KR200441584Y1 - A heat source generation equipment - Google Patents

Abstract

The present invention relates to a heat source generating apparatus, and more particularly, a fuel is injected into a first combustion chamber to burn a fuel input to generate a heat source, and the air supplied from the first blower is formed as a vortex to increase the combustion rate of the fuel. It is possible to fully burn and maximize the heat efficiency of the heat source, and use the heat source generated from the heat source generator as the heat source of the hot water boiler and steam boiler, and do not use expensive oil as fuel. By supplying steam to the outside, it is a heat source generator that can be used as an alternative energy source while reducing environmental pollution with economic effects.

The configuration of the present invention, the air supply hole is connected to the first blower is formed, the connection tube having a predetermined length is formed integrally and the lower surface is formed to be open and the vortex generating means so that the air supplied to the inside can cause vortex The inner housing is provided, and the outer surface of the inner housing and the lower surface of the inner housing is seated on the lower end of the inner housing is supplied with fuel and a seating portion having a cone-shaped supply hole is formed so as not to stagnate in the inside and the supply hole of the inner housing and It is formed in a corresponding position and the outer housing is formed therein the air supply hole is formed, the housing support for supporting the inner and outer housing, and the hopper which is fueled by being connected to the seat supply hole of the outer housing is provided It is provided with a screw tube for transferring the fuel injected into the hopper and a driving means for driving the screw tube is provided. Said first combustion chamber which consists of the fuel supply means is provided with a connecting portion connected to said primary combustion of the fuel supplying hole; And a second combustion chamber configured to internally burn the fuel combusted in the first combustion chamber by an internal combustion tube connected to the internal housing connecting tube of the first combustion chamber and an external combustion tube surrounding the internal combustion tube. In the heat source generating device consisting of, the vortex generating means, the guide member is formed in the upper and lower openings in a cylindrical shape, seated on the supply hole of the outer housing; And an ignition plug provided at one end of the inner circumferential surface of the guide member to ignite the fuel. The air supplied through the first blower is characterized in that the vortex is generated by hitting the outer wall of the guide member through the air supply hole and the air supply hole of the outer housing and the inner housing.

Heat generator, hot water boiler, steam boiler

Description

Heat source generator {A HEAT SOURCE GENERATION EQUIPMENT}

1 is a perspective view showing a heat source generator according to the present invention,

2 is a perspective view showing a state in which a hot water boiler is provided in the heat source generator according to the present invention;

3 is a perspective view showing a state in which a steam boiler is provided in a heat source generator according to the present invention;

4 is a cross-sectional view showing a heat source generator according to the present invention,

5 is a cross-sectional view showing the inner screw of the transfer pipe of the heat source generator according to the present invention,

6 is a cross-sectional view showing a state in which air is supplied to the inside of the first combustion chamber of the heat source generator according to the present invention and the vortex is generated by the vortex generating means;

7 is a cross-sectional view showing the operation of the heat source generator is provided with a hot water boiler in the heat source generator according to the present invention,

8 is a cross-sectional view showing the operation of the heat source generator is provided with a steam boiler in the heat source generator according to the present invention.

<Description of the reference numerals for the main parts of the drawings>

100: heat source generator

400: first combustion chamber

200: internal housing 250: external housing

210: connector 260: air supply hole

220: supply hole 270: supply hole

280: connection

300 : seating part

350 : housing support 410: fuel supply means

415: Hopper

420: screw tube

425 drive means

450: vortex generating means

460: guide member

500: first blower 600: second combustion chamber

610: internal combustion pipe

620: external combustion pipe

700: spark plug 800: hot water boiler

810: second blower

820: Dust Collector

900: steam boiler

910: second blower

920: Dust Collector

The present invention relates to a heat source generating apparatus, injecting fuel into a first combustion chamber to burn a fuel injected to generate a heat source, and to form a vortex of air supplied from the first blower to increase the combustion rate of the fuel in the first combustion chamber 1 Secondary combustion of the unburned gas in the second combustion chamber after the secondary combustion enables the complete combustion of the fuel, maximizing the thermal efficiency of the heat source generated by the combustion of the fuel, and using the heat source generated from the heat source generator as the heat source of the hot water boiler steam boiler. By using hot water boiler and steam boiler to supply high-efficiency hot water and steam to the outside without using expensive oil as fuel, it is economical effect and reduces environmental pollution and can be used as an alternative energy source. will be.

In general, the conventional heat generator has a problem that the combustion rate is lowered when the fuel is combusted in the combustion chamber to obtain a high efficiency heat source, and when the fuel is burned, foreign substances such as waste gas or dust are generated to cause environmental pollution.

In addition, the heat source generated during the combustion of the fuel is mostly lost in the combustion chamber to obtain a high efficiency heat source, and there is a problem in that it is not economical because the amount of fuel used increases due to the heat loss.

In addition, since a high efficiency heat source is not obtained, there is a problem in that it is not economical due to the restriction that a heat source cannot be supplied to a steam boiler and a hot water boiler requiring high efficiency.

The present invention was devised to solve the conventional problems as described above. The main object of the present invention is to inject fuel into a first combustion chamber composed of an internal / external housing to burn a fuel to generate a heat source, and a first blower Air is fed into the vortex to increase the combustion rate of the fuel and then burn it first in the first combustion chamber, and then burn the unburned gas in the second combustion chamber to complete combustion, so that waste gas and dust are not generated when the fuel is burned. It maximizes the thermal efficiency of the heat source generated by the combustion of fuel and uses the heat source generated from the heat source generator as the heat source of the hot water boiler and steam boiler, and does not use expensive oil as fuel, and uses hot water boiler and steam boiler By supplying hot water and steam to the outside, it is economical and reduces environmental pollution and can be used as an alternative energy source. The purpose is to provide a heat source generator that can be.

In order to achieve the above object, the configuration of the present invention, the air supply hole is connected to the first blower is formed, the connection pipe having a predetermined length is formed integrally and the lower surface is formed to be opened and the air supplied into the An inner housing provided with a vortex generating means to cause the vortex, and a seating portion having a cone-shaped supply hole surrounding the outside of the inner housing and having a lower end portion of the inner housing seated on the lower surface to supply fuel and stagnation in the interior. Is formed and is formed in a position corresponding to the supply hole of the inner housing, the outer housing is formed with the air supply hole surrounding it, the housing support for supporting the inner and outer housing, and to be connected to the seat supply hole of the outer housing It is provided with a hopper into which the fuel is injected and provided with a screw pipe for transporting the fuel injected into the hopper and the Is provided with a drive means for driving the first combustion chamber Gravity-flowing pipes which consists of a fuel supply means which is provided with a connecting portion connected to said primary combustion of the fuel supplying hole; And a second combustion chamber configured to internally burn the fuel combusted in the first combustion chamber by an internal combustion tube connected to the internal housing connecting tube of the first combustion chamber and an external combustion tube surrounding the internal combustion tube. In the heat source generating device consisting of, the vortex generating means, the guide member is formed in the upper and lower openings in a cylindrical shape, seated on the supply hole of the outer housing; And an ignition plug provided at one end of the inner circumferential surface of the guide member to ignite the fuel. The air supplied through the first blower is characterized in that the vortex is generated by hitting the outer wall of the guide member through the air supply hole and the air supply hole of the outer housing and the inner housing.

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In addition, the inner housing of the first combustion chamber and the inner combustion tube of the second combustion chamber may be made of a heat resistant material, and the outer housing of the first combustion chamber and the outer combustion tube of the second combustion chamber may be made of a heat insulating material.

In addition, the heat source generator is selected as a heating means to the hot water boiler for heating the hot water to supply to the outside.

The heat source generator may be selected as a heating means to a steam boiler that supplies steam to the outside.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail as follows.

1 is a perspective view showing a heat source generator according to the present invention, Figure 2 is a perspective view showing a state in which the hot water boiler is provided in the heat source generator according to the present invention, Figure 3 is a heat source generator according to the present invention 4 is a perspective view showing a steam boiler, FIG. 4 is a cross-sectional view showing a heat source generator according to the present invention, FIG. 5 is a cross-sectional view showing an internal screw of a transfer pipe of the heat source generator according to the present invention, and FIG. 7 is a cross-sectional view illustrating a state in which vortices are generated by vortex generating means by supplying air into a first combustion chamber of a heat source generator according to the present invention, and FIG. 7 is provided with a hot water boiler in a heat source generator according to the present invention. 8 is a cross-sectional view showing the operation of the generator, Figure 8 is a cross-sectional view showing the operation of the heat source generator is provided with a steam boiler in the heat source generator according to the present invention. .

As shown in Figures 1 to 4, the configuration of the heat source generator 100 according to the present invention, the air supply hole 260 is connected to the first blower 500 is formed on one side and a predetermined length integrally on the other side The connection pipe 210 having the formed.

In addition, the lower surface is formed to be open and the inner housing 200 is provided with a vortex generating means 450 so that the air supplied therein can cause vortices.

In addition, a seating portion 300 having a supply hole 270 through which fuel is supplied while the lower end of the inner housing 200 is seated is wrapped around the outside of the inner housing 200.

In addition, the outer housing 250 is formed is formed in a position corresponding to the air supply hole 260 of the inner housing 200, the air supply hole 220 to surround it, and supports the inner and outer housing (200, 250) It is connected to the housing support 350 and the supply hole 270 of the seating portion 300 of the outer housing 250 is provided with a hopper 415 is injected into the hopper 415 is introduced into the hopper 415 The fuel supply means 410 is provided with a screw pipe 420 for transporting fuel and a driving means 425 for driving the screw pipe 420 and a connection part 280 connected to the supply hole 270. ) Is composed of a first combustion chamber 400 for primary combustion of fuel.

In particular, the supply hole 270 is manufactured in the shape of a cone so that the fuel to be supplied does not stagnate inside and is smoothly burned therein.

In addition, the first combustion chamber is composed of an internal combustion pipe 610, one end of which is connected to the inner housing 200, the connection pipe 210 of the first combustion chamber 400, and an external combustion pipe 620 surrounding the internal combustion pipe 610. It consists of a second combustion chamber 600 for secondary combustion of the primary combustion fuel in the combustion chamber 400.

 In particular, the vortex generating means 450, the upper and lower portions are formed in a cylindrical shape, the guide member 460 is provided on the edge of the supply hole 270 of the outer housing 250, the guide member ( An air supply port 260 of the outer housing 250 and the inner housing 200 is configured to include an ignition plug 700 provided at one end of the inner circumferential surface of the 460 to ignite fuel. And by passing through the air supply hole 220 to hit the outer wall of the guide member 460 to generate a vortex, the air to be supplied is formed into a vortex to increase the combustion rate of the fuel to generate a high-efficiency heat source, complete combustion of the fuel This makes it possible to eliminate waste gas and dust during fuel combustion.

In addition, the inner housing 200 of the first combustion chamber 400 and the inner combustion tube 610 of the second combustion chamber 600 are made of a heat resistant material, and the outer housing 250 and the first chamber of the first combustion chamber 400. The external combustion pipe 620 of the combustion chamber 600 is composed of a heat insulating material to minimize the loss of the heat source during combustion of the fuel to generate a high efficiency heat source.

In addition, the first combustion chamber 400 is made narrower than the vortex generating means 450 so that the vortex generated from the vortex generating means 450 is strongly sucked into the first combustion chamber 400 to increase the combustion rate of the fuel. do.

In particular, by installing a hot water boiler 800 to heat the hot water using the heat source generated in the heat source generator 100 to supply to the outside to supply hot water economically without using expensive oil as fuel. .

In particular, by installing a steam boiler 800 to heat the steam by using the heat source generated in the heat source generator 100 to supply to the outside to supply steam to the outside economically without using expensive oil as fuel. .

Looking at the operating state of the heat source generator 100 according to the present invention in the configuration as described above,

As shown in Figures 5-8,

The operating state of the heat source generator 100,

1) Fuel is injected into the hopper 415.

2) The injected fuel is supplied to the supply hole 270 of the first combustion chamber 400 by rotating the screw of the screw pipe 420 by driving the driving means 425.

3) The ignition plug 700 is operated to ignite the fuel supplied to the fuel supplied to the first combustion chamber 400, and at this time, the air is supplied from the first blower 500 to increase the combustion efficiency of the fuel.

4) At this time, the air supplied through the first blower 500 is formed as a vortex through the vortex generating means 450, the air supplied through the first blower 500 is the outer housing 250 and the inner housing After passing through the air supply hole 260 and the air supply hole 220 of the 200, a vortex is formed to hit the outer wall of the guide member 460 to increase the combustion rate of the fuel.

5) The ignited fuel undergoes a primary combustion process in the first combustion chamber 400.

6) The primary combustion fuel in the first combustion chamber 400 passes through the connecting pipe 210 to the second combustion chamber 600 to undergo a secondary combustion process.

7) Using the radiant heat generated in the internal combustion pipe 610 of the second combustion chamber 600 to completely burn the waste gas and dust and the like not burned in the first combustion chamber 200 to increase the thermal efficiency.

At this time, the driving means 425 uses a quantitative motor to be able to inject the fuel in a quantitative manner, and the fuel is injected from the lower portion to maintain a constant temperature and flame during fuel combustion.

In particular, as shown in Figures 6 to 8, the vortex generating means 450, the upper and lower portions are formed in a cylindrical shape, the guide member 460 seated on the edge of the supply hole 270 of the outer housing 250 Is provided, and the air supplied through the first blower 500 passes through the air supply holes 260 and the air supply holes 220 of the outer housing 250 and the inner housing 200 of the guide member 460. The vortex is generated by hitting the outer wall, and the air supplied to the vortex is formed to increase the combustion rate of the fuel to generate a high-efficiency heat source.It is possible to completely burn the fuel so that no gas and dust are generated when the fuel is burned. Will not.

In addition, in order to prevent the loss of the heat source generated in the first combustion chamber 400, the internal / external housings 200 and 250 are formed as heat-resistant materials and insulation materials to minimize heat loss during the first combustion of fuel, and the second combustion chamber 600 The internal / external combustion pipes (610, 620) also to minimize the heat loss to be composed of a heat-resistant material and a heat insulating material to generate a high efficiency heat source.

In addition, when the heat source stays in the second combustion chamber 600 via the connecting pipe 210, the waste gas and foreign matter dust are almost completely burned by using the radiant heat generated from the internal combustion pipe 610. It generates high efficiency heat source.

In addition, by supplying the heat source generated from the heat source generator 100 to the hot water boiler 800 to supply hot water to the outside, it is economically supplied to the hot water without using expensive oil as a fuel, at this time hot water boiler The second blower 810 provided at one side of the 800 sucks air supplied to the inside of the outer housing 250 and discharges it to the outside to increase the intensity of the flame generated inside the outer housing 250. The combustion rate is increased in the first and second combustion chambers 400 and 600 to supply a high-efficiency heat source to the hot water boiler 800, and the high-efficiency heat source inside the hot water boiler 800 supplies heat to the outside through heat exchanger. Done.

In addition, dust generated during combustion in the first and second combustion chambers 400 and 600 is filtered by the dust collector 820 provided at one side of the hot water boiler 800 so that the dust is not discharged to the outside, so that waste gas and dust are discharged. The removed high efficiency hot water is supplied to the outside.

In addition, by supplying the heat source generated in the heat source generator 100 to the steam boiler 900 to supply steam to the outside it is economical to supply hot water to the outside without using expensive oil as a fuel, at this time steam boiler The second blower 910 provided at one side of the 900 inhales the air supplied to the inside of the outer housing 250 and discharges it to the outside to increase the intensity of the flame generated inside the outer housing 250. The combustion rate is increased in the first and second combustion chambers 400 and 600 to supply a high-efficiency heat source to the steam boiler 900, and the high-efficiency heat source inside the steam boiler 900 heat-exchanges through heat exchanger to the outside. Will be supplied.

In addition, the dust generated during combustion in the first and second combustion chambers 400 and 600 is filtered by the dust collector 920 provided at one side of the steam boiler 900 so that dust is not discharged to the outside, so that waste gas and dust are discharged. High efficiency steam removed is supplied to the outside.

In particular, the fuel injected into the hopper 415 may be used a variety of waste wire coating material, agricultural waste vinyl, coal, dried food waste, vortex generated through the vortex generating means 450 and the second combustion chamber Fuel is completely burned by the radiant heat generated from the internal combustion pipe 610 of 600, so that foreign substances such as waste gas dust are not generated, thereby reducing environmental pollution, and obtaining a highly efficient heat source.

Although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims.

 Inject the fuel into the first combustion chamber consisting of internal and external housings to burn the injected fuel to generate a heat source, and to form the air supplied from the first blower into the vortex through the vortex generating means to increase the combustion rate of the fuel in the first combustion chamber. Fuel that is not burned in the second combustion chamber after the first combustion is burned second by the radiant heat generated from the internal combustion pipe, so that the fuel can be completely burned. Therefore, foreign substances such as waste gas dust generated during fuel combustion are not generated. There is an effect that can be reduced.

In addition, the air supplied from the first blower during the combustion of the fuel is formed into the vortex through the vortex generating means, thereby increasing the combustion rate during the combustion of the fuel to enable complete combustion of the fuel, thereby generating a highly efficient heat source. .

In addition, when the fuel is burned, the inner and outer housings of the first combustion chamber are formed of a heat-resistant material and a heat insulating material, and the inner and outer combustion pipes of the second combustion chamber are formed of a heat-resistant material and a heat insulating material, so that the heat source generated when the fuel is burned is removed. There is an effect that can generate a high efficiency heat source by minimizing the loss of the heat source during the movement from the first combustion chamber to the second combustion chamber.

In addition, since the combustion rate of the fuel is high and the heat loss of the heat source is minimized, the fuel cost is reduced, thereby having an economic effect.

In addition, by quantitatively injecting fuel from the lower portion through the quantitative motor, it maintains a constant temperature and flame, and can reduce the generation of foreign substances such as waste gas and dust generated during fuel combustion, thereby preventing pollution of the environment.

In addition, complete combustion of fuel is possible through the vortex generating means and the radiant heat of the second combustion chamber, so that waste gas and dust are discharged when burning the fuel, such as rural waste vinyl, waste wire covering, and dried food waste as fuel. It is possible to prevent the pollution of the environment because it can be reused.

In addition, the high-efficiency heat source generated by the heat source generator is supplied to the hot water boiler, steam boiler, etc. as a heat source, by supplying the high-efficiency hot water and steam obtained to the outside to use the hot water boiler, steam boiler without using expensive oil. In addition to economic effects, it also reduces environmental pollution and can be used as an alternative energy source.

Claims (5)

An air supply hole 260 connected to the first blower 500 is formed, and a connection pipe 210 having a predetermined length is integrally formed, and a lower surface thereof is opened to form a vortex so that the air supplied into the air causes vortices. The inner housing 200 having the generating means 450 and the outer housing 200 surround the outside of the inner housing 200, and the lower surface of the inner housing 200 is seated on the lower surface of the fuel supply, and does not stagnate inside. A seating part 300 having a supply hole 270 is formed and formed at a position corresponding to the air supply hole 260 of the inner housing 200, and an outer housing 250 having an air supply hole 220 formed therein. A housing support 350 supporting the inner and outer housings 200 and 250 and a hopper 415 into which fuel is injected are connected to the seating part 300 supply hole 270 of the outer housing 250. And a screw pipe to which the fuel injected into the hopper 415 is transferred. 420 is provided, and the driving means 425 for driving the screw tube 420 is provided and the fuel supply means 410 is provided with a connecting portion 280 connected to the supply hole 270 to primary fuel A first combustion chamber 400 for burning; And an internal combustion tube 610 connected to the inner housing 200 and the connection tube 210 of the first combustion chamber 400, and an external combustion tube 620 surrounding the internal combustion tube 610. A second combustion chamber 600 for secondary combustion of the primary burned fuel in the reactor; In the heat source generator 100 is composed of, The vortex generating means 450 may include a guide member 460 formed in a cylindrical shape so that the upper and lower portions thereof are opened and seated at the edge of the supply hole 270 of the outer housing 250; And an ignition plug 700 provided at one end of the inner circumferential surface of the guide member 460 to ignite the fuel. The air supplied through the first blower 500 passes through the air supply hole 260 and the air supply hole 220 of the outer housing 250 and the inner housing 200 to the outer wall of the guide member 460. A heat source generator, characterized in that the vortex generated by hitting. delete The method of claim 1, The inner housing 200 of the first combustion chamber 400 and the inner combustion tube 610 of the second combustion chamber 600 are made of a heat resistant material, and the outer housing 250 and the second combustion chamber of the first combustion chamber 400. External combustion pipe 620 of 600 is a heat source generator, characterized in that consisting of a heat insulating material. The method of claim 1, Heat source generator, characterized in that for selecting the heat source generator 100 as a heating means to the hot water boiler (800) for heating the hot water to supply to the outside. The method of claim 1, The heat source generator, characterized in that for selecting the heat source generator 100 as a heating means to the steam boiler 900 for heating the steam to supply to the outside.

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