16b): junction
18: roller
20: base plate member
22: flat plate member
24: heating pressure bonding point
26: vinyl waterproof body

Claims (6)

A tube-shaped body made of a synthetic resin material; A U-shaped folded portion formed by folding one end in a U-shaped shape to form a bottom portion of the tube-shaped body; Consisting of an adhesive portion formed by at least one bonding method selected from thermal bonding sealing or adhesive sealing so that the remaining plurality of stacked members excluding the outer member of the main body adhere to each other in the U-shaped folded portion As a result, the bag, characterized in that the bonding portion is formed outside the body. The bag according to claim 1, wherein the heat-sealing sealing of the bonding portion is performed by applying heat to the stacking member by a high frequency, ultrasonic or hot air method. The bag according to claim 1, wherein the bonding portion is formed by heat sealing by receiving heat by a roller that rotates or a flat plate member corresponding to the entire length of the bonding portion. The bag according to claim 1, wherein the inner wall of the tube-shaped body is coated with a vinyl waterproof body that is manufactured in a cylindrical shape and prevents moisture from permeating. [6] The bag according to any one of claims 1 to 5, wherein a support plate member is inserted into the main body to block heat transfer to an outer member of the main body during thermal sealing for forming the adhesive part. [6] The bag according to claim 5, wherein the bonding portion is formed in a series of rows of circular or rectangular heat-compressed points at predetermined intervals, and adjacent rows are oriented in a zigzag shift.

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