KR20190129391A - Portable type low-pressure polyurethane foam spray machine - Google Patents

Abstract

According to the present invention, provided is a portable low-pressure polyurethane foam spray device. In order to easily fill a cylindrical body with air and efficiently collect air while enabling the miniaturization of a device, and to damp pulsations produced during a fluid transfer procedure by easily discharging floating matter hardened in the cylindrical body while being carried as a small size and enabling a main material and a hardening material to be mixed and sprayed to the outside efficiently through compressed air from a low-pressure air compressor, an accumulator (100) forms an internal space, enables fluids, which flow into the bottom of a cylindrical body (110) having a narrow and relatively tall shape through a fluid inflow pipe (120), to be discharged to the bottom of the cylindrical body (110) through a fluid discharge pipe (130), and receives additional air from the air compressor (350) through the upper part of the cylindrical body (110) while damping pulsations produced during the procedure of transferring the fluids to the piston pump (320). Meanwhile, a spray gun (200) applies compressed air to the main material and the hardening material, which are going through a chamber (221) and a static mixer (222) of a nozzle part (220), through an air flow path (211), thereby increasing efficiency in mixture and spraying to the outside.

Description

Portable low-pressure polyurethane foam spray machine

The present invention relates to a portable low pressure polyurethane foam spraying device, and more particularly, to reduce the pulsation generated during the fluid transfer process while carrying a compact size, and to increase the efficiency of mixing and spraying the main material and the curing agent to the outside. A low pressure polyurethane foam spray apparatus.

Various polyurethane foam spray devices have been developed and used to improve the appearance of walls inside and outside the building, and to apply the liquid polyurethane filled in the raw material storage container to the outside to be hardened and applied for soundproofing, moisture proofing, dustproofing, and thermal insulation.

Figure 1 shows a schematic block diagram of a conventional polyurethane foam spray device.

As shown in FIG. 1, the conventional polyurethane foam spray device 30 includes a raw material storage container 31, a piston pump 32, a heater 33, an accumulator 10, and a manifold 34. And a spray gun 20 and an air compressor 35.

The raw material storage container 31, the two raw materials to form a polyurethane foam to accommodate the main body and the curing agent in the liquid phase.

The piston pump 32 transfers the two liquid raw materials stored in the raw material storage container 31 to the fluid and applies pressure required for mixing and spraying the spray gun 20.

The heater 33 lowers the viscosity by heating the main body and the hardener, which are fluids transferred to the high viscosity state through the piston pump 32, to be easily mixed and sprayed in the spray gun 20.

The accumulator 10 reciprocates the piston pump 32 when a pressure necessary to transfer the fluid from the raw material storage container 31 to the spray gun 20 is applied from the piston pump 32. Operationally damps the pulsation (fluctuation) to ensure a constant pressure transmission to the spray gun 20.

The manifold 34 receives a fluid having a low viscosity through the heater 33 and distributes the fluid to the spray gun 20.

The spray gun 20 mixes and dispenses the main and hardeners dispensed from the manifold 34 to the outside.

The air compressor (35) is connected to the spray gun (20) by a connection pipe to supply compressed air.

In the conventional polyurethane foam spray device 30 as described above, it is important that both raw materials are supplied in a constant amount as a fluid every moment, so as to realize stable quality of the polyurethane foam through mixing and fine and even spraying. The accumulator 10 which is a component part is also variously applied.

Figure 2 shows the operating state of the accumulator as applied to the conventional polyurethane foam spray device.

As shown in FIG. 2, a conventional accumulator 10 includes a cylinder 11 having a space therein and having a cylindrical shape, and a bag 12 accommodated in the cylinder 11 internal space.

The cylinder 11 has a through hole through which a fluid to be conveyed connected to the fluid transfer pipe is introduced and discharged at a bottom thereof, and an injection hole for injecting the compressible gas of the bag 12 is formed at an upper portion thereof.

The bag 12 applies a flexible material such as rubber to fill the compressible gas therein, thereby adjusting the filling pressure according to the pressure range used while separating the gas and the fluid.

When the fluid having the pulsation generated by the piston pump 32 flows in through the bottom of the cylinder 11 through the connecting pipe, the pulsation is attenuated while the volume of the bag 12 changes.

Since the conventional accumulator 10 is difficult to miniaturize and is used for medium and large equipment, the price is high, and the physical properties of the bag 12 accommodated inside the cylinder 11 must be fluidly compatible, so that the high pressure large equipment And for special purposes.

Figure 3 shows the operating state of another accumulator applied to the conventional polyurethane foam spray device.

The conventional other accumulator 10 ', as shown in Figure 3, forms a space therein and has the outer shape of the cylinder, the through-hole through which the fluid to be transferred and connected to the fluid transfer pipe via the connection pipe at the bottom is introduced and discharged Is formed.

And when the fluid having the pulsation generated by the piston pump 32 is introduced into the state in the state of filling the air through the through-hole, the volume of the air filled therein is changed to attenuate the pulsation.

The conventional accumulator (10 '), which is generally easy and simple to apply, is mainly used for low viscosity fluids, but the vertical direction of the upper portion via the connecting pipe in the middle in a state where the fluid transfer pipe is horizontally installed from one side to the other side It is not easy to fill the air through the air through the air inlet, and it is difficult to separate the air in a small pipe or at a high conveying speed. It becomes difficult, so that the air consumption of the pre-filled inside of the fluid is introduced and discharged in advance, and moreover, it is difficult to discharge the suspended solids reacted with the air inside, which is not suitable for the compact low pressure device.

From this, in the polyurethane spray device, especially small volume high-viscosity fluid transfer requires a low speed of the piston pump, so the period of pulsation is lowered, which makes the spray conditions very bad, reducing the periodic high and low pressure generated during operation of the piston pump. Therefore, there is a need for an accumulator capable of realizing the material properties of the fluid, pulsation damping, efficiency, low cost, and miniaturization.

In addition, when miniaturized for easy portability, the air compressor is also smaller and has a smaller capacity to supply a relatively low pressure to the spray gun, and the main body and the hardener cannot be sufficiently mixed and sprayed inside the spray gun to improve the quality of the polyurethane foam. It will have a bad effect.

In other words, the mixing of the two raw materials is usually done in a static mixer mounted in the chamber inside the spray gun. The quality of the polyurethane foam is very dependent on the mixing of the two raw materials, so it passes through the chamber and the static mixer inside the spray gun. In this process, efficient mixing should be achieved, but the relative low pressure makes it difficult to achieve sufficient mixing of the two raw materials.

In addition, when the two mixed raw materials are sprayed out through the chamber inside the spray gun and the static mixer, only a relatively low pressure of the air compressor is applied, thus making it difficult to obtain fine and even droplets to obtain high spray efficiency.

4A and 4B, an air compressor is connected to the rear end of the static mixer near the end of the raw material reservoir and the spray gun nozzle, and the compressed air supplied therein is the source of the two raw materials passed through the static mixer. While helping to spray the mixture to the outside, there was a problem that does not affect the mixing of the two raw materials through the nozzle and the internal chamber of the nozzle portion of the spray gun.

The present invention is to solve the above problems, while making the miniaturization of the device, it is possible to easily fill the cylinder with high efficiency and efficient collection, and to easily discharge the hardened suspended matter in the cylinder in the fluid transfer process It is an object of the present invention to provide a portable low pressure polyurethane foam spraying device which attenuates pulsations generated and carries small size and efficiently mixes a main material and a curing agent as raw materials and sprays it to the outside through a low pressure air compressor compressed air.

In order to solve the above problems, the present invention, the raw material storage container 310, the piston pump 320, the heater 330, the accumulator 100, the manifold 340, the spray gun 200 And an air compressor (350) comprising: a portable low pressure polyurethane foam spraying device (300), wherein the accumulator (100) comprises: a cylinder (110) having a space therein and having a relatively high appearance; By connecting the bottom of the cylindrical body 110 and the fluid transfer pipe for transferring the fluid which is a liquid raw material of the raw material storage container 310, the fluid transferred through the piston pump 320 is the cylindrical body 110 Fluid inlet pipe 120 to be introduced into the interior of the; And a lower portion of the cylindrical body 110 and a fluid transfer pipe for transferring fluid to the manifold 340 so that the fluid introduced into the bottom of the cylindrical body 110 flows into the cylindrical body 110. Fluid outflow pipe 130 to be discharged to the lower side of the; and the liquid raw material to the piston pump 320 while receiving a separate air from the air compressor 350 through the upper portion of the cylindrical body (110) The pulsation generated in the process of transporting the phosphorus fluid is attenuated, and the spray gun 200 includes an air flow passage 211 and a main flow passage 212 connected to the air compressor 350 and the raw material storage container 310, respectively. And a body 210 in which a hardener flow path 213 is formed; And a nozzle unit 220 in which the static mixer 222 is accommodated in the chamber 221 so as to mix the compressed air, the main body, and the hardener separately supplied through the respective flow paths of the body 210 and spray the outside. Compressed air is applied to the main body and the hardener passing through the chamber 221 and the static mixer 222 of the nozzle unit 220 through the air passage 211, thereby improving mixing and external spraying efficiency. A portable low pressure polyurethane foam spray device 300 is provided.

According to the portable low pressure polyurethane foam spraying device of the present invention having the above-mentioned solution, a fluid is introduced into a cylindrical body having a space therein and a narrow, relatively high external shape, so that the fluid flows into the bottom and flows out to the bottom side. By connecting the fluid inlet and outlet pipes to maintain flow, the polyurethane foam spray device can be miniaturized while facilitating air filling to the cylinder and improving the collection efficiency of the air contained in the fluid during the fluid transfer process. The fluid flowing in is easily discharged in contact with the air to harden the suspended solids there is an effect of damping the pulsation generated in the process of transporting the fluid as a liquid raw material to the piston pump.

At the same time, it is compact and portable, and the main material and the hardening agent are applied to the two raw materials and the compressed air supplied separately from the low pressure air compressor to pass through the chamber and the static mixer. The low-pressure air compressor can realize high-quality polyurethane foam, thereby simplifying the construction, lowering the manufacturing cost, and being easy to carry by the operator, thereby increasing work efficiency while applying to various working environments.

1 is a schematic block diagram of a conventional polyurethane foam spray device,
Figure 2 shows the operating state of the accumulator as applied to the conventional polyurethane foam spray device,
Figure 3 shows the operating state of another accumulator applied to the conventional polyurethane foam spray device,
4A and 4B show a conventional polyurethane foam injector and a nozzle portion of a spray gun applied to the injector,
Figure 5 is a schematic block diagram showing a portable polyurethane foam spray device according to an embodiment of the present invention,
Figure 6 shows the operating state of the accumulator of the portable low pressure polyurethane foam spray apparatus according to the embodiment of the present invention,
7A and 7B show the entire spray gun cross section and both sides of the portable low pressure polyurethane foam spray apparatus according to the embodiment of the present invention,
FIG. 8 schematically illustrates a state in which the compressed air of the air compressor is applied to the spray gun of FIGS. 7A and 7B.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to be described in detail so that those skilled in the art can easily implement the present invention. It is not intended that the technical spirit and scope of this invention be limited. Terms used to define relative positions such as front, rear, left, right, up and down, inside and outside are based on the accompanying drawings.

Figure 5 shows a schematic block diagram of a portable polyurethane foam spray device according to an embodiment of the present invention.

As shown in FIG. 5, the portable low pressure polyurethane foam spray device 300 according to the embodiment of the present invention has the same configuration as that of FIG. 1, except that only the accumulator and the spray gun are different. The detailed description will be omitted and the focus will be on differences.

The portable low pressure polyurethane foam spray apparatus 300 according to the embodiment of the present invention includes a raw material storage container 310, a piston pump 320, a heater 330, an accumulator 100, and a manifold 340. ), A spray gun 200 and an air compressor 350.

The air compressor 350 is connected to the accumulator 100 and the spray gun 200 by a connecting pipe, respectively, and supplies compressed air.

Figure 6 shows the operating state of the accumulator of the portable low pressure polyurethane foam spray apparatus according to the embodiment of the present invention.

As shown in FIG. 6, the accumulator 100 includes a cylindrical body 110 having a space therein and having a narrow and relatively high appearance, a bottom portion of the cylindrical body 110, and the raw material storage container. By connecting a fluid transfer pipe for transporting a fluid which is a liquid raw material of 31, the fluid inlet pipe for guiding the fluid transferred through the piston pump 32 to be introduced into the cylindrical body 110 in an upward direction ( 120 and the lower side of the cylindrical body 110 and the fluid transfer pipe for transferring the fluid to the manifold 34, the fluid flowing into the bottom of the cylindrical body 110 is the cylindrical body 110 It is provided with a fluid outlet pipe 130 for guiding to flow out to the lower side.

The accumulator 100 has a relatively high external shape while forming a space therein and narrowing the cylindrical body 110, so that the pulsation of the fluid due to the pressure generated in the piston pump 32, even if made compact Can be sufficiently damped, making it possible to miniaturize the polyurethane foam spray apparatus.

And the accumulator 100, when using a portable low pressure polyurethane foam spray device, when filling the air for the pulsation damping of the fluid into the cylindrical body 110 through the fluid inlet pipe 120 in advance, Since the fluid flows into the upper portion of the cylindrical body 110 without being oriented vertically through the bottom of the cylindrical body 110, it facilitates air filling to the cylindrical body 110.

In addition, the accumulator 100, the air contained in the fluid conveyed from the portable low pressure polyurethane foam spray device is raised upward through the fluid inlet pipe 120 to properly capture the inside of the cylindrical body (110). To do it.

When the fluid having the pulsation generated by the piston pump 32 is introduced into the cylindrical body 110 while the air is easily charged therein, the volume of the charged air therein changes and the pulsation is changed. Attenuation, even if there is a consumption of the air pre-filled in the cylinder 110 during the inflow and discharge of the fluid, the collection efficiency of the air contained in the fluid during the fluid transfer process is high, replenishment is made, Even during the inflow and outflow of the fluid to 110, the air compressor 350 may periodically fill air to stably attenuate the pulsation.

In addition, the accumulator 100 reacts with the fluid introduced into the bottom of the cylindrical body 110 in contact with the air therein, such that small suspended solids of the hardened fluid are allowed to flow through the fluid outlet pipe 130. It flows directly to the lower side of the side, so as not to interfere with the damping of the pulsation.

7A and 7B illustrate the entire cross section and both sides of the spray gun of the portable low pressure polyurethane foam spray apparatus according to the embodiment of the present invention, and FIG. 8 shows the compressed air of the air compressor in the spray gun of FIGS. 7A and 7B. The state that is applied is briefly shown.

The spray gun 200, as shown in Figure 7a and 7b, includes a form that can be operated by the operator by the hand, and each of the air compressor 350, the raw material storage container 310 and the connecting pipe The air flow passage 211, the main flow passage 212 and the hardener flow passage 213 connected to each other are formed so as to face each of the flow passages of the body 210 and the body 210 formed to penetrate from one side of the upper side to the other side. Compressed air, which is supplied separately through one end, is applied to the main body and the curing agent passing through the nozzle unit 220, and thus the static mixer 222 is formed in the chamber 221 constituting the inner space so as to increase the mixing and external spraying efficiency. ) May be accommodated, and the other end may be opened, and the nozzle unit 220 may be formed to have a thin and long spray hole 223.

In the body 210, the air passage 211, one end is connected to the air discharge pipe of the air compressor 350, the other end facing one end of the nozzle unit 220, the main flow path 212 and the curing agent flow path 213, one end is connected to the raw material discharge pipes of the raw material storage container 310, the other end is facing the one end of the nozzle unit 220, respectively.

In the nozzle unit 220, the chamber 221 accommodates the static mixer 222 and is supplied to the space formed between the static mixer 222 through the air flow path 211 of the body 210. Compressed air and the main flow passage 212 and the main flow passage and the curing agent supplied through the curing agent flow path 213 are mixed to be transferred to the static mixer 222, the static mixer 222 to the chamber 221 The incoming main material and the curing agent mix well and rotate to spray outward.

Therefore, in the portable low pressure polyurethane foam spray device 300 according to the embodiment of the present invention, the spray gun 200 transfers two raw materials of the raw material storage container 310 through the pressure of the piston pump 320, respectively. At the same time, a separate compressed air is supplied from the air compressor 210 as shown in FIG. 9, and the static mixer (2) mainly mixes the two raw materials with the chamber 221 of the nozzle unit 220 at a relatively low pressure. In the process of passing through the 222, the static mixer 222 is rotated more effectively, and thus the efficient mixing of the two raw materials of high viscosity can improve the quality of the polyurethane foam, which can be sprayed to the outside through the spray hole 223 Even when the compressed air is added to the mixture of the two raw materials together to form fine and even droplets to increase the spray efficiency.

This invention is not limited to the above embodiments, various modifications are possible within the scope of the invention described in the claims, and such modifications are also included within the scope of the invention.

100: accumulator 110: cylindrical body
120: fluid inlet pipe 130: fluid outlet pipe
200: spray gun 210: body
211: the air euro 212: the subject euro
213: hardener flow path 220: nozzle portion
221: Chamber 222: Static Mixer
223: spray hole
300: portable low pressure polyurethane foam spray device of the present invention
310: raw material storage container 320: piston pump
330: heater 340: manifold
350: air compressor

Claims (1)

Portable low pressure, which includes a raw material storage container 310, a piston pump 320, a heater 330, an accumulator 100, a manifold 340, a spray gun 200, and an air compressor 350. As the polyurethane foam spray device 300,
The accumulator 100 includes a cylindrical body 110 that forms a space therein and has a narrow and relatively high appearance; By connecting the bottom of the cylindrical body 110 and the fluid transfer pipe for transferring the fluid which is a liquid raw material of the raw material storage container 310, the fluid transferred through the piston pump 320 is the cylindrical body 110 Fluid inlet pipe 120 to be introduced into the interior of the; And a lower portion of the cylindrical body 110 and a fluid transfer pipe for transferring fluid to the manifold 340 so that the fluid introduced into the bottom of the cylindrical body 110 flows into the cylindrical body 110. Fluid outflow pipe 130 to be discharged to the lower side of the; and the liquid raw material to the piston pump 320 while receiving a separate air from the air compressor 350 through the upper portion of the cylindrical body (110) To dampen pulsations generated in the process of transporting phosphorus fluid,
The spray gun 200 may include an air compressor 211 connected to the air compressor 350 and a raw material storage container 310, a main flow passage 212, and a hardener flow passage 213 formed therein. ; And a nozzle unit 220 in which the static mixer 222 is accommodated in the chamber 221 so as to mix the compressed air, the main body, and the hardener separately supplied through the respective flow paths of the body 210 and spray the outside. Compressed air is applied to the main body and the hardener passing through the chamber 221 and the static mixer 222 of the nozzle unit 220 through the air passage 211, thereby improving mixing and external spraying efficiency. Portable low pressure polyurethane foam spray device 300.

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