The present invention relates to drip emitters and tubes comprising the drip emitters.
There are multiple types of irrigation drip emitters, as disclosed in, for example, U.S. Pat. Nos. 9,485,923, 8,763,934, 8,096,491, 7,988,076, 7,108,205, and 6,945,476. Although currently known drip emitters have some advantages, they have various problems of, e.g., experiencing pressure loss and/or getting clogged. There is still a need for an improved drip emitter.
An aspect of the present invention provides an irrigation drip emitter. The irrigation drip emitter has a first end, a second end, an outer surface between the first and second ends, and an inner surface between the first and second ends. The irrigation drip emitter comprises a first pool, a first labyrinth fluid flow path, an inlet recess, a second labyrinth fluid flow path, and a second pool. The first and second pools, the first and second labyrinth fluid flow paths, and the inlet recess are defined on the outer surface and are in direct or indirect fluid communication with each other. The irrigation drip emitter further comprises an elastic band that surrounds the inlet access.
Another aspect of the present invention provides an irrigation line tube provided with dripping holes. A plurality of irrigation drip emitters according to embodiments of the present invention are provided in series inside the irrigation line tube such that the dripping holes of the irrigation line tube are positioned above all or some of the first pools of the irrigation drip emitters, all or some of the second pools of the irrigation drip emitters, or both.
The embodiments and other aspects will be discussed in detail below.
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It is to be understood, however, that the embodiments are presented for illustrative purpose only and are not constructed to limit the scope of the present invention.
An aspect of the present invention provide an irrigation drip emitter that does not cause the above-described prior art problems (e.g., experiencing pressure loss and/or getting clogged). Referring to
The hollow body has a first end (100), a second end (500), an outer surface (200) between the first and second ends (100, 500), and an inner surface (300) between the first and second ends (100, 500). The irrigation drip emitter (1) comprises a first pool (10), a first labyrinth fluid flow path (20), an inlet recess (30), a second labyrinth fluid flow path (40), and a second pool (50). The first and second pools (10, 50), the first and second labyrinth fluid flow paths (20, 40), and the inlet recess (30) are defined on the outer surface (200) of the hollow body. The first and second pools (10, 50), the first and second labyrinth fluid flow paths (20, 40), and the inlet recess (30) are in fluid communication with each other directly or indirectly.
A first end wall (11) is formed on the outer surface (200) at or near the first end (100). A first inner wall (21) is formed on the outer surface (200) between the inlet recess (30) and the first end wall (11). The first labyrinth fluid flow path (20) is defined by the first inner wall (21). The shape, number, and size (e.g., width and height) of the first inner wall can be suitably chosen according to design needs or else. For example, the cross-section of the first inner wall can be a polygonal shape, a round shape, or a mixed shape. For example, two (or more) of the first inner walls can be provided and the first inner walls can be in fluid communication with each other directly or indirectly. A second end wall (51) is formed on the outer surface (200) at or near the second end (500). A second inner wall (41) is formed on the outer surface (200) between the inlet recess (30) and the second end wall (51). The second labyrinth fluid flow path (40) is defined by the second inner wall (41). The shape, number, and size (e.g., width and height) of the second inner wall can be suitably chosen according to design needs or else. For example, the cross-section of the second inner wall can be a polygonal shape, a round shape, or a mixed shape. For example, two (or more) of the second inner walls can be provided and the second inner walls can be director indirect in fluid communication with each other.
The first pool (10) is defined by the outer surface (200), the first end wall (11), and a first end (211) of the first inner wall (21). The second pool (50) is defined by the outer surface (200), the second end wall (51), and a first end (411) of the second inner wall (41). The inlet recess (30) is defined by the outer surface, a second end (212) of the first inner wall (21), and a second end (412) of the second inner wall (41). The inlet recess (30) is provided with one or more inlet holes (35). A fluid (e.g., water) can flow inside the hollow body of the irrigation drip emitter (1). The fluid that flows inside the hollow body can be supplied to the inlet recess (30) through the inlet hole(s) (35). The first pool (10) is in fluid communication with the inlet recess (30) via the first labyrinth fluid flow path (20). The second pool (50) is in fluid communication with the inlet recess (30) via the second labyrinth fluid flow path (40).
The irrigation drip emitter (1) further comprises an elastic band (60). The elastic band (60) is provided in the inlet recess (30) such that the elastic band (60) surrounds at least one of the inlet holes (35). The elastic band (60) is configured to move between a closed position where the elastic band (60) is in a tight contact with the inlet holes (35) to thereby prevent a fluid from flowing through the inlet holes (35) and an open position where the elastic band (60) is expanded by a fluid flowing through the inlet holes (35) to thereby allow the fluid to flow to the inlet recess (30) and then to the first and second labyrinth fluid flow paths (20, 40). The elasticity of the elastic band (60) can be suitably chosen according to design needs.
In some embodiments, as illustrated in
In some embodiments, the width of horizontal and vertical fluid paths formed by the horizontal and vertical walls and sub-walls of the first inner wall (21) may be designed to gradually increase or decrease as it goes from the second end (212) of the first inner wall (21) towards the first end (211) of the first inner wall (21). Also, the width of horizontal and vertical fluid paths formed by the horizontal and vertical walls and sub-walls of the second inner wall (41) may be designed to gradually increase or decrease as it goes from the second end (412) of the second inner wall (41) towards the first end (411) of the second inner wall (41).
In some embodiments, the irrigation drip emitter (1) may further comprise an additional first end wall (13) on the outer surface (200) of the hollow body at or near the first end (100) of the hollow body. Similarly, the irrigation drip emitter (1) may further comprise an additional second end wall (53) on the outer surface (200) of the hollow body at or near the second end (500) of the hollow body.
Although it is described in FIGS. land 2 that both the outer surface (200) and the inner surface (300) of the hollow body have a round cross-section, the cross-section of the outer and inner surfaces (200, 300) is not limited to a round cross-section. Non-limiting examples of the cross-sectional shapes include a polygonal shape (such as triangular, rectangular, pentagonal, and hexagonal shapes) and a round shape (such as a circular shape). Also, the cross-section of the outer surface (200) and the cross-section of the inner surface (300) can have different shapes.
As illustrated in
The shape, number, and size of the fluid passages (23, 24, 43, 44) can be, suitably, chosen depending on design needs as long as it facilitates the above-described fluid communication. The fluid passages can be formed in a round shape or a polygonal shape. As a non-limiting example, the fluid passages may be formed in an arc shape or rectangular shape, as illustrated in
Another aspect of the present invention provides an irrigation line tube comprising a plurality of irrigation drip emitters (1) of the present invention. An irrigation line tube (5) in accordance with some embodiments of the present invention has an outer surface, an inner surface, and dripping holes (15, 55) that penetrate the outer surface and the inner surface. A plurality of the irrigation drip emitters (1) according to embodiments of the present invention are provided in series inside the irrigation line tube (5) such that one or more of the dripping holes (55) are positioned above all or some of the first pools (10) of the irrigation drip emitters (1), one or more of the dripping holes (15) are positioned above all or some of the second pools (50) of the irrigation drip emitters (1), or both, as illustrated in
In some embodiments, the area of cross-sections of the inner surfaces (300) of the irrigation drip emitters (1) may be designed to gradually increase as it goes from the first irrigation drip emitter (positioned at or near a first end of the irrigation line tube (5); e.g., the 1st drip emitter of
As described above, the elastic band (60) is provided with the irrigation drip emitters (1) according to the embodiments of the present invention. The elastic band (60) can surround a part or all of the inlet recess (30). The inlet recess (30), as illustrated in
In some embodiments illustrated in
As described above, the elastic band (60) is configured to move between a closed position (
The present invention has been illustrated by the above embodiments, but it should be understood that the above embodiments are only for purposes of illustration and description, and are not intended to limit the invention within the scope of the embodiments described. Also skilled in the art will be appreciated that the present invention is not limited to the embodiments described above, in accordance with the teachings of the present invention can also make variations and modifications more of these variations and modifications are within the present invention as claimed.
This application is a continuation application of application Ser. No. 15/491,527 filed on Apr. 19, 2017, which application is herein incorporated by reference in its entirety.
Number | Date | Country | |
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Parent | 15491527 | Apr 2017 | US |
Child | 16555204 | US |