KR101123565B1 - Water jet device - Google Patents

Abstract

The present invention relates to a water jet apparatus, comprising: a mixing chamber having an internal nozzle for discharging the mixed water by mixing an abrasive and internal high pressure water, and discharging the mixed water at a lower end thereof, and the same shape as that of the mixing chamber. It is formed on the outer surface, provided with a spray nozzle at the bottom, characterized in that it comprises an outer nozzle formed therein the inner passage for moving the external high-pressure water, the concentration and straightness of the mixed water is improved, the processing precision and processing speed It is possible to improve, to prevent the problem of poor surface roughness of the object due to the spread of the mixed water, it is possible to reduce the wear of the injection nozzle.

Abrasive, high pressure water, mixing chamber, inner nozzle, outer nozzle, spray nozzle, orifice, inner and outer communication space

Description

Water jet device {WATER JET DEVICE}

The present invention relates to a water jet apparatus, and more particularly, to a water jet apparatus that can improve the dispersion concentration of the mixed water including the abrasive.

Generally, a water jet apparatus is a device which processes a workpiece by spraying liquid, such as water, at high pressure with respect to a workpiece.

In recent years, water jet apparatuses for cutting workpieces such as FRP, plate glass, and metal plates by jetting a polishing liquid mixed with abrasives such as silica sand or cast iron grids at high pressure to impinge the polishing liquid at high speeds have been used.

1 is a schematic cross-sectional view of a water jet apparatus according to a conventional example.

As shown in FIG. 1, the water jet apparatus 10 according to the related art has a predetermined internal space, is formed to decrease in diameter toward a lower portion thereof, and has a mixing chamber having an injection nozzle 14 at a lower end thereof. 12 has a structure in which the high pressure water supply pipe 16 and the abrasive supply pipe 18 are connected.

Here, the high pressure water supply pipe 16 is connected to the upper portion of the mixing chamber 12 to supply high pressure water therein, and the abrasive supply pipe 18 is disposed at the side of the mixing chamber 12 to supply the abrasive to the inside. do. The high pressure water and the abrasives introduced into the mixing chamber 12 are mixed inside to generate mixed water, which is mixed with the sprayed water nozzle 14 which decreases in diameter toward the work piece W at a high speed. Sprayed.

However, the water jet apparatus 10 according to a conventional example employing such a structure has a problem in that the concentration of spraying (mixing straightness) of the mixed water is lowered at the end of the dispersion nozzle 14 and the mixed water is sprayed radially. . As a result, the processing accuracy of the workpiece W is lowered, and the surface of the workpiece W is roughened or the end of the injection nozzle 14 is worn due to the abrasive and high pressure water sprayed radially. .

In order to solve this problem, a water jet apparatus 20 according to another conventional example employing a concentrated dispersion nozzle 24 for improving the injection concentration of the mixed water has been proposed, Figure 2 according to another conventional example A schematic cross sectional view of a water jet apparatus is shown.

As shown in FIG. 2, the water jet apparatus 20 according to another conventional example has a structure in which the mixed water mixed with the high pressure water and the abrasive from the mixing chamber 22 is sprayed through the concentrated spray nozzle 24.

In this case, the concentrated discharge nozzle 24 has a hollow cylindrical shape and is formed to extend inwardly on both sidewalls, and has a structure in which at least one inner wall 26 defining a discharge passage of the mixed water is formed at the center and the mixed water at the bottom thereof. It has a structure in which the injection nozzle 30 for the injection of the formed.

In this case, the inner wall 26 forms one or more chambers 28 between both sidewalls, and the jet passage formed by the one or more inner walls 26 and the spray nozzles 30 are formed on the same axis so that the mixed water is sprayed. It is characterized by.

The concentrated jet nozzle 30 having such a structure forms a vortex at a position adjacent to the inner wall 26 in the chamber 28 due to the ballistic phenomenon. Concentrating towards the flow causes the spraying concentration of the mixed water to be sprayed in an improved state.

However, the water jet apparatus 20 according to another conventional example has a problem in that processing time and processing cost increase in processing the concentrated jet nozzle 24 having a complicated structure. In particular, since the internal structure of the concentrated injection nozzle 24 should be formed of a material having sufficient strength to withstand high pressure water, there was a further difficulty in processing.

In addition, since the inner wall 26 is formed in the concentrated jet nozzle 24 in a direction orthogonal to the main flow direction of the mixed water, a lot of abrasion occurs due to friction with the mixed water, thereby shortening its lifespan. There was this.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a water jet apparatus that can improve the processing accuracy by increasing the injection concentration of the mixed water including the abrasive by a simple structure will be.

Water jet apparatus according to a preferred embodiment of the present invention,

A mixing chamber having an internal nozzle for mixing the abrasive and the internal high pressure water to generate mixed water and discharging the mixed water at the bottom;

It is formed on the outer surface in the same shape as the mixing chamber, and has an injection nozzle at the bottom, and includes an outer nozzle formed therein the inner passage through which the external high pressure water moves.

Here, the inner passage formed in the outer nozzle is characterized in that formed in a spiral.

In addition, the injection nozzle of the outer nozzle is characterized in that it is installed coaxially with the inner nozzle.

In addition, the outer nozzle is formed to be spaced apart from the mixing chamber, it characterized in that the inner and outer communication space to prevent the occurrence of backflow between the inner nozzle and the injection nozzle.

In addition, the external high pressure water is supplied to the external nozzle by an external high pressure water supply pipe, the external high pressure water supply pipe is characterized in that it is provided with a pressure regulator for controlling the pressure of the external high pressure water supplied.

In addition, the upper portion of the mixing chamber is connected to the internal high pressure water supply pipe, characterized in that the side of the mixing chamber is connected to the abrasive supply pipe.

In addition, the mixing chamber is characterized in that an orifice for adjusting the flow rate of the internal high pressure water flowing from the internal high pressure water supply pipe is formed.

In addition, the abrasive supply pipe is characterized in that connected to the abrasive storage tank for storing the abrasive.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may appropriately define the concept of a term in order to best describe its invention The present invention should be construed in accordance with the spirit and scope of the present invention.

According to the present invention, the external high pressure water is transferred to the main flow direction of the mixed water injected through the inner nozzle through the external nozzle formed to decrease the diameter toward the bottom, thereby improving the concentration of the injection of the mixed water, processing precision and processing speed It is possible to improve, to prevent the problem of poor surface roughness of the object due to the spread of the mixed water, it is possible to reduce the wear of the injection nozzle.

In addition, according to the present invention, the outer nozzle for supplying the external high pressure water is formed in the spiral inner passage so that the external high pressure water flows in a spiral to further improve the concentration and straightness of the mixed water.

In addition, according to the present invention, it is possible to control the density of the abrasive by changing the concentration of the mixed water by adjusting the pressure of the external high-pressure water.

In addition, according to the present invention, it is possible to prevent the back flow of the mixed water discharged through the inner nozzle having an inner and outer communication space.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components as much as possible, even if displayed on the other drawings. In addition, in describing the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

 Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a schematic cross-sectional view of a water jet apparatus according to a preferred embodiment of the present invention. Hereinafter, referring to the water jet device 100 according to a preferred embodiment of the present invention.

As shown in FIG. 3, the water jet apparatus 100a according to a preferred embodiment of the present invention delivers the mixing chamber 120 to generate the mixed water and the external high pressure water to improve the spray concentration of the mixed water. It is configured to include an external nozzle 140.

The mixing chamber 120 is for generating mixed water including an abrasive and discharging the mixed water. The mixing chamber 120 has a predetermined internal space for generating mixed water by mixing the abrasive and the internal high pressure water. It is formed in a shape of decreasing diameter and has, for example, a cylindrical structure.

Here, the internal high pressure water supply pipe 122 for supplying the internal high pressure water to the mixing chamber 120 is connected to the upper portion of the mixing chamber 120. At this time, the internal high pressure water supply pipe 122 is provided with a pressure regulating device, the internal high pressure water is supplied in a pressure-controlled state inside the mixing chamber 120.

In addition, an orifice 124 is formed on the upper inner wall of the mixing chamber 120 to adjust the flow rate of the internal high pressure water supplied by the internal high pressure water supply pipe 122. That is, it is used to control the flow rate of the internal high pressure water supplied according to the quantity of abrasive supplied by the abrasive supply pipe 126 mentioned later.

In addition, an abrasive supply pipe 126 for supplying the abrasive into the mixing chamber 120 is connected to the side of the mixing chamber 120. At this time, when the abrasive is supplied to the inside of the mixing chamber 120, the flow rate is controlled by the orifice 124 at the top is mixed with the internal high-pressure water supplied to form a mixed water including the abrasive. Here, the abrasive supply pipe 126 is connected to the abrasive storage tank to supply the stored abrasive into the mixing chamber 120. As the abrasive, silica sand, cast iron grid, sodium hydrogen carbonate, etc. may be used. Sodium hydrogen carbonate is mainly used to wash the work because of its low hardness. At this time, the abrasive is connected to the abrasive storage tank (not shown) by connecting an air compressor or the like to the inside of the mixing chamber 120 by the pressure difference to the internal pressure of the abrasive storage tank or installed inclined downwardly the abrasive supply pipe 126 Thus, by installing the supply valve in the abrasive storage tank can be supplied into the mixing chamber 120 by gravity by opening and closing the.

In addition, the mixing chamber 120 has a shape in which the diameter decreases toward the lower side, and an inner nozzle 128 for discharging the mixed water is formed at the lower end thereof. At this time, the mixed water inside the mixing chamber 120 is discharged while the discharge speed is increased while passing through the narrow inner nozzle 128.

The outer nozzle 140 is for supplying the external high pressure water in order to improve the concentration and straightness of the mixed water, is formed to reduce the diameter toward the bottom of the mixing chamber 120 toward the lower portion of the workpiece (W) ) Has a structure in which the injection nozzle 144 for discharging the mixed water and the external high pressure water with improved concentration and straightness.

Here, the external nozzle 140 has a structure in which an internal passage through which external high pressure water flows is formed in order to improve the spray concentration of the mixed water. It is configured to be. Specific shapes thereof will be described in more detail in the section on FIGS. 4A and 4B.

In addition, an external high pressure water supply pipe 142 for supplying external high pressure water is connected to an upper portion of the external nozzle 140. At this time, the external high pressure water supply pipe 142 is provided with a pressure control device, and transmits the external high pressure water to the external nozzle 140 in a state in which the pressure of the external high pressure water is controlled.

At this time, the external nozzle 140 is formed on the outer surface of the mixing chamber 120 in the state having the same shape as the mixing chamber 120, is formed to decrease in diameter toward the bottom so that the external high pressure water mixed water is discharged in all directions It is transmitted to concentrate in the direction so that the mixed water discharged through the inner nozzle 128 is not radially sprayed. That is, by delivering the external high pressure water in all directions to the mixed water passing through the inner nozzle 128, the mixed water is sprayed as it is in the main flow direction.

In addition, the lower end of the outer nozzle 140, the injection nozzle 144 for discharging the mixed water and the external high-pressure water to the workpiece (W) is formed. At this time, the injection nozzle 144 is formed coaxially with the inner nozzle 128 to match the main flow direction of the mixed water.

Here, the injection nozzle 144 and the internal nozzle 128 of the external nozzle 140 are spaced at predetermined intervals and provided with an internal and external communication space 130 therebetween, mixed water and external high pressure water sprayed at high speed / high pressure. Flow resistance is increased by the confluence of the to prevent the flow back to the injection nozzle 144 without falling directly.

4A and 4B are cross-sectional views and perspective views of the external nozzles in the water jet apparatus illustrated in FIG. 3, respectively.

As shown in FIGS. 4A and 4B, the external nozzle 140 has an internal passage through which external high pressure water flows to further improve the spray concentration and straightness of the mixed water. Here, the external high pressure water flows while rotating the lower end of the mixing chamber 120 along the inner passage.

In addition, the inner passage is preferably spirally formed so that the mixed water sprayed through the injection nozzle 144 can be more concentrated in the main flow direction by flowing the external high pressure water in a spiral manner.

That is, the external high pressure water flowing while rotating through the inner passage of the mixing chamber 120 forms a flow rotation radius, and prevents the mixed water from escaping from the main flow direction so as to directly discharge from the inner nozzle 128. To be discharged.

Although the present invention has been described in detail through specific embodiments, this is to specifically describe the present invention, and the water jet apparatus according to the present invention is not limited thereto, and the general knowledge in the art within the technical spirit of the present invention. It is obvious that modifications and improvements are possible by those who have them.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be apparent from the appended claims.

1 is a schematic cross-sectional view of a water jet apparatus according to a conventional example.

2 is a schematic cross-sectional view of a water jet apparatus according to another conventional example.

3 is a cross-sectional view of a water jet apparatus according to a preferred embodiment of the present invention.

4A and 4B are cross-sectional views and perspective views of the external nozzles in the water jet apparatus illustrated in FIG. 3, respectively.

<Description of the symbols for the main parts of the drawings>

120: mixing chamber 122: internal high pressure water supply pipe

124: orifice 126: abrasive supply pipe

128: internal nozzle 130: internal and external communication space

140: external nozzle 142: external high pressure water supply pipe

144: injection nozzle W: workpiece

Claims (8)

A mixing chamber having an internal nozzle for mixing the abrasive and the internal high pressure water to generate mixed water and discharging the mixed water at the bottom; And The outer nozzle is formed on the outer surface of the same shape as the mixing chamber, has an injection nozzle at the bottom, and has an inner passage through which an external high pressure water moves. And the outer nozzle is spaced apart from the mixing chamber to form an inner and outer communication space for preventing backflow between the inner nozzle and the injection nozzle. The method according to claim 1, The inner passage formed in the outer nozzle is a water jet device, characterized in that formed in a spiral. The method according to claim 1, Water jet device, characterized in that the injection nozzle of the outer nozzle is installed coaxially with the inner nozzle. delete The method according to claim 1, The external high pressure water is supplied to the external nozzle by an external high pressure water supply pipe, wherein the external high pressure water supply pipe is provided with a pressure regulating device for adjusting the pressure of the external high pressure water supplied. The method according to claim 1, An upper portion of the mixing chamber is connected to the internal high pressure water supply pipe, and the water jet device, characterized in that the abrasive supply pipe is connected to the side of the mixing chamber. The method according to claim 6, An orifice for controlling the flow rate of the internal high pressure water flowing from the internal high pressure water supply pipe is formed in the mixing chamber. The method according to claim 6, And the abrasive feed pipe is connected to an abrasive storage tank for storing the abrasive.

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