KR102574983B1 - Burner apparatus - Google Patents

Abstract

An embodiment of the present invention relates to a burner device, wherein a burner device installed in a duct through which fluid passes and generating thermal energy for raising the temperature of the fluid is disposed inside the duct and spaced apart from the inner circumferential surface of the duct and has a hollow interior. A main body formed of a fuel injection member for injecting fuel into the main body, a new air supply unit for supplying new air so that the fuel injected from the fuel injection member is burned to form a flame, and a flame formed according to the combustion of the fuel An overheat protection unit is included to prevent the duct from overheating.

Description

Burner device {BURNER APPARATUS}

An embodiment of the present invention relates to a burner device, and more particularly, to a burner device installed inside a duct.

In general, a burner device installed inside a duct raises the temperature of the fluid passing through the duct by providing thermal energy. Specifically, the thermal energy produced by the burner device exchanges heat with the fluid passing through the duct, thereby increasing the temperature of the fluid.

In the case of a combustion type burner device that forms a flame, there is a problem in that the generated flame contacts the duct and overheats the surface of the duct. Accordingly, the performance of the burner device is deteriorated, and there is a risk of fire in the facility in which the burner device is installed according to the temperature rise of the duct due to the contact between the flame and the duct.

In addition, when the length of the flame is longer than the length considered in the design of the burner device, the flame extends toward the rear of the duct and overheats the rear of the duct. Specifically, when another configuration is installed at the rear of the duct, there is a problem in that excessive heat energy is transferred to the other configuration of the long flame. That is, there is a problem in that it is difficult to effectively raise the temperature of the fluid passing through the duct by overheating other components. Or, there is a problem in that the risk of fire is increased by overheating other components.

Embodiments of the present invention provide a burner device capable of stably maintaining a flame.

According to an embodiment of the present invention, a burner device installed in a duct through which fluid passes and generating thermal energy for raising the temperature of the fluid includes a main body disposed inside the duct and spaced apart from an inner circumferential surface of the duct and having a hollow interior; The duct is overheated by a fuel injection member for injecting fuel into the main body, a fresh air supply unit for supplying fresh air so that the fuel injected from the fuel injection member is burned to form a flame, and a flame formed according to the combustion of the fuel. It includes an overheating protection unit to prevent

In addition, the overheat protection unit may include a compressed air injection member installed in the duct at the rear of the main body to inject compressed air so that a flame formed by combustion of fuel is stably maintained.

In addition, the compressed air spraying member may have a spraying angle in the range of 5 to 60 degrees in a direction from the inner wall of the duct toward the center of the duct so that the compressed air is sprayed.

In addition, the above-described burner device includes a first information detection member installed in the duct in front of the main body and detecting the flow rate or velocity of the fluid passing through the duct, and the information detected by the first information detection member. A control unit for controlling the operation of the compressed air blowing member may be further included.

In addition, the above-described burner device includes a second information detecting member installed in the duct behind the main body to detect the temperature of the inner wall of the duct, and the compressed air blowing member based on the information detected by the second information detecting member. A control unit for controlling operation may be further included.

In addition, the above-described burner device is formed in a hollow interior, one side is connected to the main body and the other side is formed in a direction to be adjacent to the inner wall of the duct, further enclosing the flame formed according to the combustion of the fuel can include

Alternatively, the overheat protection unit may include a first fireproof member installed on an inner wall of the duct behind the main body.

Alternatively, the overheat protection unit may include a second fireproof member disposed on an inner circumferential surface of the flame retainer.

In addition, the overheat protection unit may include a plurality of through-holes formed along an outer circumferential surface of the flame retainer.

In addition, the above-described burner device may further include a mixer disposed inside the main body and spaced apart from each other around the fuel injection member to mix the fresh air supplied from the fresh air supply unit and the fuel injected from the fuel injection member.

According to embodiments of the present invention, the burner device is installed inside the duct to maintain a stable flame and effectively prevent the duct from overheating.

1 shows a burner device according to an embodiment of the present invention.
2 shows a burner device according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. This invention may be embodied in many different forms and is not limited to the embodiments set forth herein.

It is advised that the drawings are schematic and not drawn to scale. Relative dimensions and proportions of parts in the drawings are shown exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are illustrative only and not limiting. In addition, the same reference numerals are used to indicate similar features in the same structural elements or parts appearing in two or more drawings.

The embodiments of the present invention specifically represent ideal embodiments of the present invention. As a result, various variations of the diagram are expected. Therefore, the embodiment is not limited to the specific shape of the illustrated area, and includes, for example, modification of the shape by manufacturing.

Hereinafter, a burner device 101 according to an embodiment of the present invention will be described with reference to FIG. 1 .

The burner device 101 is installed in the duct 110 through which the fluid passes and generates thermal energy required to raise the temperature of the fluid passing through the duct 110. Specifically, the fluid passing through the duct 110 may be air or exhaust gas.

As shown in FIG. 1, the burner device 101 according to an embodiment of the present invention includes a main body 120, a fuel injection member 130, a fresh air supply unit 200, and an overheat protection unit 300. .

The body 120 is disposed inside the duct 110. In addition, the main body 120 is formed in a hollow inside. And, the outer circumferential surface of the main body 120 is spaced apart from the inner circumferential surface of the duct 110 . Specifically, the main body 120 may be formed in a hollow shape so that a combustion chamber is formed therein. In addition, the body 120 may be supported by a support member (not shown) between the inner circumferential surface of the duct 110 and the outer circumferential surface of the body 120 .

The fuel injection member 130 injects fuel into the body 120 . Specifically, the fuel injection member 130 injects fuel to generate thermal energy. In addition, the fuel injection member 130 may receive fuel from a fuel tank in which fuel is stored (not shown) and inject it. For example, the fuel injection member 130 may be supported on an outer circumferential surface of the body 120 so that fuel is supplied along the longitudinal direction of the body 120 .

The fresh air supply unit 200 supplies fresh air to the main body 120 so that the fuel injected from the fuel injection member 130 is burned to form a flame. Specifically, the fresh air supply unit 200 may supply fresh air containing oxygen so that the fuel injected from the fuel injection member 130 is burned. Thus, the fresh air supply unit 200 may contain oxygen required for combustion.

The overheating prevention unit 300 prevents the duct 110 from being overheated by a flame formed by combustion of fuel. Specifically, the overheat protection unit 300 prevents flames from overheating by contacting the duct 110 and pipes connected to the duct 110 .

With this configuration, the overheat protection unit 300 included in one embodiment of the present invention prevents flames from contacting the inner wall of the duct 110 to heat the duct 110 . Alternatively, the overheating prevention unit 300 can prevent the flame from becoming longer along the longitudinal direction of the duct 110 so that the duct 110 at the rear where the burner device 101 is installed or pipes connected thereto are overheated. Accordingly, the burner device 101 according to an embodiment of the present invention is a loss of heat energy of the burner device 101 due to overheating of the duct 110, a fire due to overheating of the duct 110, and an overheated duct 110. It is possible to effectively prevent restrictions on the installation position of components disposed adjacent to the .

In addition, the overheat protection unit 300 according to an embodiment of the present invention may include a compressed air blowing member 310 .

The compressed air injection member 310 may be installed in the duct 110 behind the main body 120. In addition, the compressed air injection member 310 may inject compressed air so that the flame formed by combustion of the fuel is stably maintained. Specifically, the compressed air injection member 310 is the overheating of the duct 110 caused by the flame formed by the combustion of the fuel contacting the inner wall of the duct 110, the flame is formed relatively long toward the rear of the duct 110 Compressed air can be sprayed to prevent this.

Therefore, the compressed air blowing member 310 prevents contact of the inner wall of the duct 110 with the flame or overheating of the rear of the duct 110 by forming a predetermined length of the flame along the longitudinal direction of the duct 110. This can be effectively prevented by spraying. That is, the compressed air injection member 310 may shorten the length of the flame formed by injecting compressed air or adjust the position of the flame toward the inner wall of the duct 110 so that the flame is stably maintained.

In addition, the injection angle (a) of the compressed air injected from the compressed air injection member 310 according to an embodiment of the present invention may be in the range of 5 degrees (ㅀ) to 60 degrees (ㅀ).

The injection angle (a) of the compressed air injected from the compressed air injection member 310 may be within a range of 5 degrees to 60 degrees in a direction from the inner wall of the duct 110 toward the center of the duct 110 . Specifically, the injection angle (a) of the compressed air may be injected from the inner wall of the duct 110 toward the circumferential direction of the duct 110 in a range of 5 degrees to 60 degrees. At this time, the compressed air injection member 310 may inject compressed air toward the rear of the duct 110 along the flow of the fluid passing through the duct 110 .

When the injection angle (a) of the compressed air is less than 5 degrees, the compressed air can partially prevent collision of the flame with the inner wall of the duct 110, but when the flame is formed long, it is difficult to have a stable flame length. . That is, when the injection angle (a) of the compressed air is less than 5 degrees, it is difficult to reduce the length of the flame when the flame is formed long.

Alternatively, when the injection angle (a) of the compressed air exceeds 60 degrees, it is difficult for the compressed air to stably maintain the flame formed in the combustion of the fuel. That is, when the injection angle (a) of the compressed air exceeds 60 degrees, the compressed air interferes with the stability of the flame generated by the combustion of the fuel, and the flame spreads along the direction of the injected compressed air to the inner wall of the duct 110. and may cause the duct 110 to overheat.

That is, the compressed air injected from the compressed air injection member 310 may be injected toward the rear of the duct 110 in a direction crossing the longitudinal direction of the duct 110 . The compressed air injected by the compressed air injection member 310 prevents overheating due to contact between the inner wall of the duct 110 and the flame, and occurs when the flame is formed too long along the length of the duct 110 Overheating of the rear of the duct 110 can be effectively prevented.

In addition, the burner device 101 according to an embodiment of the present invention may further include a first information detection member 630 and a controller 600.

The first information detecting member 630 may detect flow rate or flow velocity information of the fluid passing through the duct 110 . In addition, the first information detection member 630 may be installed in the duct 110 in front of the main body 120 . Also, the first information detecting member 630 may detect flow rate or flow velocity information of the fluid moving along the longitudinal direction of the duct 110 .

The control unit 600 may control the operation of the compressed air blowing member 310 based on the information detected by the first information detecting member 630 . Flow rate or velocity information of the fluid detected by the first information detecting member 630 may be transmitted to the control unit 600 . In addition, the control unit 600 compares the flow rate or flow rate information of the fluid detected by the first information detection member 630 with the preset reference flow rate or flow rate range information, and the compressed air injection member 310 so that the flame can be maintained in a stable state. ) can be controlled.

For example, when the flow rate of the fluid passing through the duct 110, which is the information detected by the first information detection member 630, is lower than the lowest value of the predetermined flow rate range, the flame formed by the combustion of the fuel is formed in the duct 110. ) diffuses toward the inner wall of the duct 110 and comes into contact with the inner wall. Accordingly, the inner wall of the duct 110 is overheated and the thermal efficiency of the burner device 101 is reduced.

At this time, the control unit 600 may control the compressed air to be sprayed by operating the compressed air spraying member 310 .

Alternatively, when the flow rate of the fluid passing through the duct 110, which is the information detected by the first information detection member 630, is higher than the maximum value of the predetermined flow rate range, the flame formed by the combustion of the fuel is formed in the duct 110. ) can be formed long along the direction. This may mean that the flame is formed relatively longer toward the rear of the duct 110 than the flame formation range when the burner device 101 is designed according to the flow rate of the fluid passing through the duct 110 . The long flame may overheat the duct 110 at the rear where the burner device 101 is installed or transfer heat energy to other pipes connected to the duct 110.

Alternatively, when the flow rate of the fluid passing through the duct 110, which is the information detected by the first information detection member 630, is within the designed flow rate range, the control unit 600 operates the compressed air blowing member 310. can stop And the control unit 600 can maintain the current flame.

At this time, the control unit 600 may operate the compressed air injection member 310 to shorten the length of the flame formed relatively long by the compressed air. That is, the length of the flame may be adjusted by the compressed air injected from the compressed air injection member 310 .

Even when the first information detection member 630 detects the flow rate of the fluid passing through the duct 110, the control unit 600 provides information on the flow rate of the fluid detected by the first information detection member 630 and the predetermined flow rate range. It is possible to control the operation of the compressed air injection member 310 by comparing.

Alternatively, the burner device 101 according to an embodiment of the present invention may further include a second information detecting member 650 .

The second information detecting member 650 may detect temperature information of the inner wall of the duct 110 . Also, the second information detecting member 650 may be installed in the duct 110 at the rear of the main body 120 . That is, the second information detecting member 650 may detect whether overheating occurs because the flame spreading to the rear of the main body 120 contacts the inner wall of the duct 110 .

Information detected by the second information detecting member 650 may be transmitted to the controller 600 . The control unit 600 may compare a predetermined reference temperature information value with the temperature information of the inner wall of the duct 110 detected by the second information detecting member 650 . And the control unit 600 determines that the duct 110 is overheated when the temperature information of the inner wall of the duct 110 detected by the second information detection member 650 is greater than the preset reference temperature information value, and the compressed air blowing member ( The compressed air spraying member 310 may be operated so that compressed air is sprayed from the 310 . Accordingly, the controller 600 can effectively prevent overheating of the duct 110 .

Alternatively, when the temperature information of the inner wall of the duct 110 detected by the second information detection member 650 is equal to or less than a predetermined reference temperature information value, the control unit 600 determines that the duct 110 is not overheated and sprays compressed air. Member 310 can be caused to stop.

In addition, the burner device 101 according to an embodiment of the present invention may further include a flame retainer 500.

The flame retainer 500 may have a hollow interior. Specifically, the heat retaining machine 500 may be provided in a shape having an annular cross section in which one side is open and the other side is open.

In addition, one side of the heat retaining machine 500 may be connected to the main body 120 . That is, one side of the heat retaining machine 500 may be connected to the main body 120 and supported in the duct 110 . In addition, the other side of the heat retaining machine 500 may be expanded in a direction in which the other side is adjacent to the inner wall of the duct 110. Specifically, the diameter of the cross section of the flame retainer 500 may be formed to be relatively larger on the other side than on one side. The outer circumferential surface of the heat retainer 500 may be disposed inside the duct 110 while being spaced apart from the inner circumferential surface of the duct 110 . In addition, the length of the hair retainer 500 in a direction parallel to the longitudinal direction of the duct 110 may be formed relatively shorter than the length of the main body 120 .

Therefore, the flame retainer 500 can stably protect the flame formed by the combustion of fuel when it extends and spreads toward the rear of the main body 120 . That is, when there is no flame retainer 500, it is possible to prevent fluid passing through the outside of the main body 120 from being introduced into a combustion chamber within the main body 120 and interfering with the formation flow of flame.

In addition, the overheat protection unit 300 according to an embodiment of the present invention may further include a plurality of through holes 330 formed in the heat retainer 500 .

The plurality of through holes 330 may be spaced apart from each other along the outer circumferential surface of the flame retainer 500 . Specifically, the fluid passing through the duct 110 is moved toward the flame through the plurality of through holes 330 formed on the outer circumferential surface of the flame retainer 500, and the flame is formed in a direction in which the flame spreads toward the inner wall of the duct 110. can prevent it from happening.

In addition, the burner device 101 according to an embodiment of the present invention may further include a mixer 400.

The mixers 400 may be spaced apart from each other along the longitudinal direction of the duct 110 with the fuel injection member 130 disposed inside the body 120 as the center. That is, a plurality of mixers 400 are disposed inside the main body 120 so that fresh air supplied from the fresh air supply unit 200 and fuel injected from the fuel injection member 130 can be effectively mixed with each other.

One mixer 400 may be disposed inside the main body 120 in front of the fuel injection member 130 . Specifically, one mixer 400 may be disposed between the fresh air supply unit 200 and the fuel supply member 130. One mixer 400 may guide the fresh air supplied from the fresh air supply unit 200 to move effectively without being stagnant inside the main body 120 . That is, the single mixer 400 can effectively move fresh air supplied from the front of the single mixer 400 to the fuel injection member 130 .

The other mixer 400 may be formed in an annular shape so that the outer circumference is supported on the inner wall of the duct 110 and the flame is formed in the center. Another mixer 400 may be formed in a structure in which a plurality of wings are connected.

This other mixer 400 can mix the fresh air and the fuel injected from the fuel injection member 130 to form a stable flame. That is, the other mixer 400 can effectively mix the fuel injected from the fuel injection member 130 and the fresh air so that the flame is stably formed.

In addition, a plurality of compressed air blowing members 310 may be disposed in the burner device 101 according to an embodiment of the present invention.

In addition, the burner device 101 according to an embodiment of the present invention may further include a compressed air spraying member 310 supplying compressed air to the compressed air spraying member 310 . The compressed air injection member 310 may store compressed air and supply the compressed air to the compressed air injection member 310 through a flow path.

In addition, the fresh air supply unit 200 according to an embodiment of the present invention may include a blower for supplying fresh air to the main body 120 and a fresh air passage connecting the blower and the main body 120 . The air freshener passage is connected to the main body 120 at the front of the main body 120 to guide the supply of new air fresheners to the main body 120 .

Hereinafter, a burner device 102 according to another embodiment of the present invention will be described with reference to FIG. 2 .

The burner device 102 according to another embodiment of the present invention includes the burner device 101, the body 120, the fuel injection member 130, the fresh air supply unit 200, and the overheat protection unit 300 according to the above-described embodiment. ) has the same configuration including

However, the overheat prevention unit 300 of the burner device 102 according to another embodiment of the present invention includes the first fireproof member 340 .

The first fireproof member 340 may be installed in an annular shape along the inner circumferential surface of the inner wall of the duct 110 at the rear of the main body 120 . Specifically, the first fireproof member 340 can effectively prevent the inner wall of the duct 110 from being overheated even when flames spreading toward the rear of the main body 120 contact it.

In addition, the overheat protection unit 300 of the burner device 102 according to another embodiment of the present invention may further include a second fireproof member 350 .

The second fireproof member 350 may be disposed on the inner circumferential surface of the flame retainer 500 . Therefore, it is possible to effectively prevent the thermal efficiency of the burner device 102 from deteriorating due to overheating caused by the flame contacting the inner circumferential surface of the flame retainer 500 .

In addition, the burner device 102 according to another embodiment of the present invention may further include the same mixer 400 as the burner device 101 according to the above-described embodiment of the present invention.

Hereinafter, the operating process of the burner device 101 according to an embodiment of the present invention will be described with reference to FIG. 1 .

When the temperature of the fluid passing through the duct 110 is raised by the operation of the burner device 101, the controller 600 operates the fuel injection member 130 to inject fuel into the main body 120. In addition, the control unit 600 operates the fresh air supply unit 200 to supply fresh air necessary for burning the fuel injected from the fuel injection member 130 .

In some cases, the burner device 101 may further include an ignition member, and when it is difficult to spontaneously ignite the injected fuel, the controller 600 may operate it to ignite the fuel.

The controller 600 receives information detected by at least one of the first information detecting member 630 and the second information detecting member 650 . When at least one of these pieces of information is out of a preset reference value range, the control unit 600 operates the compressed air blowing member 310. At this time, the controller 600 may determine that the flame is not stable.

Therefore, the control unit 600 can ensure that the flame is stably maintained.

In addition, the control unit 600, when all the information detected by the above-described first information detection member 630 or the second information detection member 650 is within the reference value range, the control unit 600 of the compressed air blowing member 310 can stop working. At this time, the controller 600 may determine that the flame is stably maintained.

With this configuration, the burner devices 101 and 102 according to the embodiments of the present invention can stably form a flame, effectively preventing loss of thermal efficiency of the burner devices 101 and 102 and overheating of the duct 110. .

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. will be.

Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting, and the scope of the present invention is indicated by the following detailed description of the claims, the meaning and scope of the claims, and All changes or modified forms derived from the equivalent concept should be construed as being included in the scope of the present invention.

101,102: burner device 110: duct
120: body 130: fuel injection member
200: new supply unit 300: overheat protection unit
310: compressed air injection member 320: compressed air supply member
330: plurality of through holes 340: first fireproof member
350: second fireproof member 400: mixer
500: heat retaining machine 600: control unit
630: first information detecting member 650: second information detecting member

Claims (10)

In the burner device installed in the duct through which the fluid passes and generating thermal energy for raising the temperature of the fluid,
a main body disposed inside the duct and spaced apart from an inner circumferential surface of the duct and having a hollow interior;
a fuel injection member for injecting fuel into the body;
a fresh air supply unit supplying fresh air so that the fuel injected from the fuel injection member is combusted to form a flame;
an overheating prevention unit for preventing the duct from being overheated by a flame formed by combustion of fuel; and
A plurality of fuel injection members are arranged spaced apart from each other inside the main body, and one is disposed in the main body between the new fresh air supply unit and the fuel injection member so that the fresh air supplied from the new fresh air supply unit does not stagnate inside the main body. A mixer for moving, and the other is disposed in the main body behind the fuel injection member to mix the fresh air supplied from the fresh air supply unit and the fuel injected from the fuel injection member.
Burner device comprising a. In paragraph 1,
The overheat protection unit,
A burner device comprising a compressed air injection member installed in the duct at the rear of the main body to inject compressed air so that a flame formed by combustion of fuel is stably maintained. In paragraph 2,
The burner device according to claim 1 , wherein the compressed air injection member injects compressed air in a direction from the inner wall of the duct toward the center of the duct at an injection angle (a) in the range of 5 to 60 degrees. In paragraph 2,
a first information detecting member installed in the duct in front of the main body to detect the flow rate or velocity of the fluid passing through the duct; and
A controller for controlling the operation of the compressed air blowing member based on the information detected by the first information detecting member
Burner device further comprising a. In paragraph 2,
a second information detecting member installed in the duct behind the main body to detect the temperature of the inner wall of the duct; and
A controller for controlling the operation of the compressed air blowing member based on the information detected by the second information detecting member
Burner device further comprising a. In paragraph 1,
A burner device further comprising a flame retardant having a hollow interior, one side connected to the main body and the other side extending in a direction adjacent to the inner wall of the duct to surround a flame formed by combustion of fuel. In paragraph 1,
The overheat protection unit,
A burner device comprising a first fireproof member installed on an inner wall of the duct behind the main body. In paragraph 6,
The overheat protection unit,
A burner device including a second refractory member disposed on an inner circumferential surface of the flame retainer. In paragraph 6,
The overheat protection unit,
A burner device comprising a plurality of through holes formed along an outer circumferential surface of the flame retainer. delete

Images