KR20130123802A - Water jet blower assembly - Google Patents

Abstract

The present invention relates to a water jet blower assembly which includes: a stainless net (10) which includes an open top part, a bottom part which includes a bottom plate (16), and a circumference with a plurality of fluid inlets (14); a water jet head (50) which includes a bottom part which is combined with the top part of the stainless net (10), a side part which includes first and second inlets (31,41) in which external fluid flows, a first spray unit (32) which is extended from the first and second inlets (31,41) and induces the fluid from the first inlet (31) to be sprayed on the top part, and a second spray unit (42) which induces the fluid from the second inlet (41) to be sprayed on the top part; and the open top part which includes a step (22) on the top side of the side part and a pressing tube (23) which is upwardly extended; a three-directional valve part (60) which restricts the fluid to be supplied to one of the first and second inlets (31,41); and a water jet spray nozzle (70) which includes an insertion tube (71) which includes a hanging protrusion (72) which is inserted into the pressing tube (23) and is hung on the step (22) and an acceleration nozzle (74) which is extended from the insertion tube (71).

Description

Water Jet Blower Assembly < RTI ID = 0.0 >

[0001] The present invention relates to a water-jet blow assembly, and more particularly, to a water-jet blow assembly capable of being easily combined with each other, and capable of selectively injecting water in either direction.

The waterjet system includes those that are configured to cut and clean an object by compressing and extrushing the natural phenomenon of water at ultra-high pressure (up to 4,000 kg / cm 2, 4,000 bar, about 60,000 PSI) Which uses a nozzle to eject at a speed higher than the speed of sound and to utilize the force concentrated on a narrow area.

Particularly, waterjet cutting is applied to various fields such as engineering, stone and tile, automobile and interior materials, aerospace, food, glass, building materials and so on without regard to metal and nonmetal. Its strength and application methods are indispensable.

The characteristics of the waterjet are new technology of the method which is completely different from the conventional cutting method. Since it is a high-energy and high-pressure processing, there is no deformation and residual stress, microcracking and chemical deformation to the base material, It is suitable for cutting weak materials (eg, heat-cured material or high hardness material, non-ferrous material, glass, resin, stone, etc.) and excellent quality can be obtained. In addition, it is free from the influence of the shape, it is possible to design freely, it is suitable for cutting of complex products, and the roughness and quality of the cut surface are excellent, and the post-processing time is remarkably shortened.

It is suitable for cutting explosive, oxidative and volatile products because it is cutting with water. It is environmentally friendly and does not generate dust or harmful gas while working. It complements the disadvantages of conventional equipment and ensures user's safety. .

On the other hand, these waterjets can be used in various fields (such as agriculture) in addition to cutting.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water-jet blow assembly which can be easily assembled in various configurations and which can be selectively injected in either direction, and which can be applied to various fields.

It is an object of the present invention to provide a stanchion 10 having an open top, a bottom with a bottom plate 16, and a circumference with a plurality of fluid access holes 14 formed therein;

A lower portion coupled with the upper portion of the stand network 10, a first and a second inflow portions 31 and 41 formed so as to allow an external fluid to flow into the first and second inflow portions 31 and 41, A first injection part 32 for extending the fluid introduced from the first inflow part 31 to the upper part and a second injection part 32 for guiding the fluid introduced from the second inflow part 41 to be sprayed downward, A water jet head (50) of a structure including a side having an upper portion (42) and an upper portion having a compression tube (23) extending upward while having a step (22) on an upper side of the side portion;

A three-way valve part (60) connected to the first and second inflow parts (31, 41) and for controlling the fluid to be supplied to any one of the first and second inflow parts (31, 41);

And an injection nozzle 71 which is inserted into the compression tube 23 and has an engagement protrusion 72 which is engaged with the step 22 and an acceleration nozzle 74 extending from the insertion tube 71, A nozzle 70;

Directional split water jet blow assembly.

According to the present invention, the water jet head and the water jet nozzle can be easily combined.

In addition, it is possible to selectively inject in either one of two directions, so that it can be utilized in various fields. For example, the bi-directional split water jet blow assembly according to the present invention may be formed to have a large size so that the stand mesh 10 is placed in contact with the inner bottom of the pesticide barrel, When the valve is adjusted, the fluid is moved to the inside of the pesticide pail through the fluid inlet / outlet hole 14 by hitting the bottom plate 16 of the stand net 10. This is because the fluid is not moved directly into the pesticide pail, Since the impact is firstly absorbed by the bottom plate 16, there is an effect that the water jet blow assembly can be shaken less and the inside of the pesticide can be agitated evenly without sagging.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a bi-directional split-flow water jet blow assembly according to the present invention,
FIG. 2 is a partially cutaway view of FIG. 1,
Figure 3 is a view of the water jet blow assembly of Figure 1 in another angle,
Figs. 4 to 8 are views showing in detail the individual components of Fig. 1,
Figures 9 and 10 show the operation of the water jet blow assembly of Figure 1;

The bidirectional split water jet blow assembly according to the present invention comprises:

A stanchion net 10 having a structure including an open top, a bottom with a bottom plate 16, and a circumference with a plurality of fluid access holes 14 formed therein;

A lower portion coupled with the upper portion of the stand network 10, a first and a second inflow portions 31 and 41 formed so as to allow an external fluid to flow into the first and second inflow portions 31 and 41, A first injection part 32 for extending the fluid introduced from the first inflow part 31 to the upper part and a second injection part 32 for guiding the fluid introduced from the second inflow part 41 to be sprayed downward, A water jet head 50 having a structure including a side portion 20 having a side wall portion 42 and an open top portion having an upper portion of a compression tube 23 having a step 22 on the upper side of the side portion 20, );

A three-way valve part (60) connected to the first and second inflow parts (31, 41) and for controlling the fluid to be supplied to any one of the first and second inflow parts (31, 41);

And an injection nozzle 71 which is inserted into the compression tube 23 and has an engagement protrusion 72 which is engaged with the step 22 and an acceleration nozzle 74 extending from the insertion tube 71, And a nozzle 70,

A flange 12 having a through hole 11 is formed at one side and a plurality of fluid access holes 14 are formed at a periphery to allow fluid to flow in and out. and;

A plurality of coupling grooves 21 formed on the lower side to be coupled to the through-hole 11 of the stan network 10, and extending from the lower side formed with the coupling groove 21 is formed so that the area is gradually reduced and ends A side portion 20 having a stepped portion 22 and a crimping tube 23, two first and second inlets 31 and 41 for inflow of fluid into the surface of the side portion 20, and the first The first injector 32 extends inwardly from the first inlet 31, and the second injector 32 extends inwardly from the second inlet 41 and extends in a direction opposite to the first injector 32. A water jet head 50 including a nozzle 42 for accelerating the injection speed of the fluid flowing from the injection unit 42 and the first inlet unit 31;

A three-way valve part (60) connected to the first and second inflow parts (31, 41) for interrupting fluid to supply fluid to any one of the first and second inflow parts (31, 41);

Insertion tube 71 pressed against the inner circumferential surface of the crimping tube 23 of the waterjet head 50, and the engaging with elastic force to be mounted on the periphery of the insertion tube 71 at an equal interval to be caught on the step 22 The jaw 72 and the area formed to gradually decrease from one side of the insertion tube 71 to accelerate the injection speed of the fluid and the fluid introduced from the fluid entry hole 14 of the stan network 10 and the first Water jet injection nozzle comprising an agglomeration portion 73 for mixing the fluid introduced from the inlet portion 32, and an acceleration nozzle 74 to increase the moving speed of the fluid is extended from one side of the agglomeration portion 73 is injected 70; characterized in that comprises a.

Hereinafter, the bidirectional split water jet blow assembly (hereinafter referred to as "water jet 1") and the bidirectionally split water jet blow assembly (hereinafter referred to as "water jet 2" Since the configuration of the waterjet 2 includes all of the configurations of the waterjet 1, only the configuration of the waterjet 2 will be described in detail to avoid redundant description.

1 to 8, the water jet 2 includes a stand network 10, a water jet head 50, a three-way valve unit 60, and a water jet nozzle 70.

The stand net 10 has a structure including an opened upper portion, a lower portion provided with the bottom plate 16 and a periphery where a plurality of fluid access holes 14 are formed, and a flange And the bottom plate 16 is attached to the lower portion of the stand net 10 by welding or the like.

The bottom plate 16 is attached to the lower portion of the stand net 10 and is attached above the lower end of the stand net 10 because the fluid jetted through the second jetting section 42 of the water jet head 50 This is because it can absorb some of the impact of

The water jet head 50 includes a lower portion coupled to the upper portion of the stand 10 and a first inlet portion 31 and a second inlet portion 31 formed to allow an external fluid to flow therein, 41 so that the fluid introduced from the first inlet portion 31 is injected upward and the fluid injected from the second inlet portion 41 is injected to the lower portion. And an open top having a compression tube (23) extending upwardly with a step (22) on the upper side of said side,

Specifically, the plurality of coupling grooves 21 formed on the lower side to be coupled to the through-hole 11 of the stan network 10 and the coupling groove 21 is extended from the lower side formed so that the area is gradually reduced It is formed and the end is a side portion (20) forming the step (22) and the crimp tube (23), and two first, second inlet portion (31, 41) for the inflow of fluid to the surface of the side portion 20 and The first injector 32 extends inwardly from the first inlet 31 and the second inlet 41, which extends inwardly and extends in a direction opposite to the first injector 32. Nozzles mounted at the front end of the first and second injection parts 32 and 42 to accelerate the injection speed of the fluid flowing from the second injection part 42 and the first and second inlet parts 31 and 41. 33,43).

A gasket 17 may be further included in the combination of the water jet head 50 and the stand net 10. At this time the flange 12 of the stand net 10 may be provided with a gasket coupling hole 13 . The gasket 17 has a plurality of bolts 91. The bolts 91 are inserted into the gasket engagement holes 13 and are assembled with the nuts 92 to be engaged with the stand nets 10, A hole 18 corresponding to the through hole 11 of the flange 12 is formed so that the bolt penetrates the through hole 11 and the hole 18 and is engaged with the coupling groove 21 formed at the lower portion of the water jet head 50 So that the water jet head 50 and the stand net 10 are engaged.

The three-way valve unit 60 is connected to the first and second inflow units 31 and 41 and controls the fluid to be supplied to any one of the first and second inflow units 31 and 41 A three-way valve 61, a three-way valve knob 62, a first connection pipe 63, a second connection pipe 64 and a main pipe 65. The three-

The main pipe 65 is connected to the three-way valve 61 and supplies an external fluid to the three-way valve 61. The first connection pipe 63 is connected to the three- And the second connecting pipe 64 is connected to the three-way valve 61 and the second inflow part 41. The three-way valve handle 62 is connected to the three-way valve 61 ).

When the three-way valve handle 62 is opened, the fluid of the main pipe 65 flows into the first inlet 31 and is blocked by the second inlet 41. When the three-way valve handle 62 is closed, 65 flows into the second inflow section 41 and is blocked by the first inflow section 31. That is, the three-way valve 61 selectively provides the external fluid to any one of the first and second inflow portions 31 and 41.

The water jet injection nozzle 70 has an insertion tube 71 inserted into the compression tube 23 and having a locking protrusion 72 which is engaged with the step 22 and an acceleration nozzle 74,

Specifically, the insertion pipe 71 is pressed against the inner circumferential surface of the pressure pipe 23 of the waterjet head 50 and the elastic force so as to be caught at equal intervals around the insertion pipe 71. It is formed so as to gradually reduce the area from one side of the engaging jaw 72 and the insertion tube 71 to accelerate the injection speed of the fluid and the fluid introduced from the fluid entry hole 14 of the stan network 10 and It consists of an agglomeration portion 73 for mixing the fluid introduced from the first inlet portion 32, and an acceleration nozzle 74 for increasing the moving speed of the fluid is extended from one side of the agglomeration portion 73 is injected .

9 shows the fluid flow in the state where the three-way valve knob 62 is closed, and Fig. 10 shows the fluid flow in the state where the three-way valve knob 62 is opened.

Assuming that the water jet 2 is placed on the floor inside the pesticide container, referring to Fig. 9, the pesticide pail is usually mixed with the pesticide powder and water. However, when the pesticide powder and the water are not mixed well, the three-way valve handle 62 is closed and the fluid flowing from the main pipe 65 is injected at a high pressure through the second spray part 42 and the nozzle 43 .

In the case where the stand mesh 10 does not exist when the fluid is injected under the water jet 2 under the high pressure as described above, the water jet 2 swings, collapses or changes its position. In the case of the water jet 2 according to the present invention It is possible to reduce the phenomenon that the primary impact is absorbed by the bottom plate 16 of the stand net 10 and is shaken, collapsed or changed in position, and the fluid, which is moved through the fluid inlet / outlet hole 14, It is useful because it can mix well with water. Here, a part of the fluid may be transferred to the acceleration nozzle 74, but is not shown in the drawing.

On the other hand, assuming that the water jet 2 is placed in a stream or the like when the water jet 2 is intended to fill the water in a certain tub, the three-way valve handle 62 is opened to remove the fluid introduced from the main pipe 65 And is injected at a high pressure through the one-injection part 32 and the nozzle 33. [

When the fluid is injected to the upper side of the water jet 2 as above, the water flows into the stream through the fluid inlet / outlet hole 14 of the stand network 10 by the pressure, so that the fluid can be carried into the tub together with the fluid.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will readily occur to those skilled in the art without departing from the spirit and scope of the invention. Therefore, it should be understood that the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense, and that the true scope of the invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof, .

10: Standing net 11: Through hole
12: Flange 14: Fluid access hole
16: bottom plate 20: side
21: engaging groove 22: step
23: compression tube 31: first inlet
32: first jetting part 41: second inlet part
42: second sprayer 33, 43: nozzle
50: Water jet head 60: 3-way valve part
70: Water jet injection nozzle 71: Insertion tube
72: hanging jaw 73:
74: Acceleration nozzle

Claims (2)

A stanchion net 10 having a structure including an open top, a bottom with a bottom plate 16, and a circumference with a plurality of fluid access holes 14 formed therein;
A lower portion coupled with the upper portion of the stand network 10, a first and second inflow portions 31 and 41 formed so as to allow an external fluid to flow into the first and second inflow portions 31 and 41, A first injection part 32 for extending the fluid introduced from the first inflow part 31 to the upper part and a second injection part 32 for guiding the fluid introduced from the second inflow part 41 to be sprayed downward, A water jet head (50) having a side portion (20) having a side wall (42), and an open top portion having an upper portion of a compression tube (23) so as to have a step (22) on the upper side of the side portion;
A three-way valve part (60) connected to the first and second inflow parts (31, 41) and for controlling the fluid to be supplied to any one of the first and second inflow parts (31, 41);
And an injection nozzle 71 which is inserted into the compression tube 23 and has an engagement protrusion 72 which is engaged with the step 22 and an acceleration nozzle 74 extending from the insertion tube 71, A nozzle 70;
≪ / RTI > wherein the baffle is configured to include a baffle plate. A flange 12 having a through hole 11 is formed at one side and a plurality of fluid access holes 14 are formed at a periphery to allow fluid to flow in and out. and;
A plurality of coupling grooves 21 formed on the lower side to be coupled to the through-hole 11 of the stan network 10, and extending from the lower side formed with the coupling groove 21 is formed so that the area is gradually reduced and ends A side portion 20 having a stepped portion 22 and a crimping tube 23, two first and second inlets 31 and 41 for inflow of fluid into the surface of the side portion 20, and the first The first injector 32 extends inwardly from the first inlet 31, and the second injector 32 extends inwardly from the second inlet 41 and extends in a direction opposite to the first injector 32. A water jet head 50 including a nozzle 33 for accelerating the injection speed of the fluid flowing from the injection unit 42 and the first inlet unit 31;
A three-way valve part (60) connected to the first and second inflow parts (31, 41) for interrupting fluid to supply fluid to any one of the first and second inflow parts (31, 41);
Insertion tube 71 pressed against the inner circumferential surface of the crimping tube 23 of the waterjet head 50, and the engaging with elastic force to be mounted on the periphery of the insertion tube 71 at an equal interval to be caught on the step 22 The jaw 72 and the area formed to gradually decrease from one side of the insertion tube 71 to accelerate the injection speed of the fluid and the fluid introduced from the fluid entry hole 14 of the stan network 10 and the first Water jet injection nozzle comprising an agglomeration portion 73 for mixing the fluid introduced from the inlet portion 32, and an acceleration nozzle 74 to increase the moving speed of the fluid is extended from one side of the agglomeration portion 73 is injected 70;
≪ / RTI > wherein the baffle is configured to include a baffle plate.

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