KR100454415B1 - Surface plate for high pressure injection nozzle - Google Patents

Abstract

The present invention relates to a high pressure injection nozzle surface that can be processed into a fine size of the abrasive sprayed at a high pressure through a surface plate, and more particularly, to provide a high pressure injection nozzle surface plate that can be made fine processing such as abrasives. It is.

Accordingly, in the present invention, in the high-pressure injection nozzle for processing and spraying the particles supplied at a high pressure in a fine size, the inlet passage is formed on the upper surface of the core of the upper plate, the discharge groove and the discharge groove and the inlet passage on the bottom of the core The processing groove to connect was formed. And the upper surface of the lower surface plate was formed in the inlet groove and the discharge passage corresponding to the inlet passage and the discharge groove was installed inside the high-pressure jet nozzle with the upper plate.

Therefore, the present invention has a very useful effect that can greatly increase the amount of production of abrasives, such as fine particles, while processing a fine size of the abrasive through a plurality of processing grooves formed in the upper surface plate. In addition, since the inlet and outlet passages of the long hole shape prevent particles from being bottled, such as abrasives, supplied at a high pressure, there is also a useful effect of greatly improving the processing efficiency of the abrasives.

Description

Surface plate for high pressure injection nozzle

The present invention relates to a high pressure jet nozzle for spraying abrasives and the like at high pressure, and more particularly, to a high pressure jet nozzle for processing a fine jet sprayed at a high pressure through a surface plate.

In general, since the abrasive for polishing can obtain a smoother processing surface as the particles are smaller, processing is performed in the form of micron units or ultra fine particles, and in recent years, work to obtain nano-sized particles has been actively performed.

Processing of the abrasive is mainly through a high-pressure jet nozzle, the abrasive is passed at a high pressure through the chip (or plate) on which the fine processing groove is formed to obtain ultra-fine particles or nano-sized abrasive.

FIG. 1 is an example of such a high pressure jet nozzle according to the related art, and is mainly composed of a water pipe 2, a nozzle holder 3, a nozzle 4, a die 5, and a diamond chip 6. FIG. First, the water pipe 2 is a flow of abrasive, the thread is formed on the outer peripheral surface is fastened to the nozzle holder (3).

In addition, the nozzle 4 is inserted into the nozzle holder 3 to be in close contact with the bottom surface of the water pipe 2 according to the fastening of the nozzle holder 3, and the nozzle 4 is inserted into the groove 4a in the center of the upper surface. ) Is formed, and the discharge passage 4b is formed at the center of the bottom surface.

The die 5 is coupled to the insertion recess 4a of the nozzle 4, and the circular arc surface 5a is formed only at the center of the upper surface, and the diamond chip 6 is coupled to the bottom surface. Directly underneath), the recessed groove 5b is formed. A fine diameter injection hole 6a is formed in the center of the diamond chip 6.

However, the conventional high pressure jet nozzle 1 has a structure in which the indented circular arc surface 5a is formed in the die 5, and one jetting hole 6a is formed in the diamond chip 6, so as to generate a high pressure fine water stream. Although preferred for spraying, problems have arisen in the processing of particles such as abrasives, special inks or paints into particulates or nanometer sizes.

In more detail, in order to process particles such as abrasives into fine particles or nanometers, the abrasives, etc. supplied at high pressure should be processed while passing through the injection holes 6a of the diamond chips 6 without bottlenecking. However, in the related art, abrasives introduced at high pressure due to arc-shaped indented circular arc surfaces 5a and injection holes 6a have to be bottled.

In addition, since the single jetting hole 6a is formed in the diamond chip 6, the supplied abrasives and the like are concentrated in the single jetting hole 6a, resulting in a problem that the abrasive and the like cannot be processed and sprayed more efficiently.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention to provide a surface plate for high-pressure jet nozzles that can more finely process the particles, such as abrasives, special ink and paint supplied. It is.

In addition, another object of the present invention is to provide a surface plate for the high-pressure jet nozzle that can efficiently produce a finer particle size.

1 is a cross-sectional view showing a structure of a high pressure jet nozzle according to the prior art,

2 is a cross-sectional view showing a high-pressure jet nozzle according to the present invention,

3 is an exploded perspective view showing an upper surface plate and a lower surface plate according to the present invention;

Figure 4 is a cross-sectional view of the working state showing the processing process according to the present invention,

5 is an exploded perspective view showing another embodiment of the upper surface and the lower surface of the present invention,

Figure 6 is a cross-sectional view of the operating state according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: high pressure spray nozzle 20: introduction pipe

30: supply nozzle 35: injection nozzle

40: upper cap 45: lower cap

50: plate holder 60: upper plate

61: core 62,62a: inflow passage

63,63a: processing groove 64,64a: discharge groove

70: lower surface plate 71: core

72,72a: Inlet groove 73,73a: Outlet passage

In order to achieve the above object, the surface plate for the high-pressure jet nozzle of the present invention is to process and spray the particles introduced at high pressure into a fine size, so that the processing and discharge of the particles can be made smoothly inside the high-pressure jet nozzle. An upper plate and a lower plate each having a core are installed.

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

Figure 2 is a cross-sectional view showing a high-pressure jet nozzle according to the present invention, Figure 3 is an exploded perspective view showing an upper surface and a lower surface according to the present invention, Figure 4 is a cross-sectional view of the working state showing a machining process according to the present invention.

As shown, a screw thread is formed on the outer circumferential surface of the introduction pipe 20 of the high-pressure jet nozzle 10, and the surface coupling hole 21 penetrates through the inner center thereof. In addition, two surface plate holders 50, an upper surface plate 60 and a lower surface plate 70 are hot press-fitted into the surface coupling hole 21, and the supply nozzle 30 and the injection nozzles are vertically inserted into the surface coupling hole 21. 35) is also joined by hot indentation.

In addition, the introduction pipe 20 is forcibly fastened to the upper cap 40 and the lower cap 45 by hot to firmly couple the above-described supply nozzle 30 and the injection nozzle 35 to each other, and also to the surface plate holder ( 50) and the upper surface plate 60 and the lower surface plate 70 serves to closely adhere to.

Here, the reason why the various components such as the upper surface plate 60 and the lower surface plate 70 is hot by hot press-fitting is to more reliably prevent particles such as abrasives from leaking due to the characteristics of high-pressure injection. And another reason is that when the high-pressure spray nozzle 10 is forcibly disassembled forcibly, the upper surface plate 60 and the lower surface plate 70 is damaged by expansion, so that the core of the upper surface plate 60 and the lower surface plate 70 It is to prevent the general configuration and shape to be disclosed to the outside.

On the other hand, the upper surface plate 60 and the lower surface plate 70 is made of a material of high hardness, such as cemented carbide, each core 61, 71 is integrally coupled to the center. Each of the cores 61 and 71 is made of a material having a very high hardness, such as synthetic diamond, and the surface is subjected to lapping and polishing treatments for a smooth surface.

The core 61 coupled to the upper upper plate 60 has formed an inflow passage 62 so that particles such as an abrasive flow into the upper surface thereof. In addition, the bottom of the core 61 has formed a plurality of discharge grooves 64 and processing grooves 63 connecting the discharge grooves 64 and the inflow passage 62. Therefore, particles such as abrasives introduced at high pressure through the inflow passage 62 are processed to a fine size while passing through the fine processing groove 63.

In addition, the core 71 coupled to the lower surface plate 70 has an inflow groove 72 formed on an upper surface thereof so as to coincide with the inflow passage 62 of the upper surface plate 60, and an exhaust passage 73 on the upper surface. Formed to allow particles such as abrasives introduced into the discharge groove 64 of the upper surface plate 60 to be discharged through the discharge passage (73).

5 and 6 show another embodiment of the upper surface plate 60 and the lower surface plate 70 of the present invention. When the focus is different from the above-described embodiment, the core coupled to the upper surface plate 60 will be described. A plurality of inflow passages 62a are formed to penetrate the upper surface of the 61, and discharge grooves 64a are formed at the center of the bottom surface of the core 61, and the discharge grooves 64a are formed in the plurality of processing grooves 63a. It is connected to the inflow path 62a of the bottom surface of the core 61 by the said each.

In addition, a plurality of inflow grooves 72a are formed on an upper surface of the core 71 coupled to the lower surface plate 70 to correspond to the inflow passage 62a, and a discharge passage 73a in the center of the upper surface of the core 71. Is formed so as to correspond to the discharge groove (64a).

On the other hand, another embodiment of the present invention is formed by the diameter of the discharge groove (64a) and the discharge passage (73a) larger than the inlet passage (62a) or inlet groove (72a) to be processed by a plurality of processing groove (63a) Many particles such as abrasives can be discharged more smoothly.

Referring to the operation and effect of the present invention configured as described in detail as follows.

As shown in FIGS. 3 and 4, particles such as abrasives introduced at high pressure through the supply nozzle 30 pass through the inflow passage 62 of the surface plate holder 50 and the upper surface plate 60. Particles such as abrasives are processed while passing through the grooves 63. Particles, such as processed abrasive, are injected to the outside through the discharge groove 64, the discharge passage 73 and the injection nozzle 35.

In more detail, the abrasive particles introduced into the inflow passage 62 of the upper surface plate 60 through the supply nozzle 30 and the surface plate holder 50 are formed of a plurality of processing grooves 63 formed in the core 61. In this process, the abrasive particles are finely cut by the width of the processing groove 63 while being in contact with the entrance edge of the processing groove 63, the discharge groove 64 and the discharge passage (73). And it is injected to the outside through the injection nozzle 35.

In addition, since the core 61 of the present invention has a plurality of processing grooves 63 formed at the bottom thereof, the processing efficiency of the abrasive is maximized, and the inflow passage 62 and the discharge passage 73 are formed as long holes and discharged. Groove 64 and the inlet groove 72 was formed as a long groove. Therefore, the abrasive flowing at high pressure is smoothly processed without being a bottleneck.

In addition, since the cores 61 and 71 of the present invention are made of a synthetic diamond material, the wear is hardly generated even when the abrasive is processed for a long time, and a processing groove 63 having a micron, ultra-fine particle size, or nanometer size is formed. Thus, it is possible to process and produce finer particles such as abrasives introduced at high pressure.

In particular, the smaller the particle size of the abrasive, the higher the added value, because the smaller the particle size of the abrasive can be obtained a more precise processing surface. Therefore, the present invention can efficiently process and produce a fine abrasive through the high hardness material characteristics of the synthetic diamond and the inlet passage 62 and the plurality of fine processing grooves 63 of the long hole, thereby providing high added value. Abrasives and the like can be produced.

On the other hand, Figure 5 and Figure 6 shows another embodiment of the present invention, the particles, such as abrasives introduced at a high pressure is a plurality of inlet passages (62a) and inlet grooves formed in the core 61 of the upper surface 60 ( After passing through 72a), it is cut to a fine size while passing through the processing groove 63a connected to each inflow passage 62a. Particles such as abrasives processed to fine sizes are injected to the outside through the discharge grooves 64a formed in the center of the bottom surface of the core 61, the discharge passages 73a and the injection nozzles 35 of the core 71.

Another embodiment of the present invention is a structure for processing the particles of the abrasive through a plurality of inflow passages (62a) and the processing groove (63a) according to the present invention, so that the flow of particles, such as abrasives flowing at high pressure is not bottled, smooth flow is maintained do. Therefore, unlike the above-described embodiment, since a plurality of inflow passages 62a are formed, the processing efficiency of the abrasive and the like is further improved.

On the other hand, the above-described embodiment is merely to describe a preferred embodiment of the present invention, the scope of application of the present invention is not limited to such, and can be changed as appropriate within the scope of the same idea. For example, in the present invention, the process of processing the abrasive is described, but in addition to the abrasive, it is widely applicable to abrasives for polishing, special inks, paint pigments and paints and the like.

As described above, the surface plate for the high-pressure jet nozzle of the present invention is formed with a plurality of processing grooves for processing by passing an abrasive to the bottom of the upper surface plate. Therefore, as well as processing and producing the abrasive to a fine size through a plurality of processing grooves, there is a very useful effect that can greatly increase the output of the fine size of the abrasive.

Further, the present invention is formed in the inlet passage and the discharge passage in the long hole shape, the inlet groove and the discharge groove is formed in the long groove shape, since the inlet passage is formed a lot to prevent further bottlenecks such as abrasives. Therefore, there is a very useful effect to significantly improve the processing efficiency, such as abrasives introduced at high pressure.

Claims (4)

In processing and spraying the particles introduced at high pressure to a fine size, High pressure, characterized in that the upper surface 60 and the lower surface 70 having a core (61, 71) respectively installed in the high-pressure jet nozzle 10 so that the processing and discharge of the particles are made smoothly Surface plate for jet nozzle. According to claim 1, wherein the core 61 of the upper surface plate 60 has an inlet passage 62 is formed on the upper surface, the discharge groove 64 and the inlet passage 62 and the discharge groove 64 on the bottom surface A plurality of processing grooves 63 are formed; The core 71 of the lower surface plate 70 has an inlet groove 72 and an outlet passage 73 formed on an upper surface thereof so as to correspond to the inflow passage 62 and the discharge groove 64 of the upper surface plate 60. Plate for high pressure spray nozzles. The high-pressure injection of claim 2, wherein the inflow passage 62 and the discharge passage 73 are each formed in a long hole shape, and the discharge groove 64 and the inflow groove 72 are each formed in a long groove shape. Plate for nozzle. The core 61 of the upper surface plate 60 has a plurality of inflow passages 62a formed on an upper surface thereof, and a discharge groove 64a and the discharge groove 64a at the center of the bottom surface of the core 61. ) And a processing groove (63a) for connecting each inflow passage (62a) is formed; The core 71 of the lower surface plate 70 has a plurality of inlet grooves 72a and discharge passages 73a on an upper surface thereof to correspond to the plurality of inflow passages 62a and the discharge grooves 64a of the upper surface plate 60. Surface plate for high-pressure jet nozzle, characterized in that formed.