WO2009086653A1

WO2009086653A1 - A rotor structure of a micro-atomizing nozzle

Info

Publication number: WO2009086653A1
Application number: PCT/CN2007/003890
Authority: WO
Inventors: Huisan Hsu
Original assignee: Huisan Hsu
Priority date: 2007-12-29
Filing date: 2007-12-29
Publication date: 2009-07-16

Abstract

An improved rotor of a micro-atomizing nozzle is housed in a body, and said rotor is facing a spray hole in the body at one end and is facing a water inlet in the body at the other end. The rotor is a cylindrical body, and a chamfer portion such as an annular inclined surface or a rounded surface is forming around the end facing said water inlet.

Description

Rotor structure of micro-mist nozzle

The utility model relates to a rotor structure improvement of a micro-mist nozzle. Background technique

Referring to FIG. 1, a general micro-mist nozzle structure is a body (10)-end portion coupled with a hole plug (12) having a water spray hole (11), and the other end of the body (10) A threaded portion (13) is formed for screwing to a piping system (not shown). In addition, a rotor (14) is movably received within the body (10). It is worth noting that the first end (15) of the rotor (14) is close to the water spray hole (11), and the second end (16) is away from the water spray hole (11) and its edge is in a right angle configuration (17) . When water flows into the micro-mist nozzle and passes through a gap between the rotor (14) and the body (10), the rotor (14) is rotated by water, and water is sprayed out of the water spray hole (11). The time is in the form of atomization.

However, since the edge of the second end (16) of the rotor (14) exhibits a right-angled configuration (17), the gap between the wall surface of the rotor (14) adjacent to the second end (16) and the inner surface of the body (10) is small, so the water flow is not It is easy to pass, and the water flow is unstable. As a result, the water flow is not smooth and the rotor (14) will not rotate smoothly, so the effect of water atomization will be affected. Summary of the invention

Since the rotor structure of the micro-mist nozzle disclosed in the prior art causes water flow to be unsmooth and the water atomization effect is not good, the object of the present invention is to provide an improved micro-fog nozzle rotor structure improvement, thereby solving the previous The shortcomings of technology.

The utility model is realized in that the rotor structure of the micro-mist nozzle is improved, the rotor is accommodated in a body and one end corresponds to an injection hole on the body, and the other end corresponds to the water inlet of the body, and is characterized in that The rotor is a columnar body, and a corner portion is formed around the end of one end corresponding to the water inlet.

The micro-mist nozzle structure of the present invention comprises a body having a water inlet and a water outlet; a passage is formed between the water inlet and the water outlet; a receiving hole is formed at the water outlet; and a rotor is movably received In the channel; and a plug having a water spray hole group disposed in the receiving hole; wherein the end of the rotor away from the water spray hole is formed with a lead portion, such as an annular inclined surface or a circular arc surface According to this, the water can flow more smoothly through the rotor, and the rotation smoothness of the rotor and the effect of water atomization can be improved.

The utility model has the effects of making the water flow more smooth and improving the water atomization effect. DRAWINGS

Figure 1 is a schematic view showing the structure of a conventional micro-mist nozzle.

Figure 2 is an exploded view of the micro-mist nozzle of the present invention.

Figure 3 is a schematic view showing the structure of the micro-fog nozzle of the present invention.

Figure 4 is a schematic view of the structure of the rotor of the present invention.

Figure 5 is a second schematic view of the structure of the rotor of the present invention.

Figure 6 is an exploded view of the rotor of another body of the present invention.

1

Confirmation Figure 7 is a schematic view showing the structure of another body of the present invention

The main component symbol description:

(10) Body (11) Water spray hole (12) Hole plug

(13) threaded part (14) rotor (15) first end

(16) Second end (17) Right angle structure (20) Body

(22) Inlet (24) Outlet (26) Channel

(28) Threaded part (29) accommodating hole (30) hole plug

(32) water spray hole (40) rotor (42) first end

(44) second end (46) lead (50) body

(52) Closed surface (54) Channel (56) Water spray hole

Referring to Figures 2 and 3, a micro-mist nozzle includes a body (20), a plug (30) and a rotor (40).

The body (20) has a water inlet (22) at its end and a water outlet (24) at the other end. A passage (26) is formed between the water inlet (22) and the water outlet (24). The outer wall surface of the water outlet (24) is formed with a threaded portion (28). Another receiving hole (29) is formed at the end of the water outlet (24), and the hole of the receiving hole (29) is larger than the diameter of the water outlet (24).

The rotor (40) is a long cylinder and is accommodated in the passage (26). The plug (30) is a water spray hole (32) having a penetrating structure in the axial direction and a tapered structure formed at one end. The plug (30) is disposed in the receiving hole (29) and the water spray hole (32) communicates with the channel (26).

It is worth noting that the rotor (40) is constructed of a columnar body. The rotor (40) has a first end (42) and a second end (44), wherein the first end (42) is adjacent to the water spray hole (32), and the second end is away from the water spray hole (32) and A lead portion (46) is formed on the periphery.

Referring to Figure 4, the lead portion (46) formed by the second end (44) of the rotor (40) is of an annular inclined surface configuration. Referring also to Fig. 5, the guide portion (46) formed by the second end (44) of the rotor (40) may also be of a circular arc surface configuration.

Referring again to FIG. 3, when water flows into the micro-mist nozzle and passes through the second end (44) of the rotor (40), since the periphery of the second end (44) has a slanted-conducting guide portion (46), Therefore, the rotor (40) has a large spacing between the side surface of the second end (44) and the inner wall surface of the body (20), so that the water flow can smoothly and stably pass, so that the rotation of the rotor (40) is smooth. It is stable and can thereby improve the atomization effect of the water mist sprayed from the water spray hole (32).

Referring to Figures 6 and 7, the rotor (40) disclosed in the present invention can be disposed in another body (50). The body (50) has a closed surface (52) at one end, and a passage (54) is formed in the axially inner portion of the body (52). A water spray hole (56) is a connecting passage (54) through the closed surface (52). The rotor (40) is disposed within the passage (54). When water flows into the passage (54) and passes through the end of the rotor (40), the guide portion (46) formed at the end of the rotor (40) contributes to the smooth flow of water. When the water flows through the water spray hole (56), it forms a mist.

Claims

Claim

1. The rotor structure of a micro-mist nozzle is improved, the rotor is accommodated in a body and one end corresponds to a nozzle hole on the body, and the other end corresponds to the water inlet of the body, wherein: the rotor is a column A guide portion is formed around the end of one end corresponding to the water inlet.

2. The rotor structure improvement of the micro-mist nozzle according to claim 1, wherein the guide portion is a circular arc surface structure.

3. The rotor structure improvement of the micro-mist nozzle according to claim 1, wherein the guide portion is an annular inclined surface structure.