KR102653970B1 - Apparatus for spraying high viscosty liquid - Google Patents

Abstract

The present invention relates to a high-viscosity spray device for spraying a high-viscosity fluid, comprising a needle part for injecting first air, a first cylinder part for moving the needle part forward and backward, and a first cylinder part for providing forward and backward driving force to the first cylinder part. 2. It is characterized by comprising a cylinder part, a mixing part that heats and mixes the high-viscosity fluid and the second air, and a nozzle part that injects the high-viscosity fluid together with the second air and the first air. Therefore, the present invention improves the injection performance of the high-viscosity fluid by mixing the high-viscosity fluid with the first air and the second air and spraying the needle portion, the first cylinder portion, the second cylinder portion, the mixing portion, and the nozzle portion. At the same time, it provides the effect of preventing coagulation of high-viscosity fluids and clogging of nozzles.

Description

High viscosity spray device {APPARATUS FOR SPRAYING HIGH VISCOSTY LIQUID}

The present invention relates to a high-viscosity spray device, and more specifically, to a high-viscosity spray device that heats a high-viscosity fluid to a high temperature and sprays it together with air.

In general, painting involves forming a paint layer on the outside or inside by spraying high-viscosity paint or fluid. Painting is done by spraying liquid paint with a certain viscosity at a certain pressure.

In such a conventional high-viscosity paint spraying device, a certain spraying pressure is provided as oil is supplied by a pumping device, and paint is sprayed by this spraying pressure to achieve painting.

In particular, the pressure-resistant type, gear pump type, screw pump type, and airless pump type are mainly used as supply devices for such high-viscosity fluids. The pressure-resistant type seals the dissolution tank and then uses air pressure to increase the internal pressure of the dissolution tank. This is a method of transferring the high-temperature, high-viscosity composition inside the dissolution tank using the pressure.

In addition, in the pressure-resistant supply device, the pressure applied to the dissolution tank varies depending on the amount of composition remaining inside the dissolution tank, so the operator must frequently adjust the pressure by comparing it with the amount remaining inside the dissolution tank, which is inconvenient. There were also problems that caused inconvenience.

However, recently, high-viscosity paints with high fire resistance have been used to resist high temperatures such as fire or heat generation for a long time. These high-viscosity fire-resistant paints have a higher viscosity than regular paints, causing the phenomenon of solidification inside conventional spraying devices. This occurs.

This coagulation phenomenon causes a pulsation phenomenon, which causes a problem in that a sufficient amount is not supplied consistently. Accordingly, there is an urgent need for the development of a technology that can continuously maintain paint spraying ability by smoothly maintaining the transfer and supply of fireproof paint with high viscosity.

In addition, the composition supplied from the dissolution tank to the sprayer by the high-viscosity fluid supply device is sprayed through the spray nozzle by compressed air supplied to the sprayer from the air compressor. At this time, the composition is sprayed due to the temperature difference between the composition and the compressed air. There was also a problem in that the temperature dropped momentarily just before spraying, causing a decrease in the quality of the construction.

Republic of Korea Patent No. 10-2028782 (October 4, 2019) Republic of Korea Patent Publication No. 10-2015-0009367 (January 26, 2015) Republic of Korea Patent No. 10-2254361 (May 20, 2021)

The present invention was devised to solve the above-described conventional problems. By providing a needle part, a first cylinder part, a second cylinder part, a mixing part, and a nozzle part, the high-viscosity fluid can be mixed with the first air, the second air, and the nozzle part. The purpose is to provide a high-viscosity spray device that can improve the spraying performance of high-viscosity fluids by mixing and spraying them, while preventing coagulation of the high-viscosity fluids and clogging of the nozzle.

In addition, the present invention provides a first needle, a second needle, and a third needle as the needle part, thereby facilitating insertion and coupling inside the first cylinder part, the second cylinder part, the mixing part, and the nozzle part, and at the same time providing the first air Another purpose is to provide a high viscosity spray device that can improve the injection performance.

In addition, the present invention provides the third needle with a horizontal first needle hole and a plurality of obliquely branched second needle holes, so that the injection direction of the first air is branched into the horizontal direction and the oblique direction to spray the first air. Another purpose is to provide a high-viscosity spray device that can improve performance and at the same time improve mixing performance with high-viscosity fluids.

In addition, the present invention is provided with a first cylinder block, a first connection piece, a first support piece, a first moving piece, a first bullet piece, and a first entrance as the first cylinder portion, so that the needle portion inserted and installed inside moves forward and backward. Another purpose is to provide a high-viscosity spray device that facilitates and at the same time can change the spraying position of the needle part in various ways.

In addition, the present invention provides a forward and backward driving force to the first cylinder part and improves the support performance of the needle part by providing a second cylinder block, a second connection piece, a second support piece, and a second entrance as the second cylinder part. Another purpose is to provide a high viscosity spray device that can

In addition, the present invention includes a mixing block, a mixing hole, a first inlet, a second inlet, and a third inlet as a mixing section, thereby improving the injection performance and heating performance of the high-viscosity fluid and the fluidity of the high-viscosity fluid and the injection of air. Another purpose is to provide a high viscosity spray device that can improve fluidity.

In addition, the present invention is provided with a nozzle part, a nozzle piece, a spray piece, a cover piece, a first inlet, a second inlet, a first injection port, and a second injection port, thereby enabling triple mixing of the high-viscosity fluid, first air, and second air. Another purpose is to provide a high-viscosity spray device that can improve performance and spraying performance and improve branching performance and merging performance of first air and second air.

The present invention for achieving the above object is a high-viscosity spray device for spraying a high-viscosity fluid, including a needle portion 10 for injecting first air; A first cylinder unit (20) installed around the outer periphery of the needle unit (10) to move the needle unit (10) forward and backward; a second cylinder unit 30 installed downstream of the first cylinder unit 20 to provide forward and backward driving force to the first cylinder unit 20; A mixing unit 40 installed downstream of the second cylinder unit 30 to heat and mix the high-viscosity fluid and the second air; And a nozzle unit 50 installed downstream of the mixing unit 40 to spray the mixed high-viscosity fluid and the second air together with the first air of the needle unit 10. .

The needle unit 10 of the present invention includes a first needle installed inside the first cylinder unit 20; a second needle connected to one end of the first needle and installed inside the second cylinder unit 30 and the mixing unit 40; And a third needle connected to one end of the second needle and installed inside the nozzle unit 50.

The third needle of the present invention includes a first needle hole formed in the horizontal direction of the needle portion 10; and a plurality of second needle holes inclined forward at a predetermined angle with respect to the first needle hole.

The second needle hole of the present invention is characterized in that it is inclined outward at an inclination angle of 10 to 30 degrees with respect to the first needle hole.

The first cylinder unit 20 of the present invention includes a first cylinder block in which an internal space is formed to allow the needle unit 10 to be inserted; a first connection piece installed at one end of the first cylinder block; a first support piece installed inside the first cylinder block to support the needle portion 10; a first moving piece installed to move inside the first cylinder block; a first impact piece installed between the first support piece and the first moving piece to support the first support piece; and a first entrance formed through one side of the internal space of the first cylinder block.

The second cylinder unit 30 of the present invention includes a second cylinder block in which an internal space is formed to allow the needle unit 10 to be inserted; a second connection piece installed at one end of the second cylinder block; a second support piece installed inside the second connection piece to support the needle portion (10); and a second entrance formed through one side of the internal space of the second cylinder block.

The mixing unit 40 of the present invention includes a mixing block in which an internal space is formed to allow the needle unit 10 to be inserted; A mixing hole formed through the interior of the mixing block and into which the needle portion 10 is installed; a first inlet through which high-viscosity fluid is injected into one side of the mixing block; a second inlet through which heat from a heat source is injected into a side of the mixing block; and a third inlet through which second air is introduced into the other side of the mixing block.

The third inlet of the present invention is characterized in that a plurality of third communication holes are formed around the outer circumference of the nozzle unit 50, each branching and communicating.

The nozzle unit 50 of the present invention includes a nozzle piece installed at one end of the mixing unit 40; A spray piece installed at one end of the nozzle piece; a cover piece covering one end of the nozzle piece to secure the spray piece; a first inlet formed through the interior of the nozzle piece; a plurality of second inlets formed through an outer circumference of the nozzle piece; a plurality of first injection nozzles formed around the inner circumference of the injection piece to be joined; and a plurality of second injection nozzles branched around the outer periphery of the injection piece.

A plurality of the first injection nozzles of the present invention are formed horizontally so that they are joined at the center of the nozzle piece, and the second nozzles are formed to be inclined inward from the outer periphery toward the center so that a plurality of the second nozzles are combined at the center of the nozzle piece. It is characterized by having

As seen above, the present invention is provided with a needle part, a first cylinder part, a second cylinder part, a mixing part, and a nozzle part, so that the high-viscosity fluid is triple mixed with the first air and the second air and then sprayed to produce the high-viscosity fluid. It improves injection performance and prevents coagulation of high-viscosity fluids and clogging of nozzles.

In addition, by providing a first needle, a second needle, and a third needle as the needle part, it is easy to insert and couple the inside of the first cylinder part, the second cylinder part, the mixing part, and the nozzle part, and at the same time, the injection performance of the first air is improved. Provides effects that can improve.

In addition, by providing the third needle with a horizontal first needle hole and a plurality of obliquely branched second needle holes, the injection direction of the first air is divided into the horizontal direction and the oblique direction, thereby improving the injection performance of the first air. At the same time, it provides the effect of improving mixing performance with high-viscosity fluids.

In addition, the first cylinder part is provided with a first cylinder block, a first connection piece, a first support piece, a first moving piece, a first bullet piece, and a first entrance, thereby facilitating forward and backward movement of the needle portion inserted and installed inside. At the same time, it provides the effect of being able to change the injection position of the needle part in various ways.

In addition, by providing a second cylinder block, a second connection piece, a second support piece, and a second entrance as the second cylinder portion, it is possible to provide forward and backward driving force to the first cylinder portion and at the same time improve the support performance of the needle portion. provides.

In addition, by providing a mixing block, a mixing hole, a first inlet, a second inlet, and a third inlet as a mixing section, the inlet performance and heating performance of high-viscosity fluid are improved while the fluidity of high-viscosity fluid and the inlet and fluidity of air are improved. Provides effects that can be improved.

In addition, by providing the nozzle part with a nozzle piece, a spray piece, a cover piece, a first inlet, a second inlet, a first injection port, and a second injection port, triple mixing performance and injection of the high-viscosity fluid, the first air, and the second air are achieved. It improves performance and provides the effect of improving the branching performance and merging performance of the first air and second air.

1 is a configuration diagram showing a high-viscosity spray device according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a high-viscosity spray device according to an embodiment of the present invention.
Figure 3 is a cross-sectional perspective view showing a high-viscosity spray device according to an embodiment of the present invention.
Figure 4 is an exploded perspective view showing a high-viscosity spray device according to an embodiment of the present invention.
Figure 5 is a detailed view showing the nozzle portion of a high-viscosity spray device according to an embodiment of the present invention.
Figure 6 is a detailed view showing the nozzle portion of a high-viscosity spray device according to an embodiment of the present invention.
Figure 7 is a detailed cross-sectional view showing a portion of the needle portion of a high-viscosity spray device according to an embodiment of the present invention.
Figure 8 is a detailed perspective view showing a portion of the needle portion of a high-viscosity spray device according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1 is a configuration diagram showing a high-viscosity spray device according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a high-viscosity spray device according to an embodiment of the present invention, and Figure 3 is a schematic diagram showing a high-viscosity spray device according to an embodiment of the present invention. It is a cross-sectional perspective view showing a high-viscosity spray device, Figure 4 is an exploded perspective view showing a high-viscosity spray device according to an embodiment of the present invention, and Figure 5 is a detailed view showing a nozzle portion of a high-viscosity spray device according to an embodiment of the present invention. , Figure 6 is a detailed view showing a nozzle part of a high-viscosity spray device according to an embodiment of the present invention, Figure 7 is a detailed cross-sectional view showing a part of the needle part of a high-viscosity spray device according to an embodiment of the present invention, and Figure 8 is This is a detailed perspective view showing a part of the needle portion of a high-viscosity spray device according to an embodiment of the present invention.

As shown in Figures 1 to 4, the high-viscosity spray device according to this embodiment includes a needle part 10, a first cylinder part 20, a second cylinder part 30, a mixing part 40, and a nozzle part. It is a high-viscosity spray device that includes (50) and sprays a high-viscosity fluid.

The needle unit 10 is a needle member that injects the first air, and is inserted and installed inside the first cylinder unit 20, the second cylinder unit 30, the mixing unit 40, and the nozzle unit 50. , It consists of a first needle (11), a second needle (12), and a third needle (13).

The first needle 11 is a needle member inserted and installed in the central portion of the inside of the first cylinder unit 20, and first air, such as high-pressure compressed air, flows into the first needle 11. The inflow passage is formed as penetrating as possible.

The second needle 12 is a needle member connected to one end of the first needle 11 and inserted and installed in the central portion of the interior of the second cylinder portion 30 and the mixing portion 40. This second needle An inflow passage is formed through the interior of (12) to allow first air to flow in.

The third needle 13 is a needle member connected to one end of the second needle 12 and inserted into and installed in the central portion of the nozzle portion 50. Inside the third needle 13 is a first needle 13. An inflow passage is formed through the inlet to allow air to flow in.

In addition, the third needle 13, as shown in FIGS. 5 to 8, moves forward with respect to the first needle hole 13a formed in the horizontal direction of the needle portion 10 and the first needle hole 13a. It includes a plurality of second needle holes 13b that are inclined at a predetermined angle.

It is possible that these second needle holes (13b) are formed inclined at an inclination angle (θ) of 10 to 30° with respect to the first needle hole (13a) so that a plurality of them branch outward from the first needle hole (13a). Of course.

The first cylinder unit 20 is a cylinder member installed around the outer periphery of the needle unit 10 to move the needle unit 10 forward and backward. As shown in FIGS. 2 to 4, the first cylinder block 21, It consists of a first connection piece (22), a first support piece (23), a first moving piece (24), a first coal piece (25), and a first entrance (26).

The first cylinder block 21 is a block member in which an internal space is formed to insert the needle portion 10, and the internal space of the first cylinder block 21 has a sliding space so that the first moving piece 24 slides. This is formed.

The first connecting piece 22 is a connecting member installed at one end of the first cylinder block 21, and an insertion hole is formed through the inside of the first connecting piece 22 so that the needle portion 10 can be inserted and supported. , an eleventh sealing member 22a, such as an O-ring, is installed in the sealing groove recessed inside the insertion hole.

The first support piece 23 is a support member installed inside the first cylinder block 21 to support the needle portion 10, and is coupled to one side of the first moving piece 24 to form the first moving piece ( 24), the inner sliding space of the first cylinder block 21 moves.

An insertion hole is formed through the inside of the first support piece 23 so that the needle portion 10 can be inserted and supported, and a twelfth sealing member 23a such as an O-ring is provided in the sealing groove recessed inside the insertion hole. It is installed.

The first moving piece 24 is a moving member installed to slide forward and backward in the inner sliding space of the first cylinder block 21, and the sealing groove recessed around the outer circumference of the first moving piece 24 has an O-ring. A thirteenth sealing member 24a such as the like is installed.

The first support piece 25 is a support member such as a coil spring that is installed between the first support piece 23 and the first moving piece 24 and supports the first support piece 23. It is inserted into the inside of (23) and is pressed against one end of the first moving piece (24) to push the first support piece (23) backward.

The first entrance 26 is an entrance member formed through one side of the internal space of the first cylinder block 21, and is connected to hydraulic equipment to provide hydraulic pressure to provide a driving force for the sliding movement of the first moving piece 24. It is allowed to flow in and out.

The second cylinder unit 30 is a cylinder member installed downstream of the first cylinder unit 20 and provides forward and backward driving force to the first cylinder unit 20, as shown in FIGS. 2 to 4. It consists of a second cylinder block (31), a second connection piece (32), a second support piece (33), and a second entrance (34).

The second cylinder block 31 is a block member in which an internal space is formed to insert the needle portion 10, and the driving force for the sliding movement of the first moving piece 24 is provided in the internal space of the second cylinder block 31. An inflow and outflow space where hydraulic pressure flows in and out is formed to provide.

The second connecting piece 32 is a connecting member installed at one end of the second cylinder block 31, and is installed to protrude from the inner end of the second cylinder block 31 to support the needle portion 10 to be inserted into the inside. do.

The second support piece 33 is a support member installed inside the second connection piece 32 to support the needle portion 10, and is inserted into the other inner end of the second cylinder block 31, and the second connection piece 32 ) is installed inside to support the needle portion (10).

A 21st sealing member 31a, such as an O-ring, is installed on the other end of the second support piece 33 and the inside of the second cylinder block 31, and at one end of the second support piece 33. A twenty-second sealing member 32a, such as an O-ring, is installed between the inside of the second connecting piece 32.

The second entrance 34 is an entrance member formed through one side of the internal space of the second cylinder block 31, and is connected to hydraulic equipment to provide hydraulic pressure to provide a driving force for the sliding movement of the first moving piece 24. It is allowed to flow in and out.

The mixing unit 40 is a mixing member installed downstream of the second cylinder unit 30 to heat and mix the high-viscosity fluid and the second air. As shown in FIGS. 2 to 4, the mixing block 41 and the mixing hole are (42), a first inlet (43), a second inlet (44), and a third inlet (45).

The mixing block 41 is a block member in which an internal space is formed into which the needle part 10 is inserted. Inside the mixing block 41, a high-viscosity fluid flows into a heating space heated by an external heat source and a second air An inflow space is formed where the inflow is introduced.

The mixing hole 42 is a hole member formed through the inside of the mixing block 41 and into which the needle portion 10 is installed. It is connected to the first inlet 43 and the second inlet 44, and is connected to the first inlet 43 and the second inlet 44. High-viscosity fluid flows in through (43) and forms a heating space heated by an external heat source through the second inlet (44).

The first inlet 43 is a hole member that communicates with one side of the mixing block 41 and is connected to a high-viscosity fluid supply facility into which high-viscosity fluid is input, and is a hole member through which various high-viscosity fluids such as paint, starch syrup, organic solvents, oil, and coating fluid are introduced. will be input.

The second inlet 44 is a hole member connected to the side of the mixing block 41 into which heat from a heat source such as a heater is input. It is connected to a heat source of a heating equipment such as a high-temperature blower or heater to input heat from the heat source. It will be done.

The third inlet 45 is a hole member through which second air, such as high-pressure compressed air, is introduced into the other side of the mixing block 41. These third inlets 45 are located on the outer periphery of the nozzle unit 50. Of course, it is possible for a plurality of third communication holes 45a to be branched and communicate with each other to be formed.

The nozzle unit 50 is a nozzle member installed downstream of the mixing unit 40 and injects the mixed high-viscosity fluid and the second air together with the first air of the needle unit 10, as shown in FIGS. 3 to 6. As shown, it consists of a nozzle piece 51, an injection piece 52, a cover piece 53, a first inlet 54, a second inlet 55, a first injection port 56, and a second injection port 57. .

The nozzle piece 51 is a nozzle member installed at one end of the mixing unit 40, and an insertion space is formed in the central portion thereof to allow the needle unit 10 to be inserted into the mixing hole 42 of the mixing unit 40. It is connected to communicate with.

The spraying piece 52 is a spraying member installed at one end of the nozzle piece 51. A first spraying hole 56 is formed in the inner central portion between the nozzle piece 51 and a plurality of jetting holes 56 are formed around the outer circumference. The second injection ports 57 are spaced apart.

The cover piece 53 is a cover member that covers one end of the nozzle piece 51 to fix the spray piece 52, and is fitted around the outer circumference of the spray piece 52 to form a cover for the nozzle piece 51. It is screwed together at one end to fix the spray piece 52 to one end of the nozzle piece 51.

The first inlet 54 is a hole member formed through a central portion of the inside of the nozzle piece 51, and the needle portion 10 is inserted and coupled thereto so as to slide forward and backward, so that the first air flows in and mixes. It is in communication with the mixing hole 42 of the unit 40, and a high-viscosity fluid heated to a high temperature by the heat of the heat source is introduced together.

The second inlet 55 is a hole member formed through a plurality of spaced, inwardly inclined hole members around the outer periphery of the nozzle piece 51, and communicates with the third communication hole 45a of the mixing section 40 to provide a second inlet. Air flows in.

The first injection port 56 is a hole member formed so that a plurality of the first injection ports 56 are joined together around the inner circumference of the spray piece 52. The first spray port 56 has a plurality of second inlet ports 55 located at the center of the nozzle piece 51. Of course, it is possible to form it horizontally so that it can be joined.

The second injection port 57 is a hole member formed in a plurality of branches around the outer periphery of the injection piece 52. This second injection hole 57 has a plurality of second inlets 55 at the center of the nozzle piece 51. Of course, it is possible to be formed sloping inward from the outer circumference toward the center so that it can be joined.

As described above, according to the present invention, by providing a needle part, a first cylinder part, a second cylinder part, a mixing part, and a nozzle part, the high-viscosity fluid is triple mixed with the first air and the second air and sprayed to produce the high-viscosity fluid. It improves spraying performance while preventing coagulation of high-viscosity fluids and clogging of nozzles.

In addition, by providing a first needle, a second needle, and a third needle as the needle part, it is easy to insert and couple the inside of the first cylinder part, the second cylinder part, the mixing part, and the nozzle part, and at the same time, the injection performance of the first air is improved. Provides effects that can improve.

In addition, by providing the third needle with a horizontal first needle hole and a plurality of obliquely branched second needle holes, the injection direction of the first air is divided into the horizontal direction and the oblique direction, thereby improving the injection performance of the first air. At the same time, it provides the effect of improving mixing performance with high-viscosity fluids.

In addition, the first cylinder part is provided with a first cylinder block, a first connection piece, a first support piece, a first moving piece, a first bullet piece, and a first entrance, thereby facilitating forward and backward movement of the needle portion inserted and installed inside. At the same time, it provides the effect of being able to change the injection position of the needle part in various ways.

In addition, by providing a second cylinder block, a second connection piece, a second support piece, and a second entrance as the second cylinder portion, it is possible to provide forward and backward driving force to the first cylinder portion and at the same time improve the support performance of the needle portion. provides.

In addition, by providing a mixing block, a mixing hole, a first inlet, a second inlet, and a third inlet as a mixing section, the inlet performance and heating performance of high-viscosity fluid are improved while the fluidity of high-viscosity fluid and the inlet and fluidity of air are improved. Provides effects that can be improved.

In addition, by providing the nozzle part with a nozzle piece, a spray piece, a cover piece, a first inlet, a second inlet, a first injection port, and a second injection port, triple mixing performance and injection of the high-viscosity fluid, the first air, and the second air are achieved. It improves performance and provides the effect of improving the branching performance and merging performance of the first air and second air.

The present invention described above can be implemented in various other forms without departing from its technical idea or main features. Therefore, the above embodiment is merely an example in all respects and should not be construed as limited.

10: Needle part
20: first cylinder part
30: Second cylinder part
40: mixing section
50: nozzle part

Claims (10)

delete delete A high-viscosity spray device that sprays a high-viscosity fluid,
Needle part 10 for introducing first air;
A first cylinder unit (20) installed around the outer periphery of the needle unit (10) to move the needle unit (10) forward and backward;
a second cylinder unit 30 installed downstream of the first cylinder unit 20 to provide forward and backward driving force to the first cylinder unit 20;
A mixing unit 40 installed downstream of the second cylinder unit 30 to heat and mix the high-viscosity fluid and the second air; and
A nozzle unit 50 is installed downstream of the mixing unit 40 and sprays the mixed high-viscosity fluid and the second air together with the first air of the needle unit 10,
The needle part 10 is,
A first needle installed inside the first cylinder unit 20;
a second needle connected to one end of the first needle and installed inside the second cylinder unit 30 and the mixing unit 40; and
It includes a third needle connected to one end of the second needle and installed inside the nozzle unit 50,
The third needle is,
a first needle hole formed in the horizontal direction of the needle portion 10; and
A high-viscosity spray device comprising a plurality of second needle holes inclined forward at a predetermined angle with respect to the first needle hole. According to claim 3,
The second needle hole is a high-viscosity spray device, characterized in that the second needle hole is inclined outward at an inclination angle of 10 to 30 degrees with respect to the first needle hole. A high-viscosity spray device that sprays a high-viscosity fluid,
Needle part 10 for introducing first air;
A first cylinder unit (20) installed around the outer periphery of the needle unit (10) to move the needle unit (10) forward and backward;
a second cylinder unit 30 installed downstream of the first cylinder unit 20 to provide forward and backward driving force to the first cylinder unit 20;
A mixing unit 40 installed downstream of the second cylinder unit 30 to heat and mix the high-viscosity fluid and the second air; and
A nozzle unit 50 is installed downstream of the mixing unit 40 and sprays the mixed high-viscosity fluid and the second air together with the first air of the needle unit 10,
The first cylinder unit 20,
a first cylinder block in which an internal space is formed to allow the needle portion 10 to be inserted;
a first connection piece installed at one end of the first cylinder block;
a first support piece installed inside the first cylinder block to support the needle portion 10;
a first moving piece installed to move inside the first cylinder block;
a first impact piece installed between the first support piece and the first moving piece to support the first support piece; and
A high-viscosity spray device comprising a first entrance and exit formed through one side of the internal space of the first cylinder block. A high-viscosity spray device that sprays a high-viscosity fluid,
Needle part 10 for introducing first air;
A first cylinder unit (20) installed around the outer periphery of the needle unit (10) to move the needle unit (10) forward and backward;
a second cylinder unit 30 installed downstream of the first cylinder unit 20 to provide forward and backward driving force to the first cylinder unit 20;
A mixing unit 40 installed downstream of the second cylinder unit 30 to heat and mix the high-viscosity fluid and the second air; and
A nozzle unit 50 is installed downstream of the mixing unit 40 and sprays the mixed high-viscosity fluid and the second air together with the first air of the needle unit 10,
The second cylinder unit 30,
a second cylinder block in which an internal space is formed to allow the needle portion 10 to be inserted;
a second connection piece installed at one end of the second cylinder block;
a second support piece installed inside the second connection piece to support the needle portion (10); and
A high viscosity spray device comprising a second entrance and exit formed through one side of the inner space of the second cylinder block. The method according to any one of claims 3, 5 and 6,
The mixing section 40,
a mixing block with an internal space formed into which the needle part 10 is inserted;
a mixing hole formed through the interior of the mixing block and into which the needle portion 10 is installed;
a first inlet through which high-viscosity fluid is injected into one side of the mixing block;
a second inlet through which heat from a heat source is injected into a side of the mixing block; and
A high viscosity spray device comprising a third inlet through which second air is introduced into the other side of the mixing block. According to claim 7,
The third inlet is a high-viscosity spray device, wherein a plurality of third communication holes are formed around the outer circumference of the nozzle unit 50, each branching and communicating. The method according to any one of claims 3, 5 and 6,
The nozzle unit 50,
a nozzle piece installed at one end of the mixing unit 40;
A spray piece installed at one end of the nozzle piece;
a cover piece covering one end of the nozzle piece to secure the spray piece;
a first inlet formed through the interior of the nozzle piece;
a plurality of second inlets formed through an outer circumference of the nozzle piece;
a plurality of first injection nozzles formed around the inner circumference of the injection piece to be joined; and
A high-viscosity spray device comprising a plurality of second injection nozzles branched around the outer periphery of the injection piece. According to clause 9,
A plurality of the first injection nozzles are formed horizontally so that they are joined at the center of the nozzle piece,
A high-viscosity spray device, wherein a plurality of second injection nozzles are inclined inward from the outer periphery toward the center so that they are joined at the center of the nozzle piece.

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