KR100291491B1 - Method controlling a gas boiler according to gas press - Google Patents

Abstract

The present invention relates to a method of removing the air friction noise by adjusting the amount of air by adjusting the air down phenomenon by lowering the user set temperature to reduce the excess air caused by the gas pressure.

In accordance with an aspect of the present invention, there is provided a method of operating a gas boiler, the method including: a first step of starting operation of a system of a gas boiler; Detecting the heating hot water temperature and the heating return temperature according to the operation of the system to perform normal combustion; A third step of detecting a decrease in gas pressure during normal combustion; A fourth step of lowering a user set temperature when the gas pressure drop is detected; A fifth step of detecting a downward adjustment of the user set temperature by detecting a temperature of the heated hot water; When the downward adjustment is confirmed, the sixth step of performing normal combustion by maintaining the state until the air friction sound does not occur is characterized in that it is sequentially performed.

Description

Operation Method by Gas Pressure Reduction of Gas Boiler {METHOD CONTROLLING A GAS BOILER ACCORDING TO GAS PRESS}

The present invention relates to a method of operating a gas boiler according to a decrease in gas pressure, and more particularly, to a method of removing air friction noise by adjusting an amount of air by lowering a user set temperature to an excess of air caused by a decrease in gas pressure. will be.

In general, the gas boiler is supplied with a larger amount of air than a relatively necessary amount of air due to a decrease in gas pressure due to lack of vaporization in the LPG gas cylinder, thereby generating an air friction sound (resonance sound). Such air friction noise has been a major problem by acting to reduce the user's confidence in the use of the gas boiler.

In order to solve this problem, the rotation speed of the exhaust fan was lowered to reduce the amount of air until the beep disappears. That is, the rotation speed of the exhaust fan is adjusted by lowering the current value with respect to the exhaust fan instruction value, and the amount of air is adjusted accordingly.

However, the above-described method has a problem of causing an imbalance in proportional control by simply adjusting the air amount by lowering the rotation speed of the exhaust fan. That is, although the rotation speed of the exhaust fan is reduced, the proportional valve and the tap water temperature are controlled only by the previous data, so that the exhaust fan does not match with each other and may malfunction.

The present invention has been made to solve the problems of the prior art operating as described above, the main object is to reduce the air excess phenomenon caused by the decrease in gas pressure to the user set temperature down, proportional control according to the down adjusted value It is to provide a method that can remove the air friction noise by adjusting the amount of air.

1 is a block diagram showing an entire system of a gas boiler applied to the present invention,

2 is a gas pressure reduction in a gas boiler according to a preferred embodiment of the present invention.

It is a flowchart showing the operation method according to.

<Explanation of symbols for main parts of the drawings>

12: burner group 13: exhaust fan

53: proportional valve

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be more apparent from the following detailed description based on the accompanying drawings in order to achieve the above object.

1 shows a gas boiler 1 to which the present invention is applied, which is installed in a casing 2 of the gas boiler 1 to burn a gas to heat hot water for heating or hot water supply. And, the water tank 20 for replenishing the heating circulation water, and the secondary heat exchanger 30 for exchanging heat through a different path with the heating water already heated to warm the hot water coming from the outside with hot water It is composed by combining with each other.

At this time, a burner group 12 including a plurality of burners is formed in the casing 11 of the combustor 10, and a primary heat exchanger 14 is installed in the upper direction thereof to prevent overheating and the water passing therethrough. The burner group 12 is heated, and a fan 13 for supplying combustion air is installed at the bottom of the combustor casing 11, and the burner group 12 is provided near the burner group 12. A spark plug 15 for ignition and a flame rod 16 for detecting ignition of the burner group are installed, and an exhaust part 18 for discharging waste gas is provided on the upper surface of the combustor casing 11. Is formed through the case 2 of the gas boiler (1).

In addition, a gas pipe 50 for supplying gas is installed below the burner group 12, wherein two solenoid valves 51 and 52 for passing the gas at the time of energization and a proportional valve for adjusting the gas supply amount are provided. 53 is provided from the upstream of the gas pipe 50 with respect to the gas supply path.

Meanwhile, the water tank 20 has a high water level sensor 21 for detecting the quantity of water in the water tank, an overflow pipe 22 for discharging excess water, and whether the water is empty or filled in the pipeline. Low water level detection sensor 32 to detect, the heating return pipe 24 is installed with a separator 23 for recovering the heating water rotated on the bottom floor and the water supply pipe 25 for supplying water to the primary heat exchanger (14) ) Is provided with a circulation pump 26 for adjusting the circulation of water in the downward direction.

In addition, thermistor 1 (TH1) for detecting the temperature of the heated hot-water flowing out of the primary heat exchanger (14) and the temperature of the heating return for entering the heat exchanger for the primary heat exchanger (14) are detected. Thermistor2 (TH2) is attached to measure the temperature of each heating shaft water and heating return, and the flow switch (Flow Swith: FLS, 33) to detect the presence of water flow when cold water flows in from the outside of the gas boiler Water flows through the three-way valve 36 through the three-way valve 36 through the inlet pipe 34 and the water supply pipe 25 in which a mechanical automatic quantity control device is installed to obtain a stable temperature characteristic by passing a predetermined amount according to temperature. Is connected to the heating hot water supply pipe 37.

In addition, between the heating return pipe 24 and the direct water inlet pipe 34 is provided with a tap water supply valve 35 for replenishing water when the water tank 20 is insufficient, clogging of the heating filter, heating distributor By-pass pipe (38) is installed to make and circulate the internally closed circuit of the gas boiler (1) when clogging and heating distribution pipe are blocked.

In accordance with an aspect of the present invention, there is provided a method of operating a gas boiler, the method including: a first step of starting operation of a system of a gas boiler; Detecting the heating hot water temperature and the heating return temperature according to the operation of the system to perform normal combustion; A third step of detecting a decrease in gas pressure during normal combustion; A fourth step of lowering a user set temperature when the gas pressure drop is detected; A fifth step of detecting a downward adjustment of the user set temperature by detecting a temperature of the heated hot water; When the downward adjustment is confirmed, the sixth step of performing normal combustion while maintaining the state is configured to be sequentially performed.

In addition, in the third step, detecting the decrease in the gas pressure is determined that the gas pressure is lowered when the heating tap temperature is less than or equal to the predetermined value (A), but the calculation of the predetermined value (A) is Tset is the user heating set temperature, T2. Is the temperature of thermistor 2 (TH2), a is the gas input amount [Kcal / min] required to raise 1 ° C, and A = | Tset-T2 | It is preferable that it consists of xa.

The invention can be variously modified and can take various forms and only the specific examples thereof are described in the following detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the following description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the present invention configured as described above are as follows.

2 is a flow diagram illustrating a method of detecting and responding to a gas pressure drop in a gas boiler according to a preferred embodiment of the present invention.

Referring to Figure 2, by the user's power switch to start the operation of the gas boiler system (S2), the microcomputer of the gas boiler detects the heating hot water temperature and the heating return temperature to determine the system state of the user Normal combustion is performed by proportional control according to the set temperature (S4).

The gas pressure drop is detected during normal combustion (S6). If the heating tapping temperature (T1) input through TH1 is less than or equal to the predetermined value (A) previously inputted and stored in the microcomputer, it is determined that the gas pressure is lowered. The value (A) is | Tset-T2 | It is calculated as x a.

Where Tset is the user heating set temperature, T2 is the temperature of thermistor 2 (TH2), and a is the gas input amount [Kcal / min] required to raise 1 ° C, respectively.

That is, the lowering of the gas pressure is determined based on the gas input amount for the difference between the heating tapping temperature T1, the user heating set temperature Tset, and the heating return temperature T2.

When it is determined that the gas pressure decreases, the opening and closing amount of the proportional valve 53 is adjusted and the fan rotation speed of the exhaust fan 13 is reduced by adjusting the user set temperature Tset downward. The amount of air on the burner group 12 is reduced to remove air friction noise.

In some cases, as the user set temperature Tset is adjusted downward, the digestion may be performed when the temperature is equal to the current temperature.

And after detecting the temperature (T1) of the heating hot water and confirming the downward adjustment of the user-set temperature (S10), if the downward adjustment is not made, adjust again until no air friction sound is generated. If the downward adjustment is confirmed (S12) while maintaining the state to perform normal combustion (S4).

Therefore, by lowering the user set temperature (Tset) in response to the gas pressure decrease, the number of revolutions of the exhaust fan 13 is reduced and consequently the amount of air can be reduced to remove the air friction noise caused by the gas pressure decrease.

According to the present invention, it is apparent that the air excess phenomenon caused by the decrease in gas pressure is a very advantageous invention that can remove air friction noise by adjusting the air amount by adjusting the user set temperature down.

Claims (3)

A first step of starting operation of the system of the gas boiler; Detecting the heating hot water temperature and the heating return temperature according to the operation of the system to perform normal combustion; A third step of detecting a decrease in gas pressure during normal combustion; A fourth step of lowering a user set temperature when the gas pressure drop is detected; A fifth step of detecting a downward adjustment of the user set temperature by detecting a temperature of the heated hot water; If the downward adjustment is confirmed, the sixth step of performing normal combustion by maintaining the state until the air friction noise does not occur sequentially operating according to the gas pressure drop of the gas boiler. The method according to claim 1, Detecting the decrease in the gas pressure in the third step is determined that the gas pressure is lowered if the heating tap temperature (T1) is less than or equal to the predetermined value (A). The method according to claim 2, Calculation of the constant value A Tset is the user heating set temperature, T2 is the heating return temperature detected by thermistor 2 (TH2), a is the gas input amount [Kcal / min] required to raise 1 ° C, A = | Tset-T2 | A method of operating a gas boiler in accordance with a reduced gas pressure, characterized in that a.