Nozzle of a spray gun and method for spraying from spray gun

Abstract

A nozzle of a spray gun includes an outer part connected to the spray gun. The outer part includes a neck portion formed therein. A neck hole is formed through the neck portion. Multiple paths are defined through the neck portion. The neck portion divides the inner space of the outer part into a first room and a second room. A tube extends through the neck hole and the tube. A swing member is located in the first room and connected to the rear end of the tube. An inner part is located in the second room and connected to the front end of the tube. High pressure fluid is introduced into the first room to swing the swing member. The tube and the inner part swing with the swing member. The high pressure fluid enters into the second room via the paths and spray out from the outer part.

Claims

1. A nozzle of a spray gun, comprising: an outer part connected to a front outlet of the spray gun and including a neck portion formed therein, a neck hole formed through the neck portion, multiple paths defined through the neck portion of the outer part and located around the neck hole, the neck portion dividing an inner space of the outer part into a first room and a second room; a tube extending through the neck hole of the outer part, a front end of the tube located in the second room, a rear end of the tube located in the first room; a swing member located in the first room of the outer part and connected to the rear end of the tube, and an inner part located in the second room and connected to the front end of the tube, wherein when pressurized fluid is introduced into the first room, the swing member swings responsive to a force of the pressurized fluid, and the tube and the inner part swing with the swing member, the pressurized fluid enters into the second room via the multiple paths and sprays out from the outer part.

2. The nozzle of a spray gun as claimed in claim 1, wherein the swing member includes multiple wings extending from an outer surface thereof, the swing member includes a cone-shaped way defined therethrough, a Venturi-tube extends through the front outlet of the spray gun, the cone-shaped way and the tube, the swing member includes a ball head on a front end thereof, and the neck portion includes a ball-shaped recess in which the ball head of the swing member is rotatably engaged.

3. The nozzle of a spray gun as claimed in claim 2, further comprising a head part fluidly connected to the front outlet and extending therefrom, the head part extending into the outer part, the head part includes a recessed area defined in a front end thereof, a tubular portion extends from a center of the recessed area, multiple bores are formed in the front end of the head part and located around the tubular portion so as to introduce the pressurized fluid into the first room via the bores, the tubular portion is inserted into the cone-shaped way of the swing member.

4. The nozzle of a spray gun as claimed in claim 3, wherein the bores each extend at an angle offset from an axis of the head part.

5. The nozzle of a spray gun as claimed in claim 3, wherein a first force is formed by the pressurized fluid entered into the first room via the bores, the first force drives the wings of the swing member so that the swing member swings between two points, a second force is formed by the pressurized fluid entered into the second room via the paths of the outer part, the second force sucks atomized liquid from an open end of the Venturi-tube.

6. The nozzle of a spray gun as claimed in claim 5, wherein the tube is made of metal, the open end of the Venturi-tube protrudes beyond the front end of the tube for 1 to 2 mm.

7. The nozzle of a spray gun as claimed in claim 1, wherein the outer part includes a first nozzle which is a cone-shaped nozzle.

8. The nozzle of a spray gun as claimed in claim 1, wherein the inner part includes a second nozzle which is a cone-shaped nozzle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view to show the spray gun of the present invention;

(2) FIG. 2 is a cross sectional view to show the spray gun of the present invention;

(3) FIG. 3 is an exploded view of the nozzle of the spray gun of the present invention;

(4) FIG. 4 is an enlarged cross sectional view to show the nozzle of the spray gun of the present invention;

(5) FIGS. 5 (a) to (c) show the spraying action of the spray gun of the present invention;

(6) FIG. 6 is a front view to show the inner part move in the outer part of the spray gun of the present invention;

(7) FIGS. 7 (a) and (b) show different spray patterns of the spray gun of the present invention;

(8) FIGS. 8 (c) and (d) show different spray patterns of the spray gun of the present invention;

(9) FIG. 9 shows the steps of the method of the present invention, and

(10) FIG. 10 shows a conventional nozzle of a spray gun.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(11) Referring to FIGS. 1 to 3, the nozzle “B” of a spray gun “A” of the present invention is connected to the front outlet 11 of the spray gun “A”, and comprises a head part 2, a swing part 3, an outer part 4 and/or an inner prat 5.

(12) As shown in FIGS. 3 and 4, the head part 2 is formed to the front outlet 11 of the spray gun “A” and includes”. The head part 2 is located between the front outlet 11 and the outer part 4. The head part 2 includes a recessed area 210 defined in the front end thereof. A tubular portion 21 extends from the center of the recessed area 210, and multiple bores 22 are formed in the front end of the head part 2 and located around the tubular portion 21. The bores 22 each extends 45 degrees relative to the axis of the head part 2.

(13) The swing member 3 includes multiple wings 33 extending from the outer surface thereof. The swing member 3 includes a cone-shaped way 31 defined therethrough. A Venturi-tube 12 extends through the front outlet 11 of the spray gun “A” and the cone-shaped way 31. The swing member 3 includes a ball head 32 on the front end thereof. The ball head 32 is connected to the rear end of the tube 34 which is made of metal.

(14) The outer part 4 is connected to the front outlet 11 and includes a neck portion formed therein. A neck hole 41 is formed through the neck portion. Multiple paths 411 are defined through the neck portion of the outer part 4 and located around the neck hole 41. The neck portion divides the inner space of the outer part 4 into a first room 43 and a second room 45. The swing member 3 is located in the first room 43 and connected to the rear end of the tube 34 which extends through the neck hole 41 of the outer part 4. The front end of the tube 34 is located in the second room 45, and the rear end of the tube 34 located in the first room 43. The neck portion includes a ball-shaped recess 42 in which the ball head 32 of the swing member 3 is rotatably engaged. The outer part 4 includes a first nozzle 44 which is a cone-shaped nozzle.

(15) The inner part 5 is located in the second room 45 and connected to the front end of the tube 34. Preferably, the front end of the tube 34 protrudes beyond the through hole 50 of the inner part 5. The open end 121 of the Venturi-tube 12 protrudes beyond the front end of the tube 34 for 1 to 2 mm to have better atomization feature. As shown in FIGS. 7 (a), (b) and FIGS. 8 (c), (d), the inner part 5 includes a second nozzle 51 which is a cone-shaped nozzle, a first cone-shaped part 52, a second cone-shaped part 53 or a third cone-shaped part 54. The users can choose one of the second nozzle 51 and the parts 52, 53, 54 to use.

(16) As shown in FIGS. 4 to 6, by engaging the ball head 32 of the swing member 3 with the ball-shaped recess 42 of the outer part 4, and by inserting the tubular portion 21 of the head part 2 in the cone-shaped way 31 of the swing member 3. When high pressure fluid is introduced into the first room 43 via the bores 22, the swing member 3 swings by the high pressure fluid, and the tube 34 and the inner part 5 swing with the swing member 3 as shown in in FIGS. 5(a), 5(b) and 5(c). The high pressure fluid enters into the second room 45 via the multiple paths 411 and spray out from the open end 121 of the Ventrui-tube 12 and the outer part 4.

(17) Specifically, a first force P1 is formed by the high pressure liquid entered into the first room 43 via the bores 22, and the first force P1 drives the wings 33 of the swing member 3 so that the swing member 3 swings between two points “X”, “Y”. A second force P2 is formed by the high pressure liquid entered into the second room 45 via the paths 411 of the outer part 4, the second force P2 sucks atomized liquid from an open end 121 of the Venturi-tube 12. The users may choose the second nozzle 51, the first cone-shaped part 52, the second cone-shaped part 53 or the third cone-shaped part 54 to have different spraying patterns.

(18) The method of spraying from the nozzle “B” of the spray gun “A” comprises the following steps:

(19) a step “a” of forming rooms: providing an outer part 4 connected to the spray gun “A”, the outer part 4 having a first nozzle 44 which is a cone-shaped nozzle, the outer part 4 having a neck portion which includes a neck hole 41 and multiple paths 411 which are located around the neck hole 41, the neck portion dividing an inner space of the outer part 4 into a first room 43 and a second room 45;

(20) a step “b” of installing a swing member 3: extending a tube 34 through the neck hole 41, a swing member 3 connected to a rear end of the tube 34, an inner part 5 connected to a front end of the tube 34, the swing member 3 including multiple wings 33 extending from an outer surface thereof, the swing member 3 including a cone-shaped way 31 defined therethrough, a Venturi-tube 12 extending through a front outlet 11 of the spray gun “A”, the cone-shaped way 31 and the tube 34, and

(21) a step “c” of introducing high pressure liquid: providing a head part 2 formed to a front end of a barrel 1 of the spray gun “A”, the head part 2 including multiple bores 22 which communicate with the front outlet 11 so as to introduce high pressure liquid into the first room 43 via the bores 22.

(22) The high pressure liquid introduced in the first room 43 drives the swing member 3 to swing, and the tube 34 and the inner part 5 also swing with the swing member 3. Besides, high pressure liquid into the second room 45 via the paths 411, and the high pressure liquid introduced in the second room 45 via the paths 411 sprays from the open end 121 of the Ventrui-tube 12 and the first nozzle 44.

(23) As shown in FIGS. 7 and 8, the inner part 5 includes a second nozzle 51 which is a cone-shaped nozzle, a first cone-shaped part 52, a second cone-shaped part 53 or a third cone-shaped part 54. As shown in FIG. 7(a), the second nozzle 51 is connected to the front end of the tube 34 to divergently spray the liquid. As shown in FIG. 7(b), the first cone-shaped part 52 is a solid part 521 and includes a first passage 522, and the front end of the tube 34 is connected to the rear end of the first passage 522 so as to provide longer spray distance and small area spray features in liquid beams or atomized form. As shown in FIG. 8(c), the second cone-shaped part 53 is a solid part 531 and includes a second passage 532. The front end of the tube 34 is connected to the rear end of the second passage 532 so as to provide a large area spray feature in liquid beams or atomized form. As shown in FIG. 8(d), the third cone-shaped part 54 is a solid part 541 and includes a cone-shaped passage 542. The front end of the tube 34 is connected to the rear end of the cone-shaped passage 542 so as to provide a small area spray feature in turbulence form, liquid beams or atomized form.

(24) It is noted that the tube 34 directly extends through the first passage 522 of the first cone-shaped part 52. The open end 121 of the Ventrui-tube 12 extends through the cone-shaped way 31 and protrudes beyond the front end of the tube 34 about 1 mm to 2 mm. The tube 34 may extend the second passage 532 of the second cone-shaped part 53 in a curved pattern. The open end 121 of the Ventrui-tube 12 extends through the cone-shaped way 31 and protrudes beyond the front end of the tube 34 about 1 mm to 2 mm so as to have better atomization feature to the liquid sprayed from the nozzle “B”.

(25) While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.