KR100974096B1 - Hot blast heater using livestock manure - Google Patents

Abstract

PURPOSE: A fan heater using livestock manure fuel is provided to create hot air efficiently by hearing air delivered slowly by bumping into delay partitions within a hot air jacket. CONSTITUTION: A fan heater using livestock manure fuel comprises a combustion gas outlet(8), flues(2a,2b), an air inlet for hot air(9), a heat vent(10), a livestock manure fuel hopper, a rostol(12), a burner combined blower(24), and ash discharging units(20,22). The combustion gas outlet is connected to a hot air jacket(1). The flues interlink a combustion chamber(11) and the combustion gas outlet. The air inlet for hot air, a hot air vent, and the livestock manure fuel hopper are installed in a case(100) in order to be connected to the hot air jacket. The rostol supports livestock manure passed through the livestock manure fuel hopper and includes ash drop holes. The burner combined blower burns the livestock manure fuel in the rostol. The ash discharging units discharge the ashes falling down through the ash drop holes.

Description

Hot blast heater using livestock manure}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot air blower, and more particularly to a hot air blower that uses axial solid fuel having a predetermined agglomeration form by compression molding.

Since livestock manure discharged from livestock farms is a major cause of environmental pollution such as water quality or soil pollution, the treatment method of such livestock powder has been studied from various angles.

For example, research is being actively conducted to use constituents, which are only wastes, as fuels for boilers, and boilers using such constituent fuels are also being developed. Applicant of the present invention as a boiler using the above-described axial fuel has already been registered and registered in the Patent No. 888810. However, hot air blowers using condensed fuel have not yet been developed.

On the other hand, the pre-registered patent is generally suitable as a boiler to obtain heating water and hot water by using the livestock as fuel, but the livestock used in the boiler is a small mass of non-uniform particle size as a fuel obtained by drying or fermenting livestock manure. Since fuel in the form of fuel or powder is used, the combustion efficiency of the fuel is lowered, which is a limiting factor in improving the performance of the boiler, and there is a problem in that dust is generated from the axial fuel to pollute the surroundings.

Accordingly, an object of the present invention is to provide a hot air blower suitable for generating warm air by compression molding the shaft and making a solid fuel having a predetermined size, and then adding the fuel as a fuel to burn the shaft.

The hot air blower according to the present invention for achieving the above object is provided with a combustion chamber and a warm air jacket therein, a combustion chamber door capable of confirming the inside of the combustion chamber and a warm air jacket door capable of confirming the inside of the warm air jacket, and a warm air jacket A combustion gas outlet communicating with the air inlet, and an inlet fuel inlet communicating with the combustion inlet and the combustion chamber, and a hot air outlet configured to communicate with the hot air jacket so that the air supplied through the air inlet is discharged by the hot air jacket; It is installed in the warm air jacket to connect the combustion chamber and the combustion gas outlet, it is arranged in two rows up and down is composed of the induction pipe connected to one side and the combustion gas discharge port is connected to the combustion chamber, the other of the induction pipe and the discharge pipe The side is connected by an associated joint having a 'c' shape, and is separably connected to each other by a fastening screw, and the connection between the associated joint pipe, the induction pipe, and the discharge pipe is sealed by a connection packing; It is installed in the combustion chamber to combust the axial fuel injected through the axial fuel injection port and has a plurality of combustion material dropping holes, and an upper surface is provided with a grinding protrusion for grinding the axial fuel that has been burned, and connected to a rostol rotating motor. Lost stall is installed rotatably rotating shaft is installed through the reducer; And a burner and a blower for combusting the axial fuel on the rostol, an associated skeletal discharge door for determining whether to communicate with the combustion gas outlet and the combustion chamber, and a retention path of air in the warm air jacket. A retardation plate installed in the warm air jacket so as to be long, and the roast material supporting plate which has a combustion material discharge hole through which the combustion material falling through the combustion material drop hole passes through the combustion material falling through the combustion material dropping hole, A combustion material conveying plate which is installed on the combustion material support plate so as to be close to the upper surface of the combustion material support plate, and which transports the combustion material to the free material discharge hole, and opens or closes the combustion material discharge hole so that the combustion material falls to a certain position. A discharge hole opening and closing plate installed under the material support plate and falling through the combustion material discharge hole; And a combustion material discharge guide plate for guiding the material to the combustion material discharge means and preventing the heat of the combustion chamber from being transmitted to the rostol rotating motor and the reducer, wherein the combustion material discharge means falls through the guide of the combustion material discharge guide plate. A combustion material discharge conveyance screw for carrying out the combustion material to the outside, a discharge motor for rotating the combustion material discharge conveying screw, and a combustion material discharge port for discharging the combustion material conveyed through the combustion material discharge conveying screw to the outside; Provided is a hot air fan using condensed fuel.

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The combustion gas outlet door is preferably a swing door that can be opened by pushing toward the combustion gas outlet from the combustion chamber.

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The delay plate, the upper delay plate is attached to the upper surface of the housing so that the discharge connection pipe; And a lower delay plate attached to a lower surface of the enclosure so that the induction pipe passes therethrough. It is preferable to comprise a.

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According to the present invention, since the air moving slowly while hitting the delay plate in the warm air jacket is heated by the combustion gas generated when the axial solid fuel is combusted in the combustion chamber, the warm air is efficiently generated, and the solid fuel after combustion is automatically As it is crushed finely and discharged to the outside through the combustion material outlet, it is easy to use and manage the hot air fan. In addition, the doors are installed in the proper position for easy internal cleaning and maintenance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are only presented to understand the content of the present invention, and those skilled in the art will be capable of many modifications within the technical spirit of the present invention. Therefore, the scope of the present invention should not be construed as being limited to these embodiments.

1 to 4 are views for explaining a warm air fan according to the present invention, Figure 1 is an overall appearance perspective view, Figure 2 is a side cross-sectional view, Figure 3 is a front sectional view taken along the line AA 'of Figure 2, 4 is a plan view.

1 to 4, a combustion chamber 11 having a combustion chamber inlet 11a positioned therein is provided inside the enclosure 100 having a substantially rectangular parallelepiped shape, and a warm air jacket (above) of the combustion chamber 11 is provided. 1) is provided.

The induction pipe 2a and the discharge pipe 2b are installed in two rows in parallel with each other so that the warm air jacket 1 penetrates the warm air jacket 1 forward and backward. One end of the induction pipe 2a is provided to communicate with the combustion chamber inlet 11a. The exhaust pipe 2b is installed to be located above the induction pipe 2a and one end thereof communicates with the combustion gas discharge port 8 installed on the upper surface of the housing 100. The other ends of the induction pipe 2a and the discharge pipe 2b are connected to each other through an associated joint pipe 3 having a substantially 'c' shape. The induction pipe 2a and the discharge pipe 2b are made of a metal material having good thermal conductivity, and in the accompanying drawings, two pipes are arranged adjacent to each other in a row in the accompanying drawings. The number of induction pipe 2a and the discharge pipe 2b may vary depending on the capacity or shape of the boiler.

The axial solid fuel inlet 101 communicates with the combustion chamber inlet 11a at the side of the enclosure 100. The condensed solid fuel compressed into a cylindrical shape having a diameter of about 40 to 50 mm and a length of about 50 to 60 mm is introduced into the condensed solid fuel inlet tube 101 through the condensed solid fuel supply device 200.

In front of the enclosure 100, the combustion chamber door 5 is installed so that the user can clean and maintain the gas by looking into the combustion chamber 11 and the induction pipe 2a through the combustion chamber inlet 11a. At the rear of the enclosure 100, a hot air jacket door 6 is installed on the side with the associated joint pipe 3 so that the user can look inside the warm air jacket (1).

As shown in FIG. 5 as an enlarged view of the portion indicated by reference B of FIG. 2, the discharge connection pipe 2b and the associated joint pipe 3 are tightened to be in close contact with each other by the fastening screw 3b, and the discharge connection pipe is shown in FIG. A connecting seal 3a for sealing is interposed between 2b and the associated joint pipe 3. The same applies to the induction linkage 2a.

The user opens the warm air jacket door 6 to loosen the captive screw 3b to separate the associated joint pipe 3 from the induction pipe 2a and the discharge pipe 2b, and then the induction pipe 2a and the discharge pipe 2b. ), And the inside of the associated joint pipe (3) can be cleaned.

Combustion gas outlets 8 are provided on the upper surface of the enclosure 100, and communication between the combustion gas outlets 8 and the combustion chamber inlet 11a is determined by an associated skeletal discharge door 7 provided therebetween. . The associated skeletal discharge door 7 is in the form of a swing door that can be opened by pushing upwards. Therefore, the user can open and open the combustion chamber door (5) by pushing the associated skeletal discharge door (7) up by hand to clean and maintain the combustion gas outlet (8).

During cleaning of the induction pipe 2a, the skeletal inside thereof may fall directly to the combustion chamber 11 and be carried out to the outside. However, when there is no associated skeletal discharge door 7, it is difficult to carry out the skeletal inside the discharge associated pipe 2b to the outside when cleaning the discharge associated pipe 2b. Thus, the associated skeletond discharge door 7 is provided and discharged. Scaling in the linkage 2b is allowed to fall into the combustion chamber 11.

 The enclosure 100 is provided with a hot air inlet 9 and a hot air outlet 10 so as to communicate with the hot air jacket 1. The high temperature combustion gas generated when the solid fuel is combusted in the combustion chamber 11 is discharged through the induction pipe 2a, the coupling pipe 3, and the exhaust pipe 2b through the combustion chamber inlet 11a. It is discharged to the outside through (8), wherein the air introduced into the warm air jacket (1) through the hot air inlet (9) is heated and discharged to the outside through the hot air outlet (10).

If the air introduced through the hot air inlet 9 is discharged to the outside through the hot air outlet 10 without staying in the hot air jacket 1, the warm air generation efficiency is lowered. Delay diaphragms 4a and 4b are provided to lengthen the retention path.

The upper retardation diaphragm 4a is attached to the upper surface of the enclosure 100 so that the discharge connection pipe 2b penetrates as shown in FIG. 7, and the lower retardation diaphragm 4b is shown in FIG. It is attached to the lower surface of the housing 100 so that 2a) penetrates.

The combustion chamber 11 is rotatably provided with a rostol 12 for burning the solid fuel, and the rostol rotation shaft 15 is rotated through a speed reducer 14 connected to the rostol rotation motor 13.

As shown in FIG. 8, the rostol 12 is provided with a grinding protrusion 12a for grinding the solid fuel that has been burned and a plurality of combustion material dropping holes 12b for dropping the ground combustion material downward. do.

Under the rostol 12, a combustion material support plate 16 for receiving the combustion material falling through the combustion material dropping hole 12b is installed, and the combustion material falling on the combustion material support plate 16 is the combustion material support plate 16. Passes through the combustion material discharge hole 17 formed in the) and falls to the combustion material discharge guide plate 34 thereunder.

The combustion material conveying plate 18 and the discharge hole opening and closing plate 19 are connected to the rostol rotating shaft 15 and rotate with it.
The combustion material conveying plate 18 is installed on the combustion support plate 16, and the bottom surface thereof is installed to be close to the upper surface of the combustion support plate 16 to burn the combustion material dropped through the combustion material dropping holes 12b. It is sent to the discharge hole (17).
The discharge hole opening and closing plate 19 is installed under the combustion support plate 16, and discharges the combustion material formed on the combustion support plate 16 while rotating together with the combustion transfer plate 18 when the rostol rotating shaft 15 rotates. Opening or closing the hole 17 allows the combustion material to fall to a constant position below it through the combustion material discharge hole 17. 8 shows the case where the combustion material discharge hole 17 is closed, and FIG. 9 shows the case where the combustion material discharge hole 17 is opened.

The combustion material falling downward through the combustion material discharge hole 17 is guided by the combustion material discharge guide plate 34 and falls to the combustion material discharge conveying screw 22 of the combustion material discharge means.
Here, the combustion material discharge means is a combustion material discharge feed screw 22 is connected to the discharge motor 20, and when the combustion material discharge feed screw 22 is rotated by the discharge motor 20, the combustion material discharge feed screw ( It is configured to include a combustion material outlet 23 configured to discharge the combustion material accumulated in 22) to the outside. Here, the combustion material discharge guide plate 34 also serves as a heat shield plate for preventing the heat of the combustion chamber 11 from being transmitted to the rostol rotating motor 13 and the speed reducer 14.

The combustion chamber 11 is provided with a burner and a blower 24 for igniting solid fuel accumulating on the rostol 12 at the lower portion of the rostol 12 and blowing air for combustion.

Hereinafter will be described a method of operating a warm air fan according to the present invention.

First, the condensed fuel compressed into a cylindrical shape having a diameter of about 40 to 50 mm and a length of about 50 to 60 mm is introduced into the condensed solid fuel inlet tube 101 by using the condensed solid fuel supply device 200.

Then, the condensed solid fuel accumulates on the rostol 12 of the combustion chamber 11 via the combustion chamber inlet 11a. At this time, the burner and the blower 24 are operated to burn the condensed solid fuel to produce hot combustion gas. Generate.

 The combustion gas thus generated is discharged to the outside through the combustion gas outlet 8 through the induction pipe 2a, the coupling pipe 3, and the discharge pipe 2b through the combustion chamber inlet 11a. The air introduced into the warm air jacket 1 through the warm air inlet 9 is heated and discharged to the outside through the warm air outlet 10.

The air introduced through the hot air inlet 9 hits the retardation diaphragms 4a and 4b, and thus the retention path in the hot air jacket 1 becomes long, thereby improving the warm air generation efficiency.

When the solid fuel accumulating on the top of the stall 12 is completely burned, the stall stall motor 13 is operated. Then, the grinding protrusion 12a is also rotated together with the rostol 12 so that the solid fuel is ground and falls to the combustion support plate 16 through the combustion material dropping hole 12b.

The combusted material dropped into the combustor backing plate 16 is gathered into the combustor discharge hole 17 by the combustor conveying plate 18 which rotates together with the rostol rotating shaft 15. At this time, the discharge hole opening and closing plate 19 rotates together with the rostol rotating shaft 15 to open the combustion material discharge hole 17 so that the combustion material is guided by the combustion material discharge guide plate 34 and the combustion material discharge transfer screw 22 ) And fall to the combustion material discharge port 23 by the combustion material discharge transfer screw 22 rotated by the discharge motor 20 is discharged to the outside.

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1 is an overall appearance perspective view of a warm air fan according to the present invention;

2 is a side cross-sectional view of FIG. 1;

3 is a front sectional view taken along line AA ′ of FIG. 2;

4 is a plan view of FIG. 1;

FIG. 5 is an enlarged view of a portion indicated by reference B in FIG. 2; FIG.

6 and 7 are views for explaining the delay plate 4a, 4b of FIG.

8 and 9 are views for explaining the combustion process and the discharge of the combustion material.

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

1: warm air jacket 2a: induction pipe

2b: exhaust connection 3: associated joint

3a: connection packing 3b: captive screw

4a: upper delay plate 4b: lower delay plate

5: combustion chamber door 6: warm air jacket door

7: Associated Skeling Exhaust Door 8: Combustion Gas Outlet

9: Hot air inlet 10: Hot air outlet

11: combustion chamber 11a: combustion chamber inlet

12: rostol 12a: grinding wheel

12b: combustion material dropping hole 13: rostol rotating motor

14: reducer 15: rostol rotating shaft

16: combustor support plate 17: combustor discharge hole

18: combustion material transfer plate 19: discharge hole opening and closing plate

20: discharge motor 22: combustion material discharge feed screw

23: combustion material outlet 24: burner and blower

34: combustion material discharge guide plate 100: enclosure

101: condensed solid fuel inlet 200: condensed solid fuel supply device

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Claims (12)

Combustion chamber and hot air jacket are provided inside, combustion chamber door to check the inside of the combustion chamber and hot air jacket door to check the inside of the warm air jacket are installed, and combustion gas outlet and air inlet communicating with the hot air jacket and the air inlet and the combustion chamber A condensed fuel inlet is formed, and a hot air outlet is installed in communication with the warm air jacket so that the air supplied through the air inlet is heated and discharged by the warm air jacket; It is installed in the warm air jacket to connect the combustion chamber and the combustion gas outlet, it is arranged in two rows up and down is composed of the induction pipe connected to one side and the combustion gas discharge port is connected to the combustion chamber, the other of the induction pipe and the discharge pipe The side is connected by an associated joint having a 'c' shape, and is separably connected to each other by a fastening screw, and the connection between the associated joint pipe, the induction pipe, and the discharge pipe is sealed by a connection packing;  It is installed in the combustion chamber to combust the axial fuel injected through the axial fuel injection port and has a plurality of combustion material dropping holes, and an upper surface is provided with a grinding protrusion for grinding the axial fuel that has been burned, and connected to a rostol rotating motor. Lost stall is installed rotatably rotating shaft is installed through the reducer; And A burner and a blower for burning the condensed fuel on the rostol, An associated skeletal discharge door configured between the combustion gas outlet and the combustion chamber to determine communication with the combustion chamber for cleaning and maintenance of the combustion gas outlet; A delay plate installed in the warm air jacket to lengthen the residence path of air in the warm air jacket; The rostol is connected to the rostol rotating shaft and rotates together, the combustion support plate formed with a combustion material discharge hole through which the combustion material falling through the combustion material dropping hole passes, and the combustion support plate so as to be close to the upper surface of the combustion support plate. A combustion material conveying plate installed above to transfer the combustion material to the combustion material discharge hole, and a discharge hole opening and closing plate installed under the combustion material support plate to open or close the combustion material discharge hole so that the combustion material falls to a predetermined position; It comprises a combustion material discharge guide plate for guiding the combustion material falling through the combustion material discharge hole toward the combustion material discharge means side, and preventing the heat of the combustion chamber from being transmitted to the rostol rotating motor and the reducer, The combustion material discharge means is a combustion material discharge transport screw for carrying out the combustion material falling through the guide of the combustion material discharge guide plate, a discharge motor for rotating the combustion material discharge transport screw, and the combustion material discharge transport screw is transported through A hot air fan using axial fuel, characterized in that it comprises a combustion material outlet for discharging the combustion material to the outside. delete delete delete delete delete The hot air fan according to claim 1, wherein the associated skeletal discharge door is a swing door that can be opened by sliding toward the combustion gas outlet in the combustion chamber. delete The method of claim 1, wherein the delay plate is provided in the warm air jacket so that the residence path of air in the warm air jacket, An upper delay plate attached to an upper surface of the enclosure so that the discharge pipe passes; And A lower delay plate attached to the lower surface of the enclosure so that the induction pipe passes therethrough; Hot air heater comprising a. delete delete delete

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