The present invention relates to a burner having variable output structure, and more particularly, to a burner having variable output structure that can adjust an output of a burner by adjusting the position of a flame-hole plate.
In general, according to a method of burning gas fuel in a gas boiler, in the case of a premixed burner, gas and air are mixed in advance with each other at a mixture ratio corresponding to optimum combustion, and then supplied to a flame-hole surface so as to be burned.
A burner includes a gas valve 10 that adjusts the pressure of gas supplied to the burner, a nozzle 20 that injects the gas supplied through the gas valve 10, a mixture inlet 30 through which the gas injected from the nozzle 20 is mixed and supplied, an inner space 41 of the burner 40 to which the mixture supplied through the mixture inlet 30 is supplied, and a flame-hole plate 42 that includes a plurality of flame holes 42a in order to inject the mixture supplied to the inner space 41 to a combustion chamber (not shown).
When load required in a combustion device is large, the gas valve 10 is controlled so that the gas is supplied to the burner at high pressure for the purpose of high output of the burner. In contrast, when the load required in the combustion device is small, the gas valve is controlled so that the gas is supplied to the burner at low pressure for the purpose of low output of the burner.
In this case, the speed of the mixture, which is injected into the combustion chamber through the flame holes 42a, depends on the gas pressure that is determined by the control of the gas valve 10. That is, if the gas pressure is high, the speed of the mixture injected through the flame holes 42a is high.
However, according to the burner having the above-mentioned structure, when the load required in the combustion device is small, if the gas is supplied at low pressure, flames are generated on the inner surface of the flame-hole plate 42 facing the inside of the combustion chamber. As a result, there is a problem in that combustion is abnormally performed.
That is, if the speed of the mixture injected through the flame holes 42a is a predetermined speed or less, backfire where flames are generated in the flame holes 42a occurs.
The present invention has been made to solve the above-mentioned problem, and an object of the present invention is to provide a burner having variable output structure that maintains the speed of the mixture injected through flame holes at a predetermined speed or more by supplying gas through a gas valve at a predetermined pressure or more, and prevents the occurrence of backfire at a low output by adjusting an opened area of the flame holes.
In order to the above-mentioned object, according to the present invention, a burner having variable output structure includes a flame-hole plate that includes a plurality of flame holes formed on the surface thereof exposed to a combustion chamber, and a flame hole adjusting unit that changes an output by adjusting the size of each flame hole according to load required in a combustion device.
In this case, the flame-hole plate may be formed of a stationary flame-hole plate that includes stationary flame holes and is not moved. The flame hole adjusting unit may be formed of a movable flame-hole plate that is disposed to come in contact with the stationary flame-hole plate, includes a plurality of variable flame holes at positions corresponding to the stationary flame holes of the stationary flame-hole plate, and is moved to adjust the amount of the mixture injected through the stationary flame holes.
The burner having variable output structure may further include a driving unit for changing the position of the movable flame-hole plate while the movable flame-hole plate comes in contact with the stationary flame-hole plate.
As described in detail above, the burner having variable output structure according to the present invention can obtain an advantage of stably performing combustion without backfire even at a low output by adjusting the size of the flame hole that is formed in the flame-hole plate.
The structure and operation of a preferred embodiment of the present invention will be described in detail below with reference to accompanying drawings.
The present invention relates to a burner that can freely adjust an output thereof by adjusting the size of a flame hole through which the mixture is injected while the pressure of gas is maintained constantly.
Referring to
It is possible to adjust the amount of the mixture, which is injected through the stationary flame holes 110a, by adjusting the size of each flame hole. That is, if the size of each stationary flame hole 110a through which the mixture is injected is adjusted while the pressure of gas supplied through the gas valve 10 shown in
For this purpose, a flame hole adjusting unit, which adjusts the size of each stationary flame hole 110a, needs to be provided.
The flame hole adjusting unit may include, for example, a movable flame-hole plate 120 including variable flame holes 120a, and a driving unit 130 that changes the position of the movable flame-hole plate 120.
The movable flame-hole plate 120 is disposed to come in contact with one surface of the stationary flame-hole plate 110, and includes variable flame holes 120a at positions corresponding to the stationary flame holes 110a of the stationary flame-hole plate 110 so that the number of the variable flame holes 120a is equal to that of the stationary flame holes 110a.
In this case, when the position of the movable flame-hole plate 120 is changed, the positions of the variable flame holes 120a corresponding to the stationary flame holes 110a are changed, so that an opened area of the stationary flame holes 110a is changed. Therefore, the amount of the mixture, which is injected through the stationary flame holes 110a, is adjusted.
The driving unit 130 may be, for example, a stepping motor (not shown) that is coupled with the movable flame-hole plate 120. Accordingly, if the R.P.M. (revolutions per minute) of the stepping motor is controlled according to load required in a combustion device, the movement distance of the movable flame-hole plate 120 is adjusted. As a result, the opened area of the stationary flame holes 110a is changed, so that the output of the burner is adjusted.
That is, when a high output is required, the position of the movable flame-hole plate 120 is controlled so that the stationary flame holes 110a are opened as shown in
According to this structure, even if a low output is required in the combustion device, the speed of the mixture injected through the stationary flame hole 110a can be maintained at a predetermined speed or more because the pressure of gas is maintained at a predetermined pressure or more. Therefore, it is possible to prevent the occurrence of backfire where flames are generated at the inside of the stationary flame hole 110a.
Meanwhile, the movable flame-hole plate 120 has been controlled by the driving unit 130 in the embodiment shown in
Although the present invention has been described in connection with the exemplary embodiments of the present invention, it will be apparent to those skilled in the art that various modifications and changes may be made thereto without departing from the scope and spirit of the invention.
Number | Date | Country | Kind |
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10-2007-0058927 | Jun 2007 | KR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/KR08/01437 | 3/14/2008 | WO | 00 | 12/15/2009 |