KR20050080753A - Heat exchanger of warm air circulator for solid fuel - Google Patents

Abstract

The present invention relates to a heat exchanger of a solid fuel warm air heater used to heat an inner space of a vinyl house, and more particularly, to form a heat exchanger in a corrugated plate shape while baffle plate is zigzag to the rear side on both sides of the valley portion outside the corrugated plate. By installing it inclined, it is easy to manufacture heat exchanger made of corrugated plate, compared to the conventional production of a plurality of heat exchange pipes by welding, which greatly reduces the manufacturing cost and delays the passage of wind passing through the valley by the baffle plate. This is to improve the thermal efficiency.

The present invention supplies the solid fuel contained in the fuel storage hopper (2) to the combustion chamber (4) as a feeder (3), the heat exchanger (6) is heated by heat generated when the solid fuel is burned, and the blower ( In the heat exchanger of the solid fuel warm air heater for discharging the hot heat exchanged to the outside while passing through the heat exchanger (6) that the external air supplied by the heat exotherm, the heat exchanger (6) is inside the body cover (5) It is installed in the upper part of the combustion chamber (4) inside the body cover (5) to form an external air inlet chamber (9) for introducing external air by the blower (7) at the top and front of the heat exchanger (6) Front and rear surface finishing plates 20 and 21 are provided on the front and rear surfaces of the corrugated plate 19 in which the 17 and the valleys 18 are continuously formed, and the lower part of the corrugated plate 19 is opened, and the corrugated plate 19 is formed. The communication port 16 is installed upward in the exhaust port 22 formed at both rear centers on the rear side of In front of the mechanism 22, the blocking wall 26 is vertically spaced apart from the inner upper surface of the corrugated plate 19, and the baffle plate 23 is zigzag-shaped on both sides of the valley 18 outside the corrugated plate 19. It is characterized by being installed obliquely to the rear side.

Description

Heat exchanger of warm air circulator for solid fuel

The present invention relates to a heat exchanger of a solid fuel warm air heater used to heat an inner space of a plastic house, and more particularly, to form a heat exchanger in the form of a corrugated plate, and to form a baffle plate in a zigzag form on the rear side of the corrugated plate. By installing it inclined, it is easy to manufacture heat exchanger made of corrugated plate, compared to the conventional production of a plurality of heat exchange pipes by welding, which greatly reduces the manufacturing cost and delays the passage of wind passing through the valley by the baffle plate. This is to improve the thermal efficiency.

A conventional solid air heater for a conventional solid fuel, as shown in Figures 1 and 2 supplies the solid fuel (1) contained in the fuel storage hopper (2) as a feeder (3) into the combustion chamber (4), the solid fuel (1 The heat exchanger 6 generates heat by the heat generated at the time of combustion, and the hot air is discharged to the outside while passing through the heat exchanger 6 through which the external air supplied by the blower 7 generates heat. It will heat the interior space.

The heat exchanger (6) installed in the general solid fuel heater as described above is installed at the center of the main body cover (5) such that the upper and lower parts and the front and rear spaces are formed in the inner space of the main body cover (5) formed in a rectangular box shape. .

The upper space in which the heat exchanger 6 is installed is the external air inflow chamber 9 through which the external air is introduced by the blower 7, and the lower part of the heat exchanger 6 is supplied by the feeder 3. The solid fuel 1 to be combusted is a combustion chamber 4, and the space formed at the rear of the heat exchanger 6 becomes a rear space portion 10 communicating with the external air inlet chamber 9 at the upper side, The space part in front of the machine 6 is a front space part 11 through which the warm air passing through the heat exchanger 6 is discharged, and a blowing hood 12 is provided in the front space part 11.

In the heat exchanger 6 installed as described above, the horizontal plate 13 is welded to the main body cover 5 at the inner center of the enclosure-type main body cover 5, as shown in FIG. 1. 2 is installed horizontally so as to be positioned at the center of the main body cover 5 as shown in FIG. 2, and through the front and rear surfaces of the horizontal plate 13, a plurality of heat exchange pipes 8 are inserted through the longitudinal direction. The front and rear surface finishing plates 14 and 15 formed are provided at intervals, and heat exchange pipes 8 are provided to penetrate through the longitudinal direction in each through hole formed in the front and rear surface finishing plates 14 and 15.

In addition, the communication unit 16 installed upward on the upper surface of the horizontal plate 13 is installed to penetrate the upper surface of the main body cover 5.

In the conventional heat exchanger 6, a plurality of heat exchange pipes 8 are inserted into the plurality of through holes formed in the front and rear finish plates 14 and 15, respectively, and then contact portions between the circular through holes and the heat exchange pipes 8 are contacted with each other. Since it must be combined by welding, only highly skilled welding technicians can manufacture, and a lot of manufacturing time and materials are required, which greatly increases the manufacturing cost, and heat passing through a plurality of heat exchange pipes 8 is in communication. Because it is discharged directly to the outside through the waste heat was not able to take advantage of another problem with a lot of heat loss.

The present invention to solve the above problems by forming the heat exchanger in the form of a corrugated plate while installing the baffle plate inclined to the rear side in a zigzag form on both sides of the valley portion outside the corrugated plate, compared to the conventional production of a plurality of heat exchange pipe by welding The technical problem is that the production of heat exchangers made of corrugated plates is simple, which greatly reduces the manufacturing cost and at the same time delays the passage of wind passing through the valleys by the baffle plate to improve thermal efficiency.

The present invention for achieving the above object, the solid fuel contained in the fuel storage hopper is supplied to the combustion chamber as a feeder, the heat exchanger is generated by the heat generated when the solid fuel is burned, the external air supplied by the blower In the heat exchanger of a solid fuel warmer for discharging the hot heat exchanged to the outside while passing through the heat exchanger is heated, the heat exchanger is formed in the upper and front of the inside of the main body cover to form an external air inlet chamber for introducing the outside air by the blower It is installed in the upper part of the combustion chamber inside the main body cover, the heat exchanger is formed in the front and rear surface of the front and rear surfaces of the corrugated plate formed with the ridge and the valley part continuously formed to open the lower portion of the corrugated plate, the center of both sides of the rear side Communication is installed upward in the exhaust port formed in the upper part, and a blocking wall is waved in front of the exhaust port inside the corrugated plate. It is installed vertically at intervals with the inner upper surface of the template, the baffle plate is inclined to the rear side in a zigzag form on both sides of the valley portion outside the corrugated plate.

Hereinafter, with reference to the accompanying drawings for the solid fuel warmer according to the present invention 3 to 6 as follows.

An embodiment of the heat exchanger of the present invention and a warm air heater in which the heat exchanger of the present invention is installed will be described with reference to FIGS. 3 to 5, which use the solid fuel contained in the fuel storage hopper 2 as a feeder 3 as a combustion chamber 4. Heat exchanger 6 is heated by heat generated during combustion of solid fuel, and heat exchanged through heat exchanger 6 through which external air supplied by the blower 7 generates heat. In the heat exchanger of the warm air blower for discharging the gas to the outside, the heat exchanger (6) is an external air inlet chamber (9) for introducing the outside air by the blower (7) in the upper and front of the body cover (5) It is formed in the upper part of the combustion chamber (4) inside the body cover (5).

The heat exchanger 6 has front and rear surface finishing plates 20 and 21 installed on the front and rear surfaces of the corrugated plate 19 in which the peaks 17 and the valleys 18 are continuously formed. The lower portion of the corrugated plate 19 is opened to the combustion chamber 4 side in the direction.

In addition, the communication port 16 is upwardly provided in the exhaust ports 22 formed at both rear centers on the rear side of the corrugated plate 19, and the blocking wall 26 is formed in front of the exhaust port 22 inside the corrugated plate 19. It is vertically spaced apart from the inner upper surface of (19), and the baffle plate 23 is inclined to the rear side in a zigzag form on both side surfaces of the valley part 18 of the corrugated plate 19 outer side.

An inverted " T " shaped exhaust pipe 27 is connected between the exhaust port 22 formed in the corrugated plate 19 and the communication 16, and the inside of the exhaust pipe 27 has an exhaust port formed in the corrugated plate 19 22), the communication 16 is connected to the upper side and the opening and closing opening 28 which can look into the inside of the exhaust pipe 27 and clean it is installed to open and close.

In addition, a ventilation hood 12 is installed at the rear of the heat exchanger 6 to discharge the warm air passing between the valleys 18 of the corrugated plate 19.

5A and 5B illustrate one embodiment of a warm air heater in which a heat exchanger 6 of the present invention is installed, and a feeder 3 supplying a solid fuel 1 contained in a fuel storage hopper 2 into a combustion chamber 4. 6A and 6B are examples of the warm air fan in which the heat exchanger 6 of the present invention is installed, and the solid fuel 1 contained in the fuel storage hopper 2 is used. The feeder 3 supplied into the combustion chamber 4 is applied to the hot air of the chain conveyor 25 system.

Referring to Figures 3 to 5 the operational relationship of the present invention configured as described above is as follows.

First, with reference to Figures 3 to 5 will be described with respect to the present invention, a hot air fan of an embodiment of the present invention.

After installing the warmer illustrated in FIG. 5 in a vinyl house or a place requiring warm air, the blowing hood 12 may be introduced so that the warm air generated from the warmer flows into a place requiring warm air such as a plastic house. The solid fuel (1) is introduced into the fuel storage hopper (2).

When the feeder 3 is driven in this state, the feed screw 24 rotates to supply solid fuel 1 such as lignite contained in the fuel storage hopper 2 to the oven in the combustion chamber 4. When the solid fuel 1 supplied to the furnace in the fire is ignited and the combustion air is blown, the solid fuel 1 is combusted.

As described above, when the solid fuel 1 is combusted, combustion heat and dust are generated. The combustion heat and dust generated when the solid fuel 1 is combusted are corrugated plates having a lower opening as shown in FIGS. 3 to 5. (19) The corrugated plate 19 is heated while going up to the lower space.

In the situation where the corrugated plate 19 is being heated as described above, the wind generated by the blower 7 is moved to the front side of the heat exchanger 6 through the external air inflow chamber 9 so that the valleys 18 of the corrugated plate 19 are formed. While passing through the vent hood 12 is discharged to the rear, when the outside air passes through the valley portion 18 of the heated corrugated plate 19, the wind passing through the valley portion 18 is rapidly increased in temperature The wind is discharged to the blowing hood 12, the hot wind discharged to the blowing hood 12 is to be introduced into the interior of the plastic house to the required heating.

As shown in FIG. 4, when the outside air passes through the valleys 18 of the heated corrugated plate 19, the plurality of baffle plates 23 are inclined in the direction in which wind passes. By being installed in a zigzag form, it is possible to minimize the heat loss by delaying the speed of the wind passing through each valley 23, the temperature of the wind passing through the valley by that much will be increased.

In addition, when the corrugated plate 19 is heated by the combustion heat under the corrugated plate 19, the dust and combustion gas generated while the solid fuel 1 burns are discharged through exhaust ports provided at both rear sides of the corrugated plate 19. 22, and is discharged. In front of the exhaust port 22, heat, dust, and combustion gas are prevented from being directly discharged to the exhaust port 22. Bumped into it.

As described above, the heat, dust, and combustion gas that hit the blocking wall 26 circulate upward from the inside of the corrugated plate 19 while passing through the space between the upper surface of the corrugated plate 19 and the blocking wall 26. 3 and 5, the communication port 16 is connected to the exhaust port 22 with the exhaust pipe 27 interposed therebetween to the outside through the communication pipe 16 and the communication port 16. Will be discharged.

The following is a description of the warmer of this embodiment shown in FIG. 6, which is the feeder 3 by the chain conveyor 25, the solid fuel (1) contained in the fuel storage hopper (2) chain conveyor (25). The heat exchanger 6 of the present invention is installed in the warm air supplying unit 4 to the combustion chamber 4, and in this case, only the warm air fan and the feeder 3 by the transfer screw 24 shown in FIG. Only the difference in the working relationship of the heat exchanger 6 is the same, so the description of the specific working relationship for the warmer of this embodiment shown in Figure 6 will be omitted.

As described above, the heat exchanger of the solid fuel warmer of the present invention forms a heat exchanger in the form of a corrugated plate, and installs a baffle plate inclined to the rear side in a zigzag form on both sides of the valley portion outside the corrugated plate, thereby conventionally welding a plurality of heat exchange pipes by welding. Compared to the previous ones, the heat exchanger made of corrugated plate is easy to manufacture, which greatly reduces the manufacturing cost and at the same time, delays the passage of wind passing through the valley by the baffle plate and improves the thermal efficiency. There is a very realistic and practical effect that can be provided cheaply to farmers.

1 is a front sectional view of a warm air heater provided with a conventional heat exchanger.

Figure 2 is a side cross-sectional view of a warm air heater installed in the conventional heat exchanger shown in FIG.

3 is a perspective view of a heat exchanger according to the present invention;

4 is a plan view of a heat exchanger according to the present invention;

Figure 5a and Figure 5b is a side cross-sectional view and a front sectional view showing an embodiment of the warm air fan is installed the present invention.

Figure 6a and Figure 6b is a side cross-sectional view and a front sectional view showing this embodiment of the warm air heater is installed the present invention.

<Explanation of symbols for main parts of drawing>

1 solid fuel 2 fuel storage hopper 3 feeder

4 combustion chamber 5 body cover 6 heat exchanger

7 blower 8 heat exchange pipe 9 external air inlet room

10: rear space portion 11: front space portion 12: air blowing hood

13 horizontal plate 14 front finish plate 15 rear finish plate

16: communication 17: obstetrical 18: bone

19: waveform plate 20: front finish plate 21: rear finish plate

22: exhaust port 23: baffle plate 25: chain conveyor

26: blocking wall 27: exhaust pipe 28: opening and closing port

Claims (1)

The solid fuel contained in the fuel storage hopper (2) is supplied to the combustion chamber (4) as a feeder (3), and the heat exchanger (6) generates heat by the heat generated during combustion of the solid fuel, and the blower (7) In the heat exchanger of the solid fuel warmer for discharging the hot heat exchanged to the outside while passing through the heat exchanger (6) that the external air supplied by the heat generated, The heat exchanger (6) is a combustion chamber (4) inside the body cover (5) such that an external air inlet chamber (9) for introducing external air by the blower (7) is formed at the top and front of the body cover (5). Installed on the top, The heat exchanger 6 has front and rear surface finishing plates 20 and 21 installed on the front and rear surfaces of the corrugated plate 19 in which the peaks 17 and the valleys 18 are continuously formed so that the lower part of the corrugated plate 19 is opened. The communication port 16 is upwardly installed in the exhaust port 22 formed at both rear and central portions of the rear side of the corrugated plate 19, and a blocking wall 26 is provided in front of the exhaust port 22 inside the corrugated plate 19. It is installed vertically at intervals with the inner upper surface of the corrugated plate 19, the baffle plate 23 on both sides of the valley portion 18 on the outer side of the corrugated plate 19, the zigzag-shaped solid air heater, characterized in that inclined toward the rear side Heat exchanger.