AU2020201065B1 - Structure of Rotor Nozzle and Watering Device - Google Patents

Abstract

A structure of rotor nozzle is equipped with a spray unit of a watering device, the spray unit is composed of a mounting member and a housing for defining a chamber, a rotor deployed inside the chamber; wherein, at least one stopper set on the inner side of 5 the chamber near the water outlet side is correspondingly matched to multiple guide members on one end of the water outlet of the rotor, and it can be employable to the handy watering device. 8

Description

P/00/011 Regulation 3.2 AUSTRALIA

Patents Act 1990

COMPLETE SPECIFICATION FORASTANDARDPATENT ORIGINAL TO BE COMPLETED BY APPLICANT

Invention Title: Structure of Rotor Nozzle and Watering Device

Name of Applicant: Yuan Mei Corp.

Address for Service: A.P.T. Patent and Trade Mark Attorneys PO Box 833, Blackwood, SA 5051

The following statement is a full description of this invention, including the best method of performing it known to me/us:

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STRUCTURE OF ROTOR NOZZLE AND WATERING DEVICE BACKGROUND

Technical Field

The present disclosure relates to a nozzle structure of watering device; to be more

concrete, which is a rotor nozzle structure with the advantages of easy assembly and

steady operation.

Related Art

The conventional structure of rotor nozzle as claimed in patent US9931652

disclosed a housing 2 having a conical chamber 3 as an accommodation for a rotor 12 in

column shape, the rotor 12 having one end deployed with water outlet hole 14

connecting to the outlet opening 6 of a spray gun, and the intermediate element 25

having a spherical surface against inner wall of the conical chamber 3 for the rotor 12 in

an eccentric arrangement to the longitudinal axis of the conical chamber 3. In this way,

when the fluid flows into the chamber 3, it rotates the rotor 12 with tilt current then

turning into a swirling steam of 360 degrees running out of the outlet opening 6.

Besides, the rotor 12 of this kind of rotor nozzle would also rotate in the chamber 3,

thus output fluids would disperse.

SUMMARY

The present disclosure aims to provide a rotor nozzle adopting a longitudinal

chamber to apply on a handy spray gun and preventing the rotor from rotating, so as to

let output fluids concentrate.

Based on above-mentioned goals, the present disclosure provides a structure of

rotor nozzle installed inside the spray unit of a watering device, the spray unit is

composed of a mounting member and a housing for mutually defining a chamber having

one water inlet and one water outlet, and the chamber deployed with a rotor for its end

of water outlet connecting to the water outlet side. Wherein, at least one stopper set on

the inner side of the chamber near the water outlet side is correspondingly matched to

multiple guide members on the end of water outlet of the rotor.

Thanks to the deployment of a stopper, it secures the rotor in a tilt arrangement

and dismisses the conventional conical chamber to be applied to existing spray nozzles.

Furthermore, the rotor has a spherical one end connecting to the water outlet of

the watering device. Therefore, the water outlet side of the rotor forms at least two

annular positioning areas. The present disclosure further provides a watering device for

accommodating aforementioned structure of rotor nozzle.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 illustrates a perspective external view in the embodiment of the instant

disclosure;

Fig. 2 illustrates a cross-section view in the embodiment of the instant disclosure;

Fig. 3 illustrates an explosive view in the embodiment of the instant disclosure;

Fig. 4 illustrates a cross-section explosive view of Fig. 3 in the embodiment of

the instant disclosure;

Fig. 5 illustrates another explosive view in the embodiment of the instant

disclosure.

DETAILED DESCRIPTION

Hereinafter to deliberate more specifically the embodiment of the present

disclosure, the narration sets forth from which the water outlet of the adjustable watering device for a better understanding by the technicians skillful in the arts.

Fig. I to Fig. 4 illustrate a spray unit 100 of a watering device, the spray unit 100

is rotatably installed on the base 200 of the watering device and mainly assembled by an

adjusting member 10 and a mounting member 11 correspondingly. Multiple spray heads

are set between the adjusting member 10 and the mounting member 11, the spray heads

respectively have a water outlet and a water inlet between the adjusting member 10 and

the mounting member 11, the mounting member 11 is connected to the water inlet side

101 of the base 200 of the watering device, and the water inlet side 101 is connected to

a water supply. Thus, due to the relative rotation between the spray unit 100 and the

base 200 of the watering device, one of the spray heads can be connected to the water

inlet side 101 of the base 200, so that water from the water supply flows through the

water inlet side 101 and inside of the rotor nozzle, and ejects out from the water outlet

side 102.

One of the spray heads has structure of rotor nozzle, the structure of rotor nozzle

consists of a housing 15, a rotor 20, a flow director 40. Wherein, the housing 15 is

roughly a tubular in shape having its front end engaged to the inner wall of the adjusting

member 10, so that the water outlet side 102 of the housing 15 located on the adjusting

member 10, and the housing 15 has its rear end connected to the mounting member 11

for mutually defining a chamber 17 with a longitudinal interior.

The flow director 40 has an annular base 41 located on the rear opening of the

housing 15 and the block 12 on the side wall of the mounting member 11, so that the

flow director 40 and the bottom of the mounting member 11 are arranged in a partition

formation. Besides, the flow director 40 has a center base 45 spaced from the annular

base 41, a position rod 47 protruding from the center base 45 forwards to the direction

of the water outlet 102, and multiple guide vanes 43 connecting to the inner side wall of

the annular base 41 and the outer side wall of the center base 45, the guide vanes 43 are extending along the radial direction of the center base 45 and tangent to the center base

45 respectively at a predetermined angle, a swirl opening 46 is defined between the

adjacent guide vanes 43. In other words, the swirl opening 46 is arc-shaped and

penetrates the two opposite sides of the annular flow director 40.

The rotor 20 is installed inside the chamber 17 and forms a hollow column

having two ends as a water inlet 21 and a water outlet 22. Wherein, the rotor 20 has an

inner wall fixed with multiple current blades 26 extending to the water inlet 21 in a

crossover formation. The rotor 20 has a spherical end 27 disposed of a water outlet 22

connecting to the water outlet side 102 of the adjusting member 10, and the spherical

end 27 and the water outlet side 102 form a complementary mechanism. Besides, the

rotor 20 has its water inlet 21 confined between the inner wall of the chamber 17 and

the annular track of the position rod 47 of the flow director 40 for the rotor 20 in an

eccentric arrangement, leaning backward and outward, to the water outlet.

The present disclosure provides an embodiment, wherein the chamber 17 near

the water outlet side 102 is a longitudinal interior with multiple stoppers 18 protruding

on the inner wall in annular form, and a slot 19 is formed between the stoppers 18,

multiple stop rods are protruded radially on the spherical end 27 of the rotor 20 as guide

members 28 and located on the slot 19. Besides, each stopper 18 has a bevel on its

surface for guiding the surface of the rotor 20 in tilt arrangement, the water outlet side

(the spherical end 27, guide members 28) of the rotor 20 forms at least two annular

position areas, the rotor 20 rotates steadily and prevents the rotor 20 from rotating, in

order to generate a centralized linear current spraying out from the water outlet 22 of the

rotor 20 instead of the conical spurt produced by rotation of the conventional rotor.

It is worth mentioning that the position rod 47 of the flow director 40 is in a line

with the water inlet side 101 and the water outlet side 102. A rod body 25 is extending

from one end of the water inlet 21 of the rotor 20 along the rear end of the current blade

26 for locating on the outer wall of the position rod 47 to thereby steady the rotation

track of the rotor 20.When water of the water supply flows to the swirl opening 46 of

the flow director 40 from the water inlet side 101, tilt current generated in the chamber

17 drives the rotor 20 to rotate, fluids flows through the water inlet 21 of the rotor 20 to

the water outlet side 102 of the spray unit 100 and swirling steam outputs by the

rotation of the rotor 20.

Please refer to Fig. 5, it illustrates a spray unit of another watering device. In this

embodiment, a bevel is set on the chamber near the water inlet side 101 for guiding the

surface in rear of the rotor 20. The chamber near the water outlet side 102 has a

longitudinal interior, and three stoppers 18 protruding on its inner wall are arranged

equiangular. Multiple slots are arranged radially in an annular form on the water outlet

of the rotor 20, the slots are provided as guide members for placing the stoppers 18, in

this way, the rotor 20 rotates steadily with its tilt arrangement and prevents the rotor 20

from self rotating.

The present disclosure provides an embodiment, wherein the number of the

guide members 28 is integer multiple of the number of the stoppers 18, to maintain

rotational balance. However, the number of the stoppers 18 also can be only one, to

locate the rotor 20.

Claims (11)

What is claimed is:

1. A structure of rotor nozzle is deployed on a spray unit of watering device,

the spray unit comprising a mounting member and a housing for mutually confining a

chamber with one water inlet side and one water outlet side, a rotor installed inside the

chamber having one end as water outlet in connection with the water outlet side,

characterized in that: at least one slot set on inner wall of the chamber near the water

outlet side is correspondingly matched to at least one guide member on the end of water

outlet of the rotor in a radial direction;

wherein, the complementary mechanism of the slot on the chamber and guide

member on the rotor leads the rotor rotating in a tilt arrangement but not rotating along

an axis of the rotor.

2. The structure of rotor nozzle as in claim 1, wherein the housing and the

mounting member make relative rotating connection, the housing and the mounting

member respectively deployed with a flow director, and the flow director equipped with

at least one guide vane.

3. The structure of rotor nozzle as in claim 2, wherein the flow director has one

annular base located on the mounting member, one center base and the annular base

arranged in partition formation, and the at least one guide vane connects to the inner

wall of the annular base and the outer wall of the center base.

4. The structure of rotor nozzle as in claim 2, wherein a rod body is extendedly

set on one end of the rotor near the water inlet for locating on the outer wall of a

position rod extended from the flow director.

5. The structure of rotor nozzle as in claim 1, wherein the rotor forms a hollow

column having one inner wall equipped with at least one current blade.

6. The structure of rotor nozzle as in claim 2, wherein the flow director and the

bottom of the mounting member are arranged in a partition formation.

7. The structure of rotor nozzle as in claim 1, wherein one end of the water

outlet of the rotor is a spherical end forming a complementary mechanism to the water

outlet side.

8. The structure of rotor nozzle as in claim 1, wherein the at least one guide

member of the rotor is protruded radially to form a slot, and the slot on the rotor is

correspondingly matched to at least one stopper on the chamber.

9. The structure of rotor nozzle as in claim 1, wherein the at least one slot of

the chamber is correspondingly matched to the guide member protruded radially on the

rotor.

10. The structure of rotor nozzle as in claim 9, wherein the at least one stopper

has a bevel.

11. A watering device has one spray unit composed of one mounting

member and one housing, and the mounting member and the housing mutually defining

one chamber, characterized in that: the chamber equipped with a rotor having one end

of the water outlet in connection with the water outlet side of the spray unit, at least one

slot set on the inner side of the chamber near the water outlet side is correspondingly

matched to at least one guide member on the end of the water outlet of the rotor in a

radial direction;

wherein, the complementary mechanism of the slot on the chamber and guide

member on the rotor leads the rotor rotating in a tilt arrangement but not rotating along

an axis of the rotor.