KR20180125714A - pressure-control hose with multi-stage flow path - Google Patents

Abstract

The present invention relates to a pressure control hose with a multi-stage flow path, capable of constantly supplying water by uniformly discharging the water to an outflow path of the whole hose by connecting the multi-stage flow path which is gradually decreased from an inflow path to the outflow path, and more particularly, to a pressure control hose with a multi-stage flow path, capable of uniformly discharging water in an outflow path of the whole hose by receiving pressure in the flow of the water by forming an independent control space whose area is gradually decreased toward the outflow path and forming the flow path between the control spaces to be gradually narrowed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-

The present invention relates to a drop hose, and more particularly, to a drop hose which is constructed by connecting a multi-stage flow path from a water inlet to a water outlet and gradually decreasing a flow path so as to uniformly supply water to the outlet of the entire hose, To a pressure regulating hose having a flow path.

More specifically, the present invention forms an independent control space with a gradually smaller area toward the outlet, forms a flow path between the control spaces, and gradually becomes narrower so that the flow of water is pressurized so that water is uniformly distributed at the outlet of the entire hose To a pressure regulating hose having a multi-stage flow path.

Generally, when cultivating crops, hose is piped or water is supplied by spraying, and the method of supplying water according to the growing period of the crop is different. For example, when seedlings such as strawberries are cultivated, seedlings are transplanted and water is sprayed on the adjacent crops using a sprinkler or spraying hose until the roots of the seeded crops are settled. The roots of the crops are activated, and vinyl mulching is carried out The water is dropped by using a drop hose. There are various technologies related to such dot hoses, for example, Patent Documents 1 to 3.

These drip hoses are usually constructed by overlapping both longitudinal edges of a long vinyl film and then fusing them to form a flow path through which water is sprayed to a part of the bonded portion.

As shown in Fig. 8, the vinyl film is folded and the end portions in the longitudinal direction are fused while the inner side faces are overlapped with each other to form the adhesive portion 110. The flow path 120 is formed in a part of the adhesive portion, Or an end portion in the longitudinal direction may overlap the inner surface and the outer surface and then the overlapped portion may be adhered to form a bonding portion and a channel may be formed in a part of the bonding portion to form a channel in the middle portion of the hose There is.

The inlet 120i is formed on the inside of the flow channel 120 and the outlet 120o is formed on the outside of the flow channel 120 so that the water introduced into the inlet 120 moves along the flow channel and is supplied to the outside through the outlet.

As shown in FIG. 6, the dot hose is formed at regular intervals with flow paths having an inlet number and an outlet port.

The water flow path formed in the conventional drop hose is formed at a predetermined interval as described above. Therefore, irrigation water should be uniformly distributed to all the plants through the flow path through the entire hose at the same time. However, The water flowing through the hose is pushed up to the opposite end of the hose while the irrigation water is being supplied, so that water is formed at the opposite end of the hose There is a problem that the irrigation water can not be irrigated evenly because irrigation water is made through irrigation water.

In other words, the plants at the end of the hose are largely irrigated while the plants at the opposite end have relatively small irrigation water, so some of them are rotten by the supply of excess water and the plants of the opposite side are water There was a problem of failing due to lack.

Further, in the conventional drip hose, when the mulling vinyl is overlaid on the outer end of the flow path pattern adhered to the hose main body, the mulling vinyl hermetically closes the outflow port as the mulling vinyl is in close contact with the outflow port of the drip hose, There is a problem in that the water of the outlet can not be discharged to the outlet.

Korean Patent Publication No. 2001-0089485 Korean Patent Publication No. 2012-0064283 Korean Patent No. 1205554

The present invention has been developed in order to solve the problems of the prior art as described above. As water supplied to the inlet of one end of the hose is sufficiently filled in the inside of the hose, water is discharged to the outlet of the water- The present invention provides a pressure regulating hose having a multi-stage flow path that can be constantly formed throughout the hose.

More specifically, the present invention relates to a method of controlling a pressure in a multi-stage flow path, in which water is uniformly discharged to the outlet port of the entire hose so that the supply of water can be uniformly performed, And to provide an adjustable hose.

In order to achieve the above object, the present invention provides a pressure regulating hose having a multi-end flow path, the pressure regulating hose including a flow path for supplying water to a crop, the pressure regulating hose being connected to an inlet path and a connecting path, The inlet passage portion being formed on the opposite side of the inlet passage; An outflow channel and a connection channel are formed in an outflow control space, the outflow channel is connected to the outside of the hose and the connection channel is formed on the opposite side of the outflow channel; And a connecting flow path portion formed between the inlet flow path portion and the outlet flow path portion and having a space connecting path formed between an inlet side control space connected to a connecting path of the inlet flow path portion and an outlet side control space connected to a connecting path of the outlet flow path portion, And the control spaces are formed to be gradually narrowed from the inlet flow path portion toward the outlet flow path portion.

Wherein the auxiliary connection channel portion is formed between the connection channel portion and the outlet channel portion and the auxiliary connection channel portion is connected to the connection control channel connected to the control channel on the outflow side of the connection channel portion, Side control space connected to the outflow-side control space, and the outflow-side control space is connected to the connection path of the outflow-path portion.

The connecting rods are preferably formed in a straight or meandering labyrinth shape.

As described above, the pressure regulating hose provided with the multi-end flow path according to the present invention constitutes a multi-stage flow path, and when the water supplied to the inlet of one end of the hose is sufficiently filled in the inside of the hose, So that the supply of water can be made uniform throughout the hose.

That is, an independent control space is formed in which the area gradually decreases toward the outflow channel, and a flow path is formed between the control spaces. However, since the resistance is provided to the water discharged to the outflow channel, So that the water is discharged to the respective outflow passages at the same time, so that the water can be evenly discharged from the outflow passages of the entire hose.

1 is a perspective view of an example of a pressure regulating hose having a multi-end flow path according to the present invention;
2 is a plan view of an example of a pressure regulating hose having a multi-end flow path according to the present invention.
3 is a cross-sectional view taken along the line AA in Fig.
Fig. 4 is a cross-sectional view taken along line BB in Fig.
5 is a cross-sectional view taken along the line CC of Fig.
6 is a plan view of another example of a pressure regulating hose having a multi-end flow path according to the present invention.
7 is a plan view of another example of the pressure regulating hose provided with the multi-end flow path according to the present invention.
8 is a plan view of an example of a conventional drop hose

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail with reference to the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention enables the supply of water to be constant throughout the hose. The present invention is characterized in that a plurality of flow paths are formed between an intake path and an outflow path for allowing water in the hose to be dripped out, and the flow path is gradually narrowed from the intake path to the outflow path.

The pressure regulating hose having the multi-end flow path according to the present invention is a pressure regulating hose having a flow path for supplying water to the crop, as shown in FIGS. 1, 2 and 6, the inlet flow path portion 10, A plurality of connection flow path portions 30 and 40 are formed between the upper and lower portions 20 so as to form a water supply flow path and the water received by the water supply path 11i of each water supply flow path reaches the outflow path 21o The water introduced into one end portion of the hose is not discharged directly to the water supply channel in the front side, but the water supply channels are opened in the state of being filled in the hose, so that water can be evenly discharged from the entire hose.

The connection channel portions 30 and 40 are formed between the water inlet channel portion 10 and the water outlet channel portion 20 as described above so that the water flowing into the water inlet channel 11i of the water inlet channel portion 10 slowly flows out The connection channel portion 30 is referred to as a connection channel portion and the connection channel portion 40 is hereinafter referred to as an auxiliary connection channel portion.

The water inlet passage portion 10 is a portion for inputting water in the hose into the following flow passage portion and includes an inlet passage 11i connected to the inside of the hose and an inlet control space 11a connected to the inlet passage and having a space for storing water And a connecting passage 11r for feeding the water in the water intake control space to the following channel portion.

That is, the intake passage portion 10 is formed by connecting the intake passage 11i and the connection passage 11r around the intake control space 11a, and the intake passage 11i is connected to the inside of the hose, And the connecting passage 11r is formed on the other side of the inlet / outlet control space 11a so as to communicate with the subsequently connected flow path portion.

The outflow channel unit 20 has a function of discharging water introduced into the inlet channel unit to the outside of the hose and includes an outflow control space 21a connected to the connection channel 11r of the inlet channel unit 10, And an outflow channel 21o for discharging the water in the control space to the outside of the hose.

A connection passage 21r is formed at one side of the water flow control space 21a and the connection passage 21r is connected to the connection passage portion 30, (10) and the outlet channel portion (20).

That is, the connection channel portion 30 includes an inlet side control space 31a connected to the connection channel 11r of the inlet channel portion and an outlet side control chamber 32a connected to the connection channel 21r of the outlet channel portion And a space connecting path 31r is formed between the inlet-side control space 31a and the outlet-side control space 32a.

In the pressure regulating hose having the multi-end flow path according to the present invention, the inlet flow path portion 10, the outlet flow path portion 20, and the connection flow path portion 30 constitute one water supply flow passage, As shown in Fig.

Further, as the flow path and the space gradually become narrower from the inlet flow path portion 10 to the outlet flow path portion 20 of each water supply flow passage and pressure is applied to the entire flow path, water introduced into one end portion of the hose flows into the inside The water is transferred to the respective water supply channels and the water is discharged to the outflow channel.

As shown in FIGS. 1 and 3 to 5, the hose of the present invention having the above-described structure may be modified in various ways to form the water supply channel constituting the hose, And both ends of the film are overlapped with each other, but the part of the adhesive pattern 50 excluding the part where the water supply channel is formed is bonded.

In other words, the adhesive pattern 50 having the water supply channel formed by adhering both ends in the longitudinal direction of one film in a superposed state is formed, or the longitudinal direction end portions of the two films are adhered to each other, And the other end is overlapped in the longitudinal direction and then adhered to form the sealing adhesive portion 100f, whereby the film is in the form of a hose.

Although the sealing adhesive portion 100f is formed as one line in the longitudinal direction of the hose in FIG. 1, it is possible to form the sealing adhesive portion 100f in two or more lines, and a hole is formed in the inner wall between the two lines, You may.

That is, the sealing adhesive portion 100f formed by two lines can form a channel by the inward and outward films of two lines. When a hole is formed in the inner film of the channel thus formed, a part of the water is supplied into the channel through the hole, May serve as a support for the hose to form a straight line.

Further, the pressure regulating hose having the multi-end flow path according to the present invention may further include the auxiliary connection flow path 40 as shown in FIG. Although only one auxiliary connection channel portion 40 is shown in the figure, more than two auxiliary connection channel portions 40 may be formed.

The auxiliary connection passage portion 40 also has a structure similar to the connection passage 30 described above. More specifically, at least one auxiliary connection channel portion 40 is further formed between the connection channel portion 30 and the outflow channel portion 20, and the auxiliary connection channel portion 40 is connected to the outflow side of the connection channel portion 30 An inlet side control space 41a connected to the connection passage 41r connected to the control space 32a, an outlet side control space 42a connected to the inlet side control space 41a by the space connection path 42r, The outlet side control space 42a is connected to the connection passage 21r of the outlet channel portion 20. [

Of course, the flow paths and spaces constituting the auxiliary connection passage portion 40 are narrower than the flow passage portion on the intake flow passage side and wider than the flow passage portion on the side of the outlet flow passage portion.

In other words, the respective flow paths and spaces are formed to be gradually narrowed in the order of the inlet flow path portion 10, the connection flow path portions 30, 40, and the outlet flow path portion 20.

The connection paths 11r, 21r, and 41r may be formed in a linear shape as shown in FIG. 7, or may be formed in a serpentine shape as shown in FIGS. 1, 2, and 6, .

7, when the connecting paths 11r, 21r, and 41r are formed in a straight line, the inlet-side control space and the outlet-side control space of the connecting passage portion may be formed to have the same width as the connecting paths connected to the connecting passage portions 11r, 21r, .

10: Available water
11i: Receiving route 11a: Receiving control space
11r: Connection route
20: Outflow channel
21i: outgoing route 21a: outgoing control space
21r: Connection route
30, 40: connection channel
31r, 42r: spatial connection path 31a, 41a: input-side control space
32a, 42a: an outflow side control space 41r:
50: Adhesive pattern

Claims (3)

1. A pressure regulating hose having a water supply channel for supplying water to a crop,
The water supply passage is formed by connecting an intake passage 11i and a connection passage 11r to the intake control space 11a and the intake passage 11i is connected to the inside of the hose, An inlet flow path portion 10 formed on the opposite side of the flow path portion 10;
The outflow passage 21o and the connection passage 21r are formed in the water outlet control space 21a while the outflow passage 21o is connected to the outside of the hose and the connection passage 21r is formed in the outflow passage portion 20); And
An inlet side control space 31a connected to the connection path 11r of the inlet flow path portion and an outlet side control space 32a connected to the connection path 21r of the outlet flow path portion formed between the inlet flow path portion and the outlet flow path portion, And a connection passage portion 30 in which a space connection path 31r is formed,
The water inlet channel portion 10, the water outlet channel portion 20 and the connection channel portion 30 constitute one water supply channel, the water supply channel is repeatedly formed in the longitudinal direction of the hose,
Wherein the connecting passages and the control spaces are formed to be gradually narrowed from the inlet passage portion toward the outlet passage portion. The method according to claim 1,
At least one auxiliary connection passage portion 40 is further formed between the connection passage portion 30 and the outflow passage portion 20,
The auxiliary connection passage portion 40 includes an inlet side control space 41a connected to the connection passage 41r connected to the outlet side control space 32a of the connection passage portion 30, Wherein the control valve is connected to the connecting passage of the outlet channel portion and the outlet control chamber is connected to the inlet side control chamber and the outlet side control chamber, And a pressure regulating hose. The method according to claim 1,
Wherein the connecting rods are formed in a straight or meandering labyrinth shape.

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