KR101223432B1 - Spout for pouch - Google Patents

Abstract

The present invention has the function of a dedicated container for sprinkling the contents contained in the spout for the pouch, in particular, a flat pouch made of a synthetic resin material, if the contents contained in the pouch is a powder uniform width and discharged per unit time As a structure capable of maintaining the amount of powder uniformly, the present invention is a spout for a pouch for fusion-bonding the powder contained in the pouch by fusion bonding to the open one side of the pouch containing the powder inside, the pouch (P) A hollow fusion portion 10 fused to the edge of the opening; It is formed integrally with the fusion unit 10 and the inner side for discharging the powder (R) inside the pouch (P) to the outside is made of an empty form, a plurality of formed on the top surface to discharge the powder (R) to the outside Through the discharge hole 21 and the plurality of guide ribs 23 protruding upward and downward on the inner wall so that the powder R is uniformly dispersed and dispersed in each discharge hole 21, and through the discharge hole 21. And a spray body portion 20 including a slit portion 25 cut from one side of each discharge hole 21 to allow air to pass through the inside and the outside in the process of discharging the powder (R).

Description

Spout for Pouches {SPOUT FOR POUCH}

The present invention relates to a spout for a pouch, and has a function of a dedicated container for sprinkling the contents contained in a flat type pouch made of a synthetic resin material in detail, if the contents contained in the pouch is a powder, the width of the powder is uniformly discharged The present invention relates to a spout for a pouch having a structure in which the amount of powder discharged per unit time can be uniformly maintained. It's about spouts.

In general, a pouch container is used to package and store the contents of liquid, gel, and powder forms such as beverages, detergents, and fabric softeners in an inner space made by sealing the edge of a sheet made of a synthetic resin material in a flat form.

Since the pouch container is easy to carry and the packaging cost is low, it is used as a refilling container or the like by replacing a glass bottle, a can, or a plastic container.

In order to use the contents stored in the pouch container, the edges of the container are partially cut and the contents are discharged through the cut portion.

When the contents contained in the pouch are powder, in particular, powder fertilizer for seedlings or seedlings, and powdered pesticides, the edge of the pouch container is cut, and then transferred to a dedicated container for seedlings or seedlings, and then sprayed on the target object.

Thus, after cutting the edge of the pouch container to use the powder fertilizer, powdered pesticide contained in the pouch, there is a problem that there is a concern that the contents of the pouch container is not easy to be sealed and the contents are deteriorated.

In addition, there is a cumbersome disadvantage of having to provide a separate container for seedlings or seedlings at all times, if the contents of the pouch container is a pesticide, if you apply to the pouch container of other uses after using the dedicated container, the troublesome problem of neat cleaning There is this.

In order to solve the above problems, there is a need for a pouch spout having a function of a dedicated container for sprinkling the contents contained in the pouch and which can be easily stored in a sealable state after use.

The present invention has been made in view of the above point, an object of the present invention has the function of a dedicated container for sprinkling the contents contained in a flat type pouch made of a synthetic resin material, if the contents contained in the pouch is powder To provide a spout for the pouch having a structure that can uniformly discharge the width and maintain the amount of powder discharged per unit time uniformly,

Another object of the present invention is to provide a spout for a pouch fusion-bonded integrally with one side edge of the pouch so that the pouch contents remaining after use can be easily stored in a sealable state.

Spout for the pouch according to the present invention in order to achieve the above object, in the spout for pouch for fusion-bonding the powder contained in the pouch by fusion bonding to the one open side of the pouch containing the powder inside, of the pouch opening Hollow fusion welded to the rim; The inside of the pouch is formed integrally with the fusion part and discharges the powder inside the pouch to the outside, but has a plurality of discharge holes formed on the upper surface to discharge the powder to the outside, and the powder is uniformly applied to the respective discharge holes Injection body including a plurality of guide ribs protruding upward and downward on the inner wall so as to be dispersed and slit, and a slit section cut from one side of each discharge hole to allow air to pass through the inside and the outside during the powder discharge through the discharge hole It is configured to include.

The injection body portion is formed to be elongated in one direction, and a plurality of discharge holes are arranged in a row on the top surface of the injection body portion along the longitudinal direction of the injection body portion.

The top surface of the injection body portion is inclined obliquely as one side protrudes upwards from the other side along the longitudinal direction, it is preferable that the discharge holes are arranged in a row in the longitudinal direction of one side protruding upwards.

In order to prevent the fusion of the fusion welded to the opened edge of the pouch and the adjacent portion to which the pouch is connected, fixing ribs are integrally attached to both ends of the fusion to be parallel to the sides of the pouch, and the ejection hole is sealed to the outside. The body portion is provided with a removable lid portion.

The fusion portion is preferably fused at an angle to the upper edge portion of the pouch.

Spout for the pouch according to another embodiment of the present invention, the injection body portion is formed long in one direction, it is preferable that a plurality of discharge holes are arranged in a zigzag form on the top surface of the injection body portion along the longitudinal direction of the injection body portion.

In addition, in the present embodiment, preferably, the upper end surface of the injection body portion may be obliquely inclined obliquely upward from the other side along the longitudinal direction, and the discharge hole may be disposed in a zigzag form along the longitudinal direction of the one side protruding upward.

In addition, in the present embodiment, the upper end surface of the injection body portion is formed with a plurality of arch portions are bent alternately up and down along the longitudinal direction, the discharge hole is formed in a zigzag form along the longitudinal direction of the injection body portion of each arch portion desirable.

Spout for pouch according to the present invention,

First, it has the function of a dedicated container for sprinkling the contents contained in the flat type pouch made of synthetic resin material.If the contents contained in the pouch are powder, the width to which the powder is discharged is uniform and the amount of powder discharged per unit time is uniform. It has a sustainable effect.

Second, there is an advantage that can be easily stored in the sealable state after the remaining pouch contents.

1 is a top perspective view showing a spout for a pouch of the present invention;
2 is a bottom perspective view showing a spout for a pouch of the present invention;
3 is a perspective view showing a spout for the pouch of the present invention,
Figure 4 is a plan view showing a spout for the pouch of the present invention,
5 is a bottom view showing a spout for a pouch of the present invention;
6 is a side view showing a spout for a pouch of the present invention;
7 is another side view showing a spout for a pouch of the present invention;
8 is an exploded perspective view showing a spout for the pouch and the lid of the present invention;
9 is a use state showing the overall configuration of the spout for the pouch according to the present invention,
10 is another use state diagram showing the overall configuration of the spout for the pouch according to the present invention,
11 to 20 illustrate a spout for a pouch according to another embodiment of the present invention.
11 is a top perspective view showing a spout for a pouch according to another embodiment of the present invention;
12 is a bottom perspective view showing a spout for a pouch according to another embodiment of the present invention;
13 is a perspective view showing a spout for a pouch according to another embodiment of the present invention;
14 is a plan view showing a spout for a pouch according to another embodiment of the present invention;
15 is a bottom view showing a spout for a pouch according to another embodiment of the present invention;
16 is a side view showing a spout for a pouch according to another embodiment of the present invention;
17 is another side view showing a spout for a pouch according to another embodiment of the present invention;
18 is an exploded perspective view showing a spout and a lid for a pouch according to another embodiment of the present invention;
19 is a state diagram showing the overall configuration of the spout for the pouch according to another embodiment of the present invention,
20 is another state diagram showing the overall configuration of a spout for a pouch according to another embodiment of the present invention.

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

1 is a top perspective view showing the spout for the pouch of the present invention, Figure 2 is a bottom perspective view showing the spout for the pouch of the present invention, Figure 3 is a pouch for the pouch of the present invention 4 is a plan view showing the spout for the pouch of the present invention, [FIG. 5] is a bottom view showing the spout for the pouch of the present invention, and [FIG. 6] is a spout for the pouch of the present invention. Figure 7 is a side view, Figure 7 shows another side view showing a spout for the pouch of the present invention.

As shown in Fig. 1 to 7, the spout for the pouch according to the present invention is fusion-bonded to one open side of the pouch for containing the powder inside the pouch for injecting the powder contained in the pouch to the outside A spout, the pouch (P) of the hollow fusion welded to the rim of the opening portion 10; It is formed integrally with the fusion unit 10 and the inner side for discharging the powder (R) inside the pouch (P) to the outside is made of an empty form, a plurality of formed on the top surface to discharge the powder (R) to the outside Through the discharge hole 21 and the plurality of guide ribs 23 protruding upward and downward on the inner wall so that the powder R is uniformly dispersed and dispersed in each discharge hole 21, and through the discharge hole 21. And a spray body portion 20 including a slit portion 25 cut from one side of each discharge hole 21 to allow air to pass through the inside and the outside in the process of discharging the powder (R).

The spout 1 in the present invention is preferably injection molded integrally of the fusion unit 10 and the injection body 20, the pouch (P) fusion-bonded to the spout (1) is usually of a flat shape that is easily crumpled It is made of synthetic resin material.

The inner diameter of the discharge hole 21 formed on the upper surface of the injection body 20 may vary depending on the particle size of the powder contained in the pouch (P). The inner diameter of the discharge hole 21 is preferably formed to be sufficiently larger (about 3 times or more) than the particle size of the powder contained in the pouch (P).

The width of the slit portion 25 cut from one side of the discharge hole 21 is preferably formed smaller than the particle size of the powder contained in the pouch (P).

The slit part 25 serves as a passage for allowing air to be vented inside and outside the injection body 20 so that the powder contained in the pouch P is discharged to the outside through the discharge hole 21.

That is, the slit portion 25 prevents a vacuum state that may be generated in the gap between the powder particles concentrated in the adjacent part of the discharge hole 21 to prevent the vacuum state, and sprays the powder concentrated in the adjacent part of the discharge hole 21. It will be discharged smoothly to outside.

The plurality of guide ribs 23 protruding upward and downward on the inner wall of the injection body 20 have a plurality of discharge holes through the injection body 20 via the powder of the pouch P through the fusion unit 10. In the process of moving to 21) it is guided so that the powder is evenly distributed in each discharge hole (21).

As such, the slit part 25 and the guide rib 23 formed adjacent to the discharge hole 21 of the injection body part 20 uniformly and smoothly discharge the powder contained in the pouch P through the respective discharge holes 21. To be discharged.

In particular, when the powder contained in the pouch (P) is a powder fertilizer or a powdered pesticide, when the pouch (P) is sprayed depending on gravity while the pouch (P) is turned upside down, the particles of the powder have a very high weight. As described above, since the powder is uniformly and smoothly discharged through the plurality of discharge holes 21 formed in the injection body portion 20 of the spout 1, the slits 25 and the guide ribs 23 may be formed. Role becomes very important.

As shown in Figure 1, 4, 5, the injection body portion 20 is formed long in one direction, the injection body portion 20 along the longitudinal direction of the injection body portion 20 A plurality of discharge holes 21 are arranged in a line on the top surface of the.

By forming the injection body portion 20 in one direction, the powder contained inside the pouch P is uniformly distributed naturally corresponding to the width of the injection body portion 20 formed in one direction through the fusion portion 10. . The powder distributed in correspondence with the width of the injection body portion 20 is uniform in each discharge hole 21 arranged in a line on the top surface of the injection body portion 20 along the longitudinal direction of the injection body portion 20 To be discharged smoothly while maintaining a constant width to the outside of the injection body portion 20.

By forming the injection body portion 20 in one direction long, when the worker injects the powder contained in the inside of the pouch (P) in a certain area can be sprayed on a relatively large area with a small number of operations to improve labor productivity Of course.

As shown in Figure 4 and 7, the upper end surface of the injection body portion 20 protrudes upwards from the other side in the longitudinal direction obliquely inclined, and along the longitudinal direction of one side protruding upwards The discharge holes 21 are arranged in a row.

The upper surface of the injection body portion 20 is one side protrudes upwards from the other side in the longitudinal direction, the inclined obliquely, that is, the side end surface of the injection body portion 20 is narrowed in the direction adjacent to the discharge hole 21 When the worker is working upside down the spout (1) with the spout (1) by the tapered form, the amount of powder that is concentrated from the pouch (P) through the fusion portion (10) to the spray body (20) gradually In order to reduce the amount of powder, the discharge of the powder through the discharge hole 21 is smooth.

That is, the powder is more smoothly discharged through the lower discharge hole 21 by lowering the force to be engaged laterally between the powder particles distributed on the inner wall of the injection body portion 20 adjacent to the discharge hole 21.

As shown in FIG. 1 and FIG. 6, the fusion unit 10 may be fused to prevent the fusion unit 10 and the adjacent portion connected to the pouch P from being fused to the opened edge of the pouch P. The fixed ribs 30 are integrally attached to both ends of 10) in parallel with the side direction of the pouch P.

The pouch (P) is made of a flat synthetic resin material that can be easily wrinkled adjacent to the spout (1) made of a plastic material, which is relatively stronger than the pouch (P), and the spout (1) is an edge of the pouch (P). When connected at an angle to the both ends of the fusion portion 10, the fixed ribs 30 are extended and connected, but the fixed ribs 30 are arranged to be parallel to the side direction of the pouch P and the fusion portion 10 and the pouch (P). ) Prevents wrinkles on adjacent parts connected.

8 is an exploded perspective view showing the spout for the pouch and the lid of the present invention, while the lid 40 is slid to the spray body 20 of the spouch is elastically detachable coupled. For the elastic coupling of the injection body portion 20 and the lid portion 40, the lid portion 40 is preferably made of a soft synthetic resin material.

The outer circumferential wall of the fusion portion 10 protrudes outward relative to the outer circumferential wall of the spray body 20. Therefore, the stepped portion is formed in the fusion portion 10 corresponding to the connection portion of the injection body portion 20 and the fusion portion 10.

When the lid portion 40 is elastically coupled while sliding to the injection body portion 20, the end portion of the lid portion 40 is engaged with the stepped portion of the fusion portion 10 is fixed.

9 is a state diagram showing the overall configuration of the spout for the pouch according to the present invention, [10] shows another state diagram showing the overall configuration of the spout for pouch according to the present invention.

9 and 10, the injection body 20 is provided with a removable lid portion 40 so that the discharge hole 21 can be sealed to the outside. By providing the lid portion 40 in a detachable form it is possible to seal the powder contained in the pouch (P) when storing the pouch (P).

When the spout (1) is facing downward and the pouch (P) upside down and spraying the powder when the fusion unit 10 is smoothly slid downwards so that the fusion (10) is in the upper corner portion of the pouch (P) It is preferable to fusion bond at an angle.

11 is a top perspective view showing a spout for a pouch according to another embodiment of the present invention, FIG. 12 is a bottom perspective view showing a spout for a pouch according to another embodiment of the present invention. Is a cutaway perspective view showing a spout for a pouch according to another embodiment of the present invention, [FIG. 14] is a plan view showing a spout for a pouch according to another embodiment of the present invention, [FIG. 15] is another of the present invention 16 is a bottom view showing a spout for a pouch according to an embodiment, [FIG. 16] is a side view showing a spout for a pouch according to another embodiment of the present invention, and [FIG. 17] is a pouch according to another embodiment of the present invention. Another side view showing the dragon spout is shown.

11 to 17, the spout for the pouch according to another embodiment of the present invention, the injection body portion 20 is formed long in one direction, the longitudinal direction of the injection body portion 20 Along the upper surface of the injection body portion 20 is formed a plurality of discharge holes 21 arranged in a zigzag form.

The plurality of discharge holes 21 are arranged in a zigzag form on the upper end surface of the injection body 20 along the longitudinal direction of the injection body 20 so that the powder concentrated on the lower portion of the injection body 20 can be smoothly discharged downward. Batch is formed.

In other words, even when the total area formed by the plurality of discharge holes 21 is the same, the area in which the plurality of discharge holes 21 are arranged is expanded to push the powder particles pushed to the lower side of the injection body part 20 laterally. The powder is smoothly discharged through each discharge hole 21 by minimizing.

As shown in FIG. 11 and FIG. 17, the upper end surface of the injection body portion 20 protrudes upwardly from the other side along the longitudinal direction and is obliquely inclined, along the longitudinal direction of one side protruding upwards. The discharge holes 21 are arranged in a zigzag form.

The upper surface of the injection body portion 20 is one side protrudes upwards from the other side in the longitudinal direction, the inclined obliquely, that is, the side end surface of the injection body portion 20 is narrowed in the direction adjacent to the discharge hole 21 When the worker is working upside down the spout (1) with the spout (1) by the tapered form, the amount of powder that is concentrated from the pouch (P) through the fusion portion (10) to the spray body (20) gradually In order to reduce the amount of powder, the discharge of the powder through the discharge hole 21 is smooth.

That is, the powder is more smoothly discharged through the lower discharge hole 21 by lowering the force to be engaged laterally between the powder particles distributed on the inner wall of the injection body portion 20 adjacent to the discharge hole 21.

As shown in FIG. 11 and FIG. 16, the upper end surface of the injection body portion 20 is formed with a plurality of arch portions that are alternately curved up and down along the longitudinal direction, and each of the arch portions has a discharge hole. 21 is disposed in a zigzag form along the longitudinal direction of the injection body portion 20.

The upper surface of the injection body portion 20 is formed by a plurality of arch portions are bent alternately up and down along the longitudinal direction, thereby minimizing the force that the powder particles pushed to the lower side of the injection body portion 20 to each other side Powder is smoothly discharged through the discharge hole 21 of the.

That is, when the pouch P is turned upside down so that the spout 1 faces downward, the upper and lower surfaces of the injection body part 20, that is, the spout 1 is inverted, are placed up and down on the lower surface of the injection body part 20. Each discharge hole 21 is disposed in the arch portion formed to be bent alternately to the room, thereby minimizing the force pushing the powder particles squeezed to the lower side of the injection body 20 laterally through each discharge hole 21. The powder is discharged smoothly.

In detail, each of the discharge holes 21 formed in the arch portion of the injection body 20 is disposed at a position higher or lower than the adjacent discharge holes 21 so as to be disposed at a relatively high position. 21), as the powder concentrated on the lower portion of the injection body portion 20 is first discharged, the powder particles disposed at the adjacent portions of the discharge hole 21 disposed at a relatively low position have a weaker pushing force to the side, and thus have a relatively low position. The powder is smoothly discharged to the discharge holes 21 arranged.

FIG. 18 is an exploded perspective view illustrating a spout and a lid for a pouch according to another embodiment of the present invention, wherein the cap 40 is slid to the spray body 20 of the spouch so as to be elastically detachable. Combined. For the elastic coupling of the injection body portion 20 and the lid portion 40, the lid portion 40 is preferably made of a soft synthetic resin material.

The outer circumferential wall of the fusion portion 10 protrudes outward relative to the outer circumferential wall of the spray body 20. Therefore, the stepped portion is formed in the fusion portion 10 corresponding to the connection portion of the injection body portion 20 and the fusion portion 10.

When the lid portion 40 is elastically coupled while sliding to the injection body portion 20, the end portion of the lid portion 40 is engaged with the stepped portion of the fusion portion 10 is fixed.

19 is a state diagram showing the overall configuration of the spout for the pouch according to another embodiment of the present invention, Figure 20 is another showing the overall configuration of the spout for the pouch according to another embodiment of the present invention The use state diagram is shown.

As shown in FIG. 19 and FIG. 20, the injection body 20 is provided with a detachable lid 40 so that the discharge hole 21 can be sealed to the outside. By providing the lid portion 40 in a detachable form it is possible to seal the powder contained in the pouch (P) when storing the pouch (P).

When the spout 1 is turned downward and the pouch P is held upside down to spray the powder, the fusion unit 10 is preferably fused at an angle to the upper edge of the pouch P.

1: Spout 10: Fusion part
20: injection body portion 21: discharge hole
23: guide rib 25: slit portion
30: fixed rib 40: lid portion
P: Pouch R: Powder

Claims (9)

In the spout for the pouch for fusion bonding to the opened one side of the pouch containing the powder to the outside injecting the powder contained in the pouch,
A hollow welding part 10 fused to the edge of the opening of the pouch P;
The inner part is formed integrally with the fusion unit 10 to discharge the powder (R) inside the pouch (P) to the outside is formed in an empty form, the upper surface to discharge the powder (R) to the outside A plurality of discharge holes 21 formed therein, a plurality of guide ribs 23 protruding upward and downward on an inner wall so that the powder R is uniformly dispersed and dispersed in each of the discharge holes 21, and the discharge An injection body part 20 including a slit part 25 cut from one side of each of the discharge holes 21 so that air may pass through the inside and the outside in the process of discharging the powder R through the ball 21;
Spout for the pouch configured including. The method according to claim 1,
The injection body part 20 is formed to be elongated in one direction, and the plurality of discharge holes 21 are arranged in a row on the upper end surface of the injection body part 20 along the longitudinal direction of the injection body part 20. Spout for pouch which is characterized by the above-mentioned. The method according to claim 2,
The upper surface of the injection body portion 20 is one side protrudes upwards than the other side in the longitudinal direction is inclined obliquely, characterized in that the discharge hole 21 is formed in a row in the longitudinal direction of one side protruding upwards Spout for porch to make. The method according to claim 1,
The injection body portion 20 is formed to be elongated in one direction, and the plurality of discharge holes 21 are arranged in a zigzag form on the top surface of the injection body portion 20 along the longitudinal direction of the injection body portion 20. Spout for pouch, characterized in that formed. The method of claim 4,
The upper surface of the injection body portion 20 is one side protrudes upwards than the other side in the longitudinal direction obliquely inclined, the discharge hole 21 is formed in a zigzag form along the longitudinal direction of one side protruding upwards The spout for the pouch which is characterized by. The method according to claim 5,
The upper surface of the injection body portion 20 is formed with a plurality of arch portions are bent alternately up and down along the longitudinal direction, the discharge hole 21 is formed in each of the arch portion of the injection body portion 20 Spout for the pouch, characterized in that formed in a zigzag form along the longitudinal direction. The method according to any one of claims 1 to 6,
Pouches P are formed at both ends of the fusion portion 10 to prevent the fusion portion 10 and the adjacent portion connected to the pouch P from being fusion-bonded to the opened edge of the pouch P. The spout for pouch, characterized in that the fixed rib 30 is integrally attached side by side with the side direction. The method according to any one of claims 1 to 6,
Spout for the pouch, characterized in that the ejection body portion 20 is provided with a detachable lid portion 40 so that the discharge hole 21 is sealed to the outside. The method according to any one of claims 1 to 6,
The fusion spout 10 is a spout for a pouch, characterized in that fused at an angle to the upper edge portion of the pouch (P).

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