KR100902088B1 - Combustion chamber of dry apparatus by directly heating - Google Patents

Abstract

A combustion chamber of a direct combustion air heater is provided to lower heat loss of flame because the heated air is supplied to a burner or a first blowing unit supplying the air to the burner. A combustion chamber of a direct combustion air heater comprises a first blow unit(40) which supplies the air to a burner so that combustion gas supplied to the burner is burnt, an inner wall unit(60) in which a vent connected to the space near an air inlet is formed, a heat exchanger(70) in which an air housing space connected to the space and the air supply hole is formed, a pressure-feeding unit(16) which makes the inside of the main body become negative pressure, and a counter-flow preventing valve(80) which inlets the external air into the air housing space when the main body becomes negative pressure by the pressure-feeding unit.

Description

Combustion chamber of dry apparatus by directly heating

The present invention relates to a combustion chamber of a direct type air heater, and more particularly, to form a space part by spaced apart from an inner wall of the main body, and to heat the air located in the space part by a flame and then burn the heated air to a burner or burner. The air blower is formed between the main body and the inner wall part by supplying the air to the first blower part which supplies air to the air to reduce the heat loss of the flame, and the fuel consumption decreases as the internal temperature of the main body increases, thereby significantly reducing the fuel maintenance cost. It is related with the combustion chamber of the direct type air heater.

In general, the air heater is used to heat the main body to quickly dry clothes or agricultural products, or to paint automobiles, ships or air conditioners, and also to dry the adhesive that is adhered to one surface of a general adhesive tape. The heating tank is largely configured to include a heating tank in which a heating object is disposed, and a combustion chamber coupled to one side of the heating tank to provide heat to the heating tank.

Such air heaters can be classified into indirect type using heat generated from the heat sink and direct type using flame generated in the combustion chamber by passing the flame generated in the combustion chamber through the heat sink having the blower. Direct air heaters having a relatively high efficiency compared to the indirect direct fire apparatus is mainly used.

1 is a cross-sectional view showing a combustion chamber of a conventional direct type air heater.

As shown in FIG. 1, the combustion chamber 100 of the conventional direct type air heater has a discharge port 111 formed at one end thereof, connected to a heating chamber, and an air inlet 112 formed at the other end thereof. A burner 120 installed at one side of the main body 110 and a blower unit 130 coupled to the burner 120 to supply air to the burner 120 and the discharge port 111 of the main body 110. It comprises a mesh filter unit 140 for completely burning various harmful substances that may be generated during fuel combustion.

The combustion chamber 100 of the conventional direct type air heater burns fuel supplied from the burner 120 when fuel is supplied from the outside into the burner 120 to generate a flame, and heat generated from the flame is heated. The drying object flows into the heating chamber through the discharge port 111 and is dried in the heating chamber.

However, the combustion chamber 100 of the conventional direct type air heater has a problem that the heat efficiency is lowered by the heat generated from the flame is discharged to the outside through the outer wall of the main body 110.

In more detail, in the case of winter, as the ambient air temperature of the combustion chamber 100 decreases, heat generated from the flame is thermally balanced with the ambient air temperature of the combustion chamber 100 through the outer wall of the main body 110. Is released. Accordingly, the combustion chamber 100 of the conventional direct type air heater has a problem that the thermal efficiency of the combustion chamber 100 is lowered, fuel is additionally consumed, and the fuel maintenance cost is increased.

Accordingly, the heat loss can be improved by overcoming the problems of the conventional combustion chamber 100 of the direct air heater, and the demand for the combustion chamber 100 of the direct air heater, which can reduce the fuel maintenance cost, is increased. have.

The present invention has been made to solve the above problems, an object of the present invention is to form a space by installing the inner wall portion on the outside of the main body, and burn the heated air after heating the air located in the space by the flame Alternatively, the air blower is formed between the main body and the inner wall part by supplying the air to the first blower part supplying the air to the burner, thereby reducing the heat loss of the flame, and supplying the preheated air to the inside of the main body. It is to provide a combustion chamber of a direct type air heater that can be improved.

In addition, by installing a heat exchanger having an air receiving space communicating with the space therein on the divergence path of the flame, the flame is prevented from being exposed through the hot air outlet so that the drying object placed on the air heater is not damaged by the flame. In addition, after the air contained in the air receiving space is heated by the flame, the heated air is supplied to the burner or the first blower unit to increase the internal temperature of the main body to further increase the thermal efficiency of combustion of the direct air heater In providing a chamber.

According to an aspect of the present invention for achieving the above object, in the combustion chamber of the direct type air heater to provide heat to the object using a flame generated from the burner, the air inlet is formed at one end, A hot air discharge port is formed at an end, and a main body having an air supply hole at one side, a burner installed inside the main body, generating a flame to radiate heat toward the hot air discharge port, and connected to one side of the burner, and the burner Combustion gas supply unit for supplying combustion gas to the burner, coupled to one side of the burner, a first blower unit for supplying air to the burner so that the combustion gas supplied to the burner, and is installed on the other side of the burner, Ignition means for igniting combustion gas and air supplied to the burner, and is installed inward from the inner peripheral surface of the main body to the inside of the main body The space portion is formed, the inner wall portion is formed on the one side near the air inlet and the outlet is formed on the diverging path of the flame generated from the burner of the inside of the body, the space portion therein And a heat exchanger having an air receiving space connected to the air supply hole, and installed in front of the hot air discharge port of the main body, forcibly conveying heat radiated by the flame generated from the burner toward the hot air discharge port, to thereby internally It is installed on one side of the heat exchanger connected to the pressure supply means and the air supply hole for the negative pressure is to prevent the air flowing into the space portion through the air supply hole to the back flow to the outside, the main body by the pressure feed means Backflow that opens when negative pressure is applied to allow outside air to flow into the air receiving space Including a branch valve, wherein the heat exchanger is formed with a plurality of flame passing holes in the direction of the flame emitted from the burner, the flame passes through a plurality of flame passing holes to increase the heating efficiency of the air located in the air receiving space It provides a combustion chamber of the direct type air heater characterized in that it is possible to.

And when one end is connected to the outlet of the inner wall portion, the other end is connected to the first blower portion and the air disposed in the space is heated by the flame so that the heated air is supplied to the first blower portion It is preferable to further include a hot air supply pipe for providing a passage for the air.

delete

delete

delete

delete

delete

According to the present invention as described above, the inner wall portion is spaced apart from the main body to form a space portion, and after heating the air located in the space portion by the flame supply the heated air to the burner or the first blower for supplying air to the burner As a result, an air layer is formed between the main body and the inner wall to reduce the heat loss of the flame, and to supply the preheated air to the inside of the main body, thereby improving the thermal efficiency significantly.

In addition, by installing a heat exchanger having an air receiving space communicating with the space therein on the divergence path of the flame, the flame is prevented from being exposed through the hot air outlet so that the drying object placed on the air heater is not damaged by the flame. In addition, after the air contained in the air receiving space is heated by the flame, the heated air is supplied to the burner or the first blower unit to increase the internal temperature of the main body to further increase the thermal efficiency of combustion of the direct air heater In providing a chamber.

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

2 is a cross-sectional view of the combustion chamber of the direct type air heater according to the embodiment of the present invention.

As shown in FIG. 2, the combustion chamber 1 of the direct air heater according to the embodiment of the present invention includes a main body 10, a burner 20, a combustion gas supply unit 30, and a first blower unit ( 40, an ignition means 50, an inner wall portion 60, a heat exchanger 70, and a non-return valve 80.

The main body 10 is formed in a tubular shape having a rectangular cross section, and an air inlet 11 through which external air is introduced is formed at one end thereof, and heat of flame generated from the burner 20 described later is discharged at the other end thereof. A hot air outlet 12 is formed. The main body 10 is provided with an air supply hole 15 so that external air is supplied to a space portion to be described later.

The main body is provided with a pressure feeding means 16 on one side, the other end is connected to the heating chamber (not shown) of the direct air heater, the heat of flame generated from the burner 20 to be described later the heating chamber (not shown) It serves to guide the heat in the direction of the heating chamber (not shown) to flow into). At this time, the heat of the flame may be forced to the heating chamber by the pressure feeding means (16).
Here, the pressure feeding means 16 includes a drive unit 16a and a suction fan 16b that is belt-coupled with the drive unit 16a and driven by the drive unit 16a, and the drive of the drive unit 16a as described above. The suction fan (16b) is driven to suck the heat of the flame generated from the burner 20 to force the pressure to the heating chamber.

In addition, a metal filter mesh 13 is mounted on the hot air outlet 12 of the main body 10 to completely burn various harmful substances that may be generated during combustion of the combustion gas and simultaneously oxidize harmful substances. When additional heat is generated it is desirable to improve the thermal efficiency of the heating chamber.

In addition, the main body 10 is preferably provided with a heat insulating material 14 on the outer peripheral surface in order to minimize the heat loss of the flame.

The burner 20 is installed at one side of the air inlet 11 near the inside of the main body 10, and receives combustion gas and air from the combustion gas supply unit 30 and the first blower unit 40, which will be described later, and generates a flame. It serves to provide heat to the heating object disposed in the heating chamber.

And, the burner 20 has a flame detection sensor 21 is installed on one side of the flame divergence path through which the flame is diverged.

The burner 20 is known enough to be purchased and used commercially available to those of ordinary skill in the art and the detailed description thereof will be omitted.

As described above, the combustion gas supply unit 30 is connected to one side of the burner 20 and serves to supply the combustion gas into the burner 20. Here, the combustion gas supplied to the burner 20 is preferably used as a clean fuel in consideration of the possibility of generating pollutants.

And, the combustion gas supply unit 30 is provided with a control valve 31 for adjusting the supply amount of the combustion gas on one side of the supply path to which the combustion gas is supplied, pressure gauge for measuring the pressure of the combustion gas, although not shown in the figure And, the pressure regulator for supplying the constant pressure of the combustor and the solenoid valve for opening and closing the supply path of the combustion gas is installed in order, connected to the control unit (not shown) installed on one side of the direct air heater is set in the control unit (not shown) It operates according to the control condition.

The first blower part 40 is coupled to the rear side of the burner 20 and serves to provide air for combustion of the combustion gas introduced into the burner 20.

The ignition means 50 is installed on one side of the burner 20 and serves to ignite the combustion gas so that the combustion gas and the air supplied inside the burner 20 may be burned, and a conventional ignition plug may be used. .

The inner wall part 60 is spaced apart from the inner side of the main body 10 so as to surround the inner circumferential surface of the main body 10 so as to allow the space 61 to be formed inside the main body 10. Here, the inner wall portion 60 is formed with a discharge port 62 connected to the space portion.

The heat exchanger 70 is installed on the diverging path of the flame generated from the burner 20 among the inside of the main body 10 to prevent the flame from being exposed to the outside through the hot air outlet 12 of the main body 10 and In addition, the mesh filter unit 13 mounted on the hot air discharge port 12 of the main body 10 serves to prevent damage by the flame.

The heat exchanger 70 has an air accommodating space 71 in which air is received and communicates with the space 61, and is connected to the space 61 and the air supply hole 15 to provide an air supply hole ( When air is introduced through 15), the introduced air is heated by the flame and supplied to the space 61.

The heat exchanger 70 is preferably formed of a fire-resistant brick or stainless steel (SUS).

In addition, the heat exchanger 70 is preferably formed with a plurality of flame passing holes 72 in the direction of the flame divergence. This is to improve the heating efficiency of the air located in the air receiving space 71 by extending the heating area of the heat exchanger 70 by allowing the flame emitted from the burner to pass through the plurality of flame passing holes 72.

The non-return valve 80 is installed at one side of the heat exchanger 70 connected to the air supply hole 15 to prevent backflow of external air introduced into the air receiving space 71 of the heat exchanger 70 back to the outside. Play a role.

Here, if the operation principle of the non-return valve 80 is briefly described, as described above, the heat of the flame is pushed into the heating chamber by the pressure feeding means 16, and the inside of the main body becomes a negative pressure (1 atm). The outside air flows into the air receiving space 71 while the non-return valve 80 is opened by the pressure difference between the outside and the inside of the main body.

Such a non-return valve 80 is a configuration known to those skilled in the art as a detailed description of the configuration will be omitted, it is possible to prevent the back flow of the external air introduced back to the outside as described above Any valve can be used.

delete

3 is a view showing a state in which the air located in the space portion is supplied into the main body according to an embodiment of the present invention, Figure 4 is the air located in the air receiving space of the heat exchanger according to an embodiment of the present invention It is a figure which shows the state supplied to the inside of a main body.

The operation of the combustion chamber 1 of the direct type air heater according to the embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 3 and 4.

First, when the operator operates the operation panel installed on one side of the air heater to set the supply conditions for the combustion gas, the control unit (not shown) opens the control valve 31 according to the set supply condition value of the combustion gas to the burner 20. When the combustion gas is supplied and air is supplied to the burner 20 by driving the first blower part 40, the flame is generated while the combustion gas is combusted by an ignition plug installed at one side of the burner 20.

The control unit (not shown) detects the flame of the burner 20 through the flame detection sensor 21 such as a frame pilot sensor or a UV scanner, and the flame of the burner 20 is not detected from the flame detection sensor 21. If not, attempts to re-ignite by controlling the ignition plug, if the re-ignition is not made for a certain time is determined to be a failure of the combustion gas supply unit 30 and controls the solenoid valve to block the supply of the flue gas.

The heat is emitted from the flame generated in this way toward the hot air outlet 12 of the main body 10, and various harmful substances contained in the hot air are completely burned by the mesh filter unit 13 mounted on the hot air outlet 12. Hot air is supplied into the heating chamber.

At this time, as shown in Figure 3, the inner wall portion 60 is heated by the flame and heat generated from the burner 20, the air located in the space 61 formed on the outer side of the inner wall portion 60 is also heated, heating The supplied air is supplied into the main body 10 through the outlet 62 of the inner wall part 60.

In addition, as shown in FIG. 4, the heat exchanger 70 blocks the path of the flame so that the flame is not exposed to the outside through the hot air outlet 12, and at the same time, the air accommodating space 71 through the check valve 80. ) Is introduced into the space portion 61 is heated by the flame is moved to the space portion 61, the moved air is supplied to the inside of the main body 10 through the outlet 62 of the inner wall portion (60).

As described above, the air located in the space 61 and the air located in the air receiving space 71 are heated by the flame, and the heated air is supplied into the main body 10 to increase the internal temperature of the main body 10. Therefore, not only the thermal efficiency is improved, but the supply amount of the combustion gas supplied to the burner 20 is reduced, thereby reducing the combustion gas maintenance cost.

5 is a cross-sectional view of the combustion chamber of the direct type air heater according to another embodiment of the present invention.

The basic configuration of the embodiment of Figure 5 is the same as the embodiment of Figures 2 to 4, but one end is connected to the outlet 62 of the inner wall portion 60, the other end is connected to the first blower 80 It further comprises (17).

This embodiment is different from the previous embodiment, the first blower 40 through the hot air supply pipe 17 is heated air supplied to the interior of the main body 10 through the outlet 62 of the inner wall portion 60 In this case, the primary heated air from the first blower part 40 is supplied into the burner 20, thereby directly improving the thermal efficiency of the burner 20.

Since the rest of the structure is the same as the above-described basic embodiment, the rest of the description will be omitted.

delete

delete

delete

delete

delete

delete

delete

delete

delete

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications and variations as fall within the spirit of the invention.

1 is a cross-sectional view showing a combustion chamber of a conventional direct type air heater;

2 is a cross-sectional view of a combustion chamber of a direct type air heater according to an embodiment of the present invention;

3 is a view showing a state in which the air located in the space portion is supplied into the main body according to an embodiment of the present invention;

4 is a view showing a state in which air located in the air receiving space of the heat exchanger according to an embodiment of the present invention is supplied into the main body,

5 is a cross-sectional view of a combustion chamber of a direct type air heater according to another embodiment of the present invention;

6 is a cross-sectional view of a combustion chamber of a direct type air heater according to another embodiment of the present invention;

7 is a cross-sectional view of the combustion chamber of the direct type air heater according to another embodiment of the present invention.

<Description of main drawing code>

1: Combustion chamber 10 of direct air heater: main body

11 air inlet 12 hot air outlet

13: mesh filter part 14: heat insulating material

15: air supply hole 16: conveying means

17: hot air supply pipe 20: burner

21: flame detection sensor 30: combustion gas supply unit

31: control valve 32: pressure gauge

33: pressure regulator 34: solenoid valve

40: first blower portion 50: ignition means

60: inner wall portion 61: space portion

62: guide plate 63: insulation

70: heat exchanger 71: air receiving space

72: flame-through hole 80: backflow check valve

90: second blower

Claims (7)

In the combustion chamber of the direct air heater to provide heat to the object using the flame generated from the burner, An air inlet is formed at one end, a hot air outlet is formed at the other end, and an air supply hole is formed at one side; A burner installed inside the main body and generating a flame to radiate heat toward the hot air outlet; A combustion gas supply unit connected to one side of the burner and supplying combustion gas to the burner; A first blower unit coupled to one side of the burner and configured to supply air to the burner so that combustion gas supplied to the burner is combusted; An ignition means installed at the other side of the burner and igniting combustion gas and air supplied to the burner; An inner wall part spaced inward from the inner circumferential surface of the main body so that a space part is formed inside the main body, and an outlet port connected to the space part is formed at one side near the air inlet; A heat exchanger installed on an emission path of the flame generated from the burner among the inside of the main body, and having an air receiving space connected to the space portion and the air supply hole therein; A pressure feeding means installed in front of the hot air discharge port and forcibly conveying heat radiated by the flame generated from the burner toward the hot air discharge port, so that the inside of the main body becomes a negative pressure; And Installed on one side of the heat exchanger connected to the air supply hole to prevent the air flowing into the space through the air supply hole to flow back to the outside, when the main body is negative pressure by the pressure feeding means is opened to open the outside air Including a non-return valve to be introduced into the air receiving space, The heat exchanger is characterized in that a plurality of flame passage holes are formed in the direction of the flame emitted from the burner, and the flame passes through a plurality of flame passage holes to increase the heating efficiency of the air located in the air receiving space. Combustion chamber of direct-fired air heater. The method of claim 1, The heated air is connected to the outlet of the inner wall part, and the other end is connected to the first blower part so that the heated air is supplied to the first blower part when the air disposed in the space is heated by the flame. Combustion chamber of the direct air heater characterized in that it further comprises a hot air supply pipe for providing a movement of the. delete delete delete delete delete

Images