CN219965237U - Rotary atomizing spray head assembly - Google Patents

Abstract

The utility model discloses a rotary atomizing nozzle assembly, which belongs to the field of atomizing nozzles and comprises a main body, an atomizing assembly, a liquid feeding part and a limiting ring, wherein the main body is provided with a liquid feeding part; an internal waterway is formed between the main body and the liquid feeding part in the vertical direction and internal passages in a plurality of directions are formed between the main body and the atomizing assembly in the horizontal direction; the atomizing assembly comprises an atomizing head and an atomizing column; the front end of the atomizing head is provided with a rotating piece; the atomizing head is arranged at the outer side of the main body through the limit ring, and an atomizing column is arranged between the main body and the atomizing head; the limit ring is positioned at the lower end of the atomizing column; when liquid flows through the rotating member in the passage, the flow direction of the liquid is changed into the flow direction from a straight line, the liquid is sprayed out from the center of the rotating member, the direct-current liquid can be changed into mist, the effect on plant roots is mild when the mist liquid is sprayed out, the plant roots cannot be damaged, and the anti-blocking function of the atomizing column side outflow structure is further achieved.

Description

Rotary atomizing spray head assembly

Technical Field

The present utility model relates to the field of atomizer heads, and more particularly to a rotary atomizer head assembly.

Background

The soilless culture technology is different from the traditional agricultural planting method in that nutrient solution required by plant growth is provided in a culture tank, and the plant root system is irrigated by using the growth solution to grow, so that a series of procedures of soil turning, weeding, fertilization and the like are not needed in the plant growth process, the soilless culture mode is greener, the input cost is lower, and safe, healthy, safe and high-nutrition agricultural products can be cultivated.

The culture mode of the water planting technology generally conveys prepared nutrient solution to a culture tank, vegetables are cultured in the culture tank, the growth conditions of the vegetables are different, the absorption of the nutrient solution is inconsistent, the problem of lack or surplus nutrient solution occurs, the accurate nutrient conveying of the vegetables cannot be realized, the problems of overlong growth period or root burning and the like of the vegetables are caused carelessly, the planting cost of the planting process is higher, the atomization planting technology is provided for the problems, and the purpose of fully utilizing the nutrient solution is achieved by utilizing the vaporific liquid to spray the plant root system.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model aims to provide a rotary atomizing spray head assembly, which can change direct-current liquid into mist, has mild effect on plant roots when the mist liquid is sprayed out, can not damage the plant roots, can realize more accurate control on plant nutrition when in use, has the effect of changing continuous liquid into mist liquid, changes a liquid outlet into side to flow out, and does not directly circulate with a tiny nozzle, and the design has the function of blocking resistance on the nozzle.

In order to solve the problems, the utility model adopts the following technical scheme.

A rotary atomizing spray head component comprises a main body, an atomizing component, a liquid feeding piece and a limit ring; an internal waterway is formed between the main body and the liquid feeding part in the vertical direction and internal passages in a plurality of directions are formed between the main body and the atomizing assembly in the horizontal direction; the atomizing assembly comprises an atomizing head and an atomizing column; the front end of the atomizing head is provided with a rotating piece; the atomizing head is arranged on the outer side of the main body through the limit ring, and the atomizing column is arranged between the main body and the atomizing head; the limit ring is positioned at the lower end of the atomizing column; when the liquid flows through the rotating member in the passage in the horizontal direction, the flow direction of the liquid is changed from a straight line to a rotating flow direction, and the liquid is ejected from the center of the rotating member.

Preferably, the main body comprises a liquid inlet pipe and a liquid delivery pipe; the liquid conveying pipes are of mutually symmetrical structures; the liquid inlet pipe is positioned at the center of the liquid feeding pipe and forms 1 vertical direction and a plurality of horizontal direction internal passages together with the liquid feeding pipe.

Preferably, the rear end of the atomizing head is provided with a clamping piece, the clamping piece is provided with an L-shaped flange, and the connecting surface of the L-shaped flange and the clamping piece is provided with a protruding structure; the protruding structure is in interference fit with limiting block concave parts symmetrically arranged on the limiting ring, and the lower end of the limiting block is in contact with the L-shaped flange; the liquid changes into a rotating state after flowing through the rotating piece and is sprayed out from a tiny nozzle at the front end of the rotating piece.

Preferably, the atomizing post is provided with a clamping ring and a liquid outlet, the clamping ring is positioned at the lower side of the liquid outlet, and the lower side of the clamping ring is in clamping contact with the front end of the liquid conveying pipe.

Preferably, the length of the liquid outlet is lower than the length of the inner side of the rotating piece, and the width of the clamping ring is shorter than the inner width of the rotating piece.

Preferably, a rubber ring pad is fixedly arranged between the atomizing column and the limit ring, the rubber ring pad is used for increasing the sealing degree of the atomizing assembly, and the atomizing column is positioned at the front end of the limit ring.

Preferably, the liquid feeding piece comprises a water storage tank and a liquid receiving column; the water storage tank and the liquid receiving column are annular at one end, the other end is of a columnar structure, central shafts of the two annular structures are consistent, the columnar structures extend reversely, and the liquid receiving column annular structure is positioned at the inner side of the water storage tank annular structure; the liquid receiving column columnar structure is arranged on the liquid inlet pipe, and the water storage tank-columnar structure is connected with the main pipe.

Preferably, the height of the liquid receiving column annular structure is lower than that of the water storage tank annular structure.

Compared with the prior art, the utility model has the advantages that:

in this scheme atomizing subassembly has to change continuous liquid into vaporific liquid function, can change direct current liquid into rotatory vaporific, and the effect to plant root system is mild when vaporific liquid spouts, can not harm plant root system.

The liquid outlet of this scheme atomizing post design changes to the side and flows, does not circulate with tiny spout directness, and such design plays the function of preventing blocking up to the spout.

The spiral structure that the upper wall staggers and sets up in this scheme rotating member can flow the liquid of straight line flow to tiny spout step by step, makes liquid have rotatory trend when spouting from tiny spout.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic diagram of the main structure of the present utility model;

FIG. 4 is a schematic view of an atomizer head according to the present utility model;

FIG. 5 is a schematic view of the inside structure of the atomizing head according to the present utility model;

FIG. 6 is a schematic view of an atomizer head mounting structure according to the present utility model;

FIG. 7 is a schematic view of the installation of a liquid feeding tube according to the present utility model;

FIG. 8 is a schematic view of a liquid feeding member according to the present utility model;

FIG. 9 is a schematic view of an atomizing column according to the present utility model;

fig. 10 is an assembly schematic diagram of a stopper according to the present utility model.

The reference numerals in the figures illustrate:

1 main body, 1-1 liquid inlet pipe, 1-2 liquid delivery pipe, 2 atomization component, 2-1 atomization head, 2-11 clamping piece, 2-12 rotating piece, 2-2 atomization column, 2-21 clasp, 2-22 liquid outlet, 3 liquid delivery piece, 3-1 water storage tank, 3-2 liquid receiving column, 4 rubber ring pad, 5 limit ring, 5-1 limit block, 6L type flange and 7 protruding structure.

Detailed Description

Example 1:

referring to fig. 1 to 10, a rotary atomizer assembly includes a main body 1, an atomizer assembly 2, a liquid feeding member 3, and a limit ring 5; the example is 4 internal passages, as shown in fig. 2-3, the main body 1 comprises a liquid inlet pipe 1-1 and a liquid delivery pipe 1-2; the liquid inlet pipe 1-1 is positioned at the center of the liquid feeding pipes 1-2 and forms 1 vertical direction and a plurality of horizontal direction internal passages together with the liquid feeding pipes 1-2.

As shown in fig. 2, the liquid feeding member 3 comprises a water storage tank 3-1 and a liquid receiving column 3-2; the water storage tank 3-1 and the liquid receiving column 3-2 are annular at one end, the other end is of a columnar structure, central shafts of the two annular structures are consistent, the columnar structure reversely extends, the liquid receiving column 3-2 is located on the inner side of the annular structure of the water storage tank 3-1, the height of the annular structure of the liquid receiving column 3-2 is lower than that of the annular structure of the water storage tank 3-1, the liquid storage amount of the annular structure of the water storage tank 3-1 is fixed, liquid flows from the annular structure of the liquid receiving column 3-2 to the columnar structure, the columnar structure of the liquid receiving column 3-2 is installed on the liquid inlet pipe 1-1, and the columnar structure of the water storage tank 3-1 is connected with a main pipe.

As shown in fig. 2, the atomizing assembly 2 includes an atomizing head 2-1, an atomizing column 2-2; as shown in FIG. 9, the atomizing column 2-2 is provided with a clamping ring 2-21 and a liquid outlet 2-22, and the clamping ring 2-21 is positioned at the lower side of the liquid outlet 2-22; as shown in fig. 4, the atomizing head 2-1 comprises a clamping piece 2-11 and a rotating piece 2-12, wherein the clamping piece 2-11 is positioned at the rear side of the rotating piece 2-12; as shown in fig. 2, an atomizing column 2-2 is arranged between a liquid feeding pipe 1-2 and an atomizing head 2-1, the lower side of a clamping ring 2-21 is in clamping contact with the front end of the liquid feeding pipe 1-2, a limit ring 5 is positioned between the clamping ring 2-21 and the liquid feeding pipe 1-2, a rubber ring pad 4 is fixedly arranged between the clamping ring 2-21 and the limit ring 5, and the rubber ring pad 4 is used for increasing the tightness of an atomizing assembly 2; the length of the liquid outlet 2-22 is lower than the length of the inner side of the rotating member 2-12, when the liquid flows to the atomizing column 2-2 to generate pressure, the outer wall of the liquid outlet 2-22 can relatively move with the inner wall of the rotating member 2-12, and the liquid is changed into mist through continuous contact between the liquid outlet 2-22 and the inner wall of the rotating member 2-12.

As shown in FIG. 5, the inner side of the clamping piece 2-11 is provided with a symmetrical L-shaped flange 6, as shown in FIG. 6, the connecting surface of the L-shaped flange 6 and the clamping piece 2-11 is provided with a convex structure 7, the convex structure 7 is in interference fit with the concave part of a limiting block 5-1 symmetrically arranged on the limiting ring 5, as shown in FIG. 10, the lower end of the limiting block 5-1 is in contact with the L-shaped flange 6;

as shown in FIG. 5, the upper wall of the rotating member 2-12 is in a spiral structure, and after the liquid flows through the spiral structure of the rotating member 2-12, the liquid changes from a direct current state to a rotating state and is sprayed out from a small nozzle at the front end of the rotating member 2-12, wherein the small nozzle is positioned at the center of the spiral structure.

Working principle: when in use, as shown in figure 2, the limit ring 5, the rubber ring pad 4 and the atomizing assembly 2 are sequentially arranged at the front ends of four mutually symmetrical liquid delivery pipes 1-2, the liquid delivery piece 3 is arranged at the upper end of the liquid delivery pipe 1-1, so that a liquid delivery channel which is mutually communicated is formed inside the liquid delivery pipe, then the upper end of the water storage tank 3-1 is connected with a main pipe, liquid flows to the annular structure from the upper end of the water storage tank, when the buffer and storage are carried out in the annular structure of the water storage tank 3-1, and a certain capacity is achieved, the liquid flows from the annular structure of the liquid receiving column 3-2 to the mutually communicated liquid delivery channel formed inside the liquid delivery pipe along the columnar structure, and flows to the atomizing column 2-2, and the liquid delivery channel can flow to the inner wall of the liquid delivery pipe 1-1 and the rotating piece 2-12, and the liquid delivery channel is repeatedly acted by the annular structure of the liquid delivery pipe 2-2, and the sealing ring 2-2 is stopped when the annular structure of the liquid delivery pipe is stopped from the atomizing column 2-2 flows to the inner wall 2-2 and the rotating piece 2-2, and the sealing ring 2-2 is stopped by the pressure of the annular structure is stopped, the sealing ring is not acted by the two ends of the annular structure, and the sealing ring 2-12 is stopped when the annular structure is stopped by the rotating ring is acted by the rotating ring 2-12 and the rotating piece 2-12 and the rotating device is stopped, the liquid sprayed from the tiny nozzles after the spiral structure has rotational inertia, and the outer wall of the liquid outlet 2-22 and the inner wall of the rotating piece 2-12 can repeatedly perform relative movement, so that the continuous liquid is cut off to form tiny water drops, and sprayed from the tiny nozzles in a water mist shape under the action of liquid pressure, and the sprayed rotational mist liquid acts on nearby plant roots to enable the plant roots to absorb nutrition.

Claims (8)

1. A rotary atomizer assembly, characterized in that: comprises a main body (1), an atomization assembly (2), a liquid feeding piece (3) and a limit ring (5);

an internal waterway is formed between the main body (1) and the liquid feeding piece (3) in the vertical direction, and internal passages in multiple directions are formed between the main body and the atomizing assemblies (2) in the horizontal direction;

the atomizing assembly (2) comprises an atomizing head (2-1) and an atomizing column (2-2); the front end of the atomizing head (2-1) is provided with a rotating piece (2-12); the atomizing head (2-1) is arranged outside the main body (1) through the limit ring (5), and the atomizing column (2-2) is arranged between the main body (1) and the atomizing head (2-1); the limit ring (5) is positioned at the lower end of the atomizing column (2-2); when the liquid flows through the rotating parts (2-12) in the passage way in the horizontal direction, the flow direction of the liquid is changed from a straight line to a rotating flow direction, and the liquid is sprayed out from the center of the rotating parts (2-12).

2. A rotary atomizer assembly according to claim 1, wherein: the main body (1) comprises a liquid inlet pipe (1-1) and a liquid delivery pipe (1-2); the liquid conveying pipes (1-2) are of mutually symmetrical structures; the liquid inlet pipe (1-1) is positioned at the center of the liquid conveying pipe (1-2), and forms 1 vertical direction and a plurality of horizontal direction internal passages together with the liquid conveying pipe (1-2).

3. A rotary atomizer assembly according to claim 1, wherein: the rear end of the atomizing head (2-1) is provided with a clamping piece (2-11), the clamping piece (2-11) is provided with an L-shaped flange (6), and the connecting surface of the L-shaped flange (6) and the clamping piece (2-11) is provided with a protruding structure (7); the protruding structure (7) is in interference fit with the concave parts of the limiting blocks (5-1) symmetrically arranged on the limiting rings (5), and the lower ends of the limiting blocks (5-1) are in contact with the L-shaped flanges (6); the liquid flows through the rotating piece (2-12) and then changes into a rotating state, and is sprayed out from a tiny nozzle at the front end of the rotating piece (2-12).

4. A rotary atomizer assembly according to claim 1, wherein: the atomizing column (2-2) is provided with a clamping ring (2-21) and a liquid outlet (2-22), the clamping ring (2-21) is positioned at the lower side of the liquid outlet (2-22), and the lower side of the clamping ring (2-21) is in clamping contact with the front end of the liquid feeding pipe (1-2).

5. A rotary atomizer assembly according to claim 4, wherein: the length of the liquid outlet (2-22) is lower than the length of the inner side of the rotating piece (2-12), and the width of the clamping ring (2-21) is shorter than the inner width of the rotating piece (2-12).

6. A rotary atomizer assembly according to claim 1, wherein: a rubber ring pad (4) is fixedly arranged between the atomizing column (2-2) and the limit ring (5), the rubber ring pad (4) is used for increasing the sealing degree of the atomizing assembly (2), and the atomizing column (2-2) is positioned at the front end of the limit ring (5).

7. A rotary atomizer assembly according to claim 2, wherein: the liquid feeding piece (3) comprises a water storage tank (3-1) and a liquid receiving column (3-2); the water storage tank (3-1) and the liquid receiving column (3-2) are annular at one end and have columnar structures at the other end, the central axes of the two annular structures are consistent, the columnar structures extend reversely, and the annular structures of the liquid receiving column (3-2) are positioned at the inner side of the annular structures of the water storage tank (3-1); the liquid receiving column (3-2) is arranged on the liquid inlet pipe (1-1), and the water storage tank (3-1) is connected with the main pipe through the columnar structure.

8. A rotary atomizer assembly according to claim 7, wherein: the height of the annular structure of the liquid receiving column (3-2) is lower than that of the annular structure of the water storage tank (3-1).