KR800001711Y1 - Spray nozzle for powder coating with adjustable spray pattern - Google Patents

Abstract

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Description

Spray nozzle for powder coating with adjustable spray pattern

1 is a partial cutaway side view illustrating an electrostatic powder coating apparatus having an injection nozzle according to the present invention,

2 and 3 are cutaway side views and rear cross-sectional views showing the pattern adjusting member of the spray nozzle shown in FIG. 1, respectively.

Figure 4 is a cut side view showing another embodiment of the injection nozzle of the present invention,

5 is a cross-sectional view taken along the line 4 V-V,

6 is a cutaway side view showing another embodiment of the jet nozzle of the present invention,

7 is a cross-sectional view taken along the line VII-VII of FIG. 6.

The present invention relates to an improvement of a spray nozzle for powder coating, and more particularly, to a spray nozzle for powder coating provided with a device for adjusting the shape and dimensions of the spray pattern of powder coating sprayed from the spray nozzle.

In powder coating apparatus of the so-called spray gun type used for electrostatic powder coating or other powder coating, spray nozzles are installed at the tip of the apparatus and piggybacked into the air stream to spray particles of powder coating supplied to the apparatus from the spray nozzle. In order to achieve the best coating in accordance with the purpose of releasing the coating, the purpose of painting, the shape, the size of the article to be coated, and the like, it is necessary to appropriately adjust the shape and dimensions of the spray pattern of the paint particles emitted from the spray nozzle.

Conventionally, spray nozzles having various shapes and dimensions are prepared and used while changing them. Paint particle deflecting members for blocking the flow of the paint particles in the passage of the paint particles discharged from the spray nozzles and changing the direction thereof. The shape of the spray pattern by arranging sections and changing the deflection members of various different shapes and dimensions, or changing the relative positions of the spray nozzles and the deflection members, or by using the two methods in combination; Although adjustment of the dimensions is required, these methods are inconvenient because they require time and effort to adjust, and when the paint particle deflecting member is used, the paint particles adhere to the surface and are intermittently peeled off. There was a fear of deterioration in quality.

The object of the present invention is not to prepare a plurality of spray nozzles having different shapes and dimensions, and to prepare various types of paint particle deflection members, as well as to use a deflection member or to change its position. By adjusting the compressed air including the velocity component in the perpendicular direction with respect to the direction flowing inside the paint particle stream discharged into the cone shape by changing the pressure, flow rate, flow rate, etc. of the compressed air for adjustment. It is to provide a spray nozzle for powder coating to adjust a small amount of spray patterns.

In the present invention, a cylindrical hollow nozzle connected to a powder coating supply pipe, which carries a powder coating on the back of the air, is transported in a convex shape or slightly concave at its rear end, and its radius gradually increases along the front end. A shear section having a conical edge side, and is arranged on the same axis insulated from the nozzle inner wall surface such that an annular gap is formed between the edge side of the electric hollow nozzle and the nozzle inner wall surface to form a discharge passage for the paint particles. , The paint guide part extending in the hollow nozzle to the front side rather than the front end and designed to penetrate the central part of the electric paint guide member in the axial direction. Adjusting compressed air passage connected to extending the compressed air supply pipe: shear of electric paint guide member An air chamber or cavity in which the front end of the powder is installed on the same axis and whose front end is opened to the front face of the paint guide member, and the rear end thereof is connected to the compressed air passage for adjustment. The flow of the paint particles, which are arranged on the same axis in the inside of the flow of paint particles which are arranged along the side of the edge of the paint guide member and are arranged along the annular gap between the electric hollow nozzle and the paint guide member, are described above. There is provided a powder coating spray nozzle having a pattern adjusting member for actuating the compressed air supplied to the adjusting compressed air passage.

Hereinafter, embodiments of the powder coating spray nozzle of the present invention will be described with reference to the accompanying drawings.

FIG. 1 illustrates an electrostatic powder coating apparatus having a spray nozzle according to the present invention, wherein the spray nozzle has a cylindrical hollow nozzle 1 having a sharp annular shear edge, and toward the shear as shown in FIG. A hollow nozzle having a concave conical edge side 2 extending between the edge side 2 and the inner wall surface 3 of the hollow nozzle 1 and having an annular spacing 4 formed thereon in the same axis as the hollow nozzle 1 Has a paint guide member 5 extending from the front end to the front of the nozzle, and the rear end of the hollow nozzle 1 is connected to the paint supply pipe 6, and at the rear end of the paint guide member 5, the compression is arranged in such a shaft in the paint supply pipe 6 The air supply line 7 is connected. A suitable device, such as a fluidized bed, for example, from a suitable powder paint source (not shown), is piggybacked on conveying air and fed to the rear end of the paint feed pipe 6 via the paint feed hose 8 A suitable shape attached to the rear end of the compressed air supply pipe 7 and hermetically closes the rear opening thereof, for example, between the paint supply pipe 6 and the compressed air supply pipe 7 by means of a hemispherical or roughly conical material dispersion member 9 as shown. Of the hollow nozzle 1 through the paint discharge passage formed by the annular gap 4 between the inner wall surface of the hollow nozzle 1 and the edge face 2 of the paint guide member 5 which are uniformly distributed over the entire circumference of the annular spacing 10 of At the front end, the spray guide is sprayed along the edge side 2 over the periphery of the paint guide member 5.

The hollow nozzle 1 is made of a cylinder made of high resistance conductive material or a cylinder made of an electrically insulating material having a conductive coating layer on the outer edge thereof. The hollow nozzle 1 constitutes an electrode for generating an electrostatic field and for charging paint particles. Insulated high-voltage cable 14, high-resistance current limiting resistor 15 and conductor piece 16, combined with the spray nozzle by means of a suitable support member 11, a cable support tube 12 and a suitable coupling member 13 as shown in FIG. DC high voltage is applied from a suitable high voltage power supply (not shown). Due to this high voltage, an electrostatic field is generated between the hollow nozzle 1 and the article to be coated (not shown), and the electric reverse line of the electrostatic field is concentrated at high density in the sharp annular shear edge of the hollow nozzle 1. Highly ionized zones are formed.

On the other hand, in the illustrated embodiment, the hollow nozzle 1 constitutes an electrode for generating an electrostatic field and charges paint particles, but preferably, the electrode is constituted by the paint guide member 5 instead of the hollow nozzle 1, and thus the paint guide. An electrostatic field may be generated between the article 5 to be coated (not shown), and a highly ionized zone may be formed at the sharp portion of the front edge of the paint guide member 5.

When the electrode is constituted by the hollow nozzle 1 as shown in the illustrated embodiment, the paint particles injected from the front end of the hollow nozzle 1 through the annular gap 4 between the inner wall surface and the edge side of the paint guide member 5 are hollow nozzle 1. The surface of the article to be coated is effectively charged through the highly ionized zone formed adjacent to the shear edges of the coated article by the interaction between the electrostatic field formed between the hollow nozzle 1 and the article to be coated and the charge held by the paint particles. Attached to the In addition, even when used as an electrode by the paint guide member 5, the paint particles injected from the front end of the hollow nozzle 1 is moved along the edge side 2 of the paint guide member 5 and formed adjacent to the front edge of the paint guide member 5. It is effectively charged through the highly ionized zone, as described above, and adheres to the surface of the article by electrostatic action.

In the spray nozzle of the present invention, as described above, the flow of paint particles sprayed along the edge side 2 of the periphery of the paint guide member 5 at an annular interval 4 between the hollow nozzle 1 and the paint guide member 5 from the inside thereof. In order to achieve this purpose, in the embodiment shown in FIGS. 1 to 3, the compressed air flow is made by axially penetrating the central portion of the paint guide member 5 in the axial direction. 17, the rear end of which is connected to the compressed air supply pipe 7 so that the front end of the front end of the paint guide member 5 is extended forward, and the front end, ie, the diameter of the opening, is the same as the diameter of the front face of the paint guide member.所 18 is installed, and the rear end communicates with the compressed air passage 17. In this conical element 18, a plurality of spheres having an outer edge side surface 19 having substantially the same angle as the right angle of the conical inner wall surface of the element, and extending substantially parallel to the busbar of the conical surface at a portion proximate to the small end of the outer edge side. (Iii) Arrange and calibrate the pattern adjusting member 22 of the cone object on which the conical annular projection 21 having the 20 formed thereon is arranged on the same axis. Inside the front end of the pattern adjusting member 22 is provided an air chamber 23 which opens over the front face of the front face of the pattern adjusting member, the front opening of which is closed by a breathable thin plate 24 made of a suitable porous material. The inside of 23 is connected to the compressed air passage 17 mentioned above by the vent 25 provided through the rear end wall.

Thus, for example, a compressed air hose 26 mounted on the tactical engagement member 13 and connected to a suitable source of compressed air (not shown), an annular vent 27 installed in the engagement member 13, a connector 28 connecting the vent 27 and the compressed air engine 7 and the like. The air supplied into the compressed air passage 17 through the compressor tube 7 is conical through the cone hole 18 of the front end of the paint guide member 5 and through the corner 20 of the protrusion 21 provided in the small part of the pattern adjusting member 22. The hollow nozzle 1 and the paint guide are discharged together over the entire circumference of the pattern adjustment member 22 through the conical annular spacing 29 formed between the inner wall surface of the element 18 and the conical outer side surface 19 of the front end of the pattern adjustment member 22. It is attached from the inside to the paint particle stream which is sprayed in the annular space 4 between the member 5, and flows along the edge side 2 of the paint guide member 5. It will be 付) Kane.

Therefore, as the pressure, speed, and flow rate of the compressed air to be supplied into the pressure cylinder 7 are appropriately changed, the pattern of the sprayed paint particles injected from the injection nozzle can be adjusted in a wide range.

On the other hand, a part of the compressed air supplied into the conical element 18 from the compressed air passage 17 enters the air chamber 23 through the air vent 25 and is released over the entire surface through the pores of the breathable thin plate 24 to paint the front face of the pattern adjusting member 22. Since the particles are prevented from adhering, it is effectively prevented that the quality of the steel is brought about by the adhesion of the paint particles and the intermittent peeling with the coagulated paint particles.

4 and 5 show another embodiment of a pattern adjusting member suitable for use in the spray nozzle of the present invention, wherein the pattern adjusting section 22 is a conical edge side coinciding with the inner wall surface of the conical element 18 of the paint guide member 5. And a front end portion 31 having a conical outer peripheral side 19 formed to form a conical annular gap 29 as shown in FIGS. 1 and 2 between the rear end portion 30 having a and the inner wall surface of the conical element 18. An air chamber 23 having a conical front part 32 and a salvage barrel rear part 33 which is opened in the part 31 over the front face of the front end face of the pattern adjusting member, and the front end opening of the air chamber 23 is formed in a porous sheet 24 made of porous material. The inside of the air chamber 23 is communicated with the compressed air passage 17 by the air cylinder 25 through the rear end 30. In the side wall 34 of the cylindrical rear part 33 of the air chamber 23, several through-holes 35 each having a tangential direction on the inner wall face thereof are laid at equal intervals.

In this pattern adjusting member 22, the compressed air supplied from the compressed air passage 17 into the air chamber 23 is formed through the through holes 35 and the inner wall surface of the conical element 18 of the paint guide member 5 and the conical outer circumference of the front end 31 of the pattern adjusting member 22. It is ejected into a conical annular gap 29 formed between the side surfaces 19 and is circulated along the circumference of the gap and discharged in a tangential direction across the entire circumference at the front end opening of the gap 4 so that the hollow nozzle 1 and the paint guide member 5 At the annular interval 4 therebetween, the paint particles are sprayed along the edge side 2 of the paint guide member from the inside thereof to adjust the spray pattern. On the other hand, a part of the compressed air in the air chamber 23 is discharged over the entire surface through each pore of the breathable thin plate 24 to prevent the paint particles from adhering to the front end face of the pattern adjusting member 22.

6 and 7 show another embodiment of a pattern adjusting member suitable for use in the spray nozzle of the present invention. In the case of using this pattern adjusting member 22, the diameter of the front face of the pattern adjusting member 22 is approximately opposite to the conical element at the front end of the paint guide member 5. A cavity 37 having a cylindrical diameter 36 having a diameter of approximately and opening in this shear surface is provided on the same axis and the cavity is communicated with the compressed air passage 17. The pattern adjusting member 22 has an outer side surface 19 of a cylindrical shape or an end cylindrical shape as shown in the drawing, and forms a cylindrical air chamber 23 having a relatively large diameter which is opened forwardly therein. A plurality of through holes 35 each having a tangential direction on the inner sidewall 34 of the edge sidewall 34 of the edges are arranged at equal intervals. The pattern adjusting member 22 having such a structure is located in the same plane as the front face of the paint guide member 5 and the front face of the pattern adjusting member, and the front end of the cavity 37 is kept in the cavity 37 so as to be hermetically closed by the pattern adjusting member. The shaft is fitted with a shaft and the interior of the cavity 37 and the interior of the air chamber 23 communicate with each other through the through holes 35. Therefore, the compressed air supplied from the compressed air passage 17 into the cavity 37 is introduced into the air chamber 23 through each through hole 35, and reaches the front opening of the air chamber while turning along the inner wall of the air chamber 23. The hollow nozzle 1 and the paint guide member 5 are discharged together along the shear surface of the pattern adjusting member 22 and the paint guide member 5 located in the same plane by the centrifugal force due to the pivoting movement toward the front edge of the front end of the paint guide member. It is mounted from the inside to the paint particle stream sprayed along the edge side 2 of the paint guide member from the annular spacing 4 between the and to effect an effective pattern adjustment. On the other hand, in the pattern adjusting member 22, compressed air for pattern adjustment flows in accordance with the front end surfaces of the pattern adjusting member 22 and the paint guide member 5, so that the pattern adjusting member 22 can be removed as in the embodiment shown in FIGS. It is not necessary to install breathable thin plates in the shear.

In the embodiment shown in FIG. 6, the pattern adjustment member 22 and the paint guide member 5 each have a shear surface that is approximately perpendicular to its axis, but if desired, an annular conical front that widens forward with a relatively large equal angle. You may have a cross section.

As apparent from the above description, the spray nozzle for powder coating of the present invention effectively and reliably adjusts the pattern of paint particles to be sprayed over a wide range by a simple operation of controlling and changing the pressure, speed, and flow rate of the compressed air for adjustment only. It is possible to achieve extremely useful effects.

Claims (1)

Shear section having a cylindrical hollow nozzle (1) having an annular shear edge, the rear end of which is connected to the powder coating pipe (6), and a conical or concave conical edge side (2) whose radius gradually increases toward the front And a paint guide member (5) in which the hollow side of the hollow nozzle (1) has its edge side separated from the nozzle inner wall surface (3) and arranged in the same axis so that the hollow nozzle is stretched from the front end to the front side. The compressed air passage for adjustment is installed through the central portion of the paint guide member 5 in the axial direction and connected to the compressed compressed air supply pipe 7 for extending the inside of the powder paint supply pipe 6, which has its rear end, coaxially. (17) and inside the front end portion of the above-mentioned paint guide member 5, are provided in the same axis, the front end is opened over approximately the entire front surface of the front end surface of the paint guide member 5, the rear end is electric One adjustable compression ball A conical chamber 18 in communication with the passage 17, and a shear portion having a conical edge side surface approximately equal to the corner angle of the conical chamber 18 whose right angle is described above, and the same in the aforementioned conical chamber 18. A conical annular adjustment compressed air discharge passage communicating with the adjustment compressed air passage (17), which is arranged axially and is communicated between the edge side of the front end of the shear section and the inner wall surface of the front end of the conical chamber (18), The pattern adjusting member 22 having a substantially conical object or a substantially conical shape, and the compressed air passage 17 for adjustment provided in the front end portion of the pattern adjusting member 22 described above and communicating with the pattern adjusting member 22. And the air permeable thin plate 24 made of a porous material for closing the front opening of the air chamber 23 and the air chamber 23 opened over the entire front surface of the front end surface of the member 22. Characteristic A hollow nozzle (1) and the coating material guide member (5) between the annular gap (4) the powder coating material to adjust the spray pattern fineness enteric spray nozzle that can be emitted through the with.