WO2014073916A1

WO2014073916A1 - Cap for plant nutrient container

Info

Publication number: WO2014073916A1
Application number: PCT/KR2013/010162
Authority: WO
Inventors: 김익순
Original assignee: Kim Ik-Soon
Priority date: 2012-11-12
Filing date: 2013-11-11
Publication date: 2014-05-15
Also published as: CN104797506A; JP6219965B2; CN104797506B; KR101239278B1; JP2016501787A

Abstract

The present invention relates to a cap for a plant nutrient container, and more specifically, to a cap inserted into a front end of a mouth of a plant nutrient container, comprising: a main body which is inserted into the front end of the mouth of the container; a neck which is connected to the upper portion of the main body; a head which is provided above the neck; a pipe which is provided downward below the neck to the inside of the main body; and a discharge hole which is continuously formed from the inside of the pipe to the inside of the neck, wherein rod-shaped protrusions which extend toward the discharge hole are formed at the bottom portion of the neck.

Description

[Revision 10.12.2013 by rule 26] 캡 cap for plant nutrient container

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cap for plant nutrition container, and more particularly, to a cap for plant nutrition container that can feed a plant by inserting a pointed spout into a pot.

Plant nutrients (or therapeutics) are made in liquid form and placed in a plastic container, and then injected into the soil around the plant when it is deficient in nutrients, before and after flowering, during daylight or when necessary to prevent pests. Phytonutrients are stored in containers with long, thin spouts that can be used upside down in pots. One example of the container is shown in FIGS. 1 and 2. 1 is a cross-sectional view showing a conventional nutrient container (1) with a cap (4), Figure 2 is a state diagram of use of a conventional phytonutrient. The cap 4 is molded from a soft elastic resin of high elasticity (eg, low density PE), but the inner diameter of the main body 9 of the cap 4 is slightly smaller than or equal to the outer diameter of the tip of the spout 3, and the spout of the narrow elongated bottle (3) The inner circumferential surface of the main body 9 of the cap 4 is pressed against the outer circumferential surface of the inlet so as to be fitted. A neck 6 and a head 5 are formed above the main body 9 of the cap 94. The lower part of the neck (6) is formed with a tube (8) extending downward inside the main body (9) and the discharge hole (8) is formed in the tube (8) and the neck (6) to allow the plant nutrients to flow out Consists of.

When using the plant nutrient in this structure, the user grasps the container 1 with one hand, grabs the head 5 with the other hand, and turns the head 5 to separate the neck 6 while twisting the neck 6. However, as shown in FIG. 1, since the material of the cap 4 is soft, the resin of the neck 6 increases in this process, thereby preventing the discharge hole 8. The burr 10, which is an expanded resin in the process of twisting the neck 6, does not fall off the cap body 9 to block the upper portion of the discharge hole 8. In this way, the plant nutrients are not easily discharged even if the discharge hole 8 is plugged upside down, as shown in FIG. 2.

The present invention has been made to solve the problems of the above and the prior art, the problem to be solved by the present invention is to provide a container for phytonutrients without clogging the discharge hole even after removing the head by twisting the neck.

The above object of the present invention is a cap fitted to the tip of the spout of the phytonutrient container, the cap is inserted into the tip of the container spout, the neck connected to the top of the body, the head provided on the neck, the lower neck And a discharge hole provided in the body and extending downward from the inside of the main body, and discharge holes continuously formed from the inside of the tube to the inside of the neck, wherein the lower part of the neck has a bar-shaped protrusion extending in the discharge hole direction. do.

According to the present invention having the above-described structure, there is no blockage of the discharge hole of the cap because the rod-shaped protrusion extending from the lower part of the neck prevents the expanded resin from blocking the discharge hole when the neck of the cap is twisted, and the nutrient for use in plant nutrition There is effect that discharge of is smooth

1 is a cross-sectional view of a conventional plant nutrition container with a cap.

2 is a state diagram used in the conventional plant nutrients.

3 is a perspective view of a plant nutrition container equipped with a cap according to the present invention.

Figure 4 is a block diagram of a cap for a plant nutrition container according to the present invention.

5 is a state diagram of use of the plant nutrition container with a cap according to the present invention.

Description of Codes:

20: cap 22: head

23: body 24: neck

25 discharge hole 26 tube

27: bar protrusion 30: container

31: Spout 32: Torso

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

As can be seen with reference to Figures 3 and 4, the cap 20 according to the present invention is a head 22 that the user can hold and twist with a finger, and the head 22 to the main body 23 of the cap While connecting, the inside is provided with a narrow neck 24, the discharge hole 25 is formed. The neck 24 has not only a thin outer diameter, but also has a discharge hole 25 formed therein, and is easily cut by twisting the head 22 with a thumb and an index finger. As shown in FIG. 3, the head 22 of the cap 20 may be shaped into a square pillar shape. However, it is not necessarily limited to the shape of the square pillar, any shape may be any shape so long as there is no inconvenience to twist with a finger. However, the flat cross-sectional shape of the head 22 is preferably polygonal because it is easy to grip.

As shown in FIG. 5, the inlet 11 and the cap 20 of the spout 11 of the container 30 according to the present invention are doubled by the main body 23 and the tube 26. That is, the cap main body 23 has its inner circumferential surface tightly inserted into the inlet outer circumferential surface of the spout 11, and the tube 26 protrudes in a pipe shape from the upper end of the inner body 23, so that the cap 20 is fastened. The spout 11 is inserted in close contact with the inner peripheral surface of the inlet. While the container 30 may be a hard synthetic resin, the cap 20 coupled thereto uses a soft synthetic resin for improving airtightness. Synthetic rubber may be used as the material of the cap 20. Therefore, in most cases the temperature expansion rate or shrinkage of the cap is greater than the temperature expansion rate or shrinkage of the inlet 11. Therefore, even when the cap 20 and the spout 11 expands at different expansion rates according to the increase in the external temperature, or the cap 20 and the spout 11 shrink at different shrinkage rates according to the external temperature drop. In the spout 11, at least one of the outer circumferential surface and the inner circumferential surface of the inlet is kept sealed at all times.

In addition, a discharge hole 25 penetrating the inside of the cap 20 from a lower end of the tube 26 to a specific point inside the neck 24 is formed. When the neck 22 is removed, the discharge hole 25 opens the inside of the bottle to the outside so that the nutrient inside the bottle can flow out. By the discharge hole 25, a part of the neck 24 is in the shape of a tube having a certain length. The diameter of the discharge hole 25 is determined in consideration of the discharge time of the plant nutrient solution.

A feature of the present invention is that the cap 20, as described above, the main body 23 is inserted into the tip of the container spout 31, the neck 24 connected to the upper portion of the main body, the upper portion of the neck 24 A head 22 provided in the lower portion, a tube 26 provided below the neck 24 and extending downward inside the main body 23, and a discharge continuously formed from the inside of the tube 26 to the inside of the neck 24. While including the ball 25, there is formed a bar-shaped projection 27 for preventing clogging the discharge hole 25 extending in the direction of the discharge hole 25 in the lower portion of the neck (24).

As can be seen with reference to Figure 5, the cap 20 according to the present invention having the above-described configuration, when twisting the neck 24 holding the head 22, the stretched soft resin to block the discharge hole 25 The bar protrusion 27 is blocked. When the head 22 is completely removed, the rod protrusion 27 is removed together with the head 22.

Claims

In the cap fitted to the tip of the spout of the plant nutrition container,

The cap 20 includes a main body 23 inserted into the tip of the container spout 31, a neck 24 connected to the upper part of the main body, a head 22 provided on the upper part of the neck 24, and a neck 24. It is configured to include a pipe 26 provided in the lower portion and extending downward in the body 23, the discharge hole 25 formed continuously from the inside of the tube 26 to the inside of the neck 24,

Caps for a plant nutrition container, characterized in that formed in the lower portion of the neck 24, a bar-shaped protrusion (27) extending in the direction of the discharge hole (25).