KR100302273B1 - Method preventing drain in a gas boiler - Google Patents

Abstract

The present invention senses that the temperature of the heating and tapping side pipe water and the heating return side pipe water temperature is matched to maintain the equilibrium by detecting the temperature of the hot water and the water return pipe when setting the low temperature of the gas boiler, and by extinguishing the gas boiler to break the equilibrium drain phenomenon It is about how to suppress.

Conventionally, Korean Patent Publication 95-2920 (March 28, 1995) has proposed a method of suppressing the drain phenomenon by forcibly increasing the set minimum calorific value lower limit. If the equilibrium is maintained by the temperature increased by the increase in temperature, the drain phenomenon still occurs.

Therefore, the method of suppressing the drain phenomenon in the gas boiler of the present invention includes a first step of starting the heating operation in the gas boiler; A second step of performing the normal operation by using the heating operation temperature on the heating return side and the temperature on the heating tapping side; A third step of determining a drain phenomenon during the normal combustion operation; A fourth step of performing normal combustion operation if it is not determined as a drain phenomenon and extinguishing the primary heat exchanger 14 if it is determined as a drain phenomenon; After the digestion is performed, the fifth step of repeatedly performing the third step of judging the drain phenomenon may be performed sequentially.

Description

How to suppress drainage in gas boilers {METHOD PREVENTING DRAIN IN A GAS BOILER}

The present invention relates to a method of suppressing a drain phenomenon in a gas boiler, and more particularly, by detecting the temperature of the heating tapping side pipe and the heating returning side pipe water at the low temperature setting of the gas boiler to maintain the equilibrium by maintaining the temperature value. The present invention relates to a method of suppressing drainage by extinguishing a gas boiler in order to recognize an equilibrium and to break the equilibrium.

In general, in the conventional gas boiler, when the user heating set temperature is set in the range from low temperature to high temperature and is selected within the range, combustion starts and at the same time, it is proportionally controlled by the heating tapping temperature and the heating return temperature. Is done.

Accordingly, the proportional control is set close to the user heating set temperature, but when the heating set temperature is maintained at a low temperature, there is a problem that a drain phenomenon occurs in the first heat exchanger while maintaining a balance between the output side temperature and the return side temperature.

Accordingly, Korean Patent Publication 95-2920 (March 28, 1995) proposed a method of suppressing the drain phenomenon by forcibly increasing the set minimum calorific value lower limit.

In this method, however, even if the set minimum calorific value lower limit is forcibly increased, there is still a problem in that a drain phenomenon occurs when the equilibrium is maintained by the temperature increased by the increase in the return temperature.

The present invention has been made to solve the problems of the prior art operating as described above, the main objective is to correctly recognize the drain phenomenon in the gas boiler in some cases, and in response to extinguishing the flame of the primary heat exchanger It is to provide a way to prevent the drain phenomenon in advance.

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

2 illustrates a drain phenomenon suppressing method according to a preferred embodiment of the present invention.

It is a flow chart.

<Explanation of symbols for the main parts of the drawings>

14: Primary heat exchanger TH1: Thermistor 1 for detecting the temperature of hot water for heating

TH2: Thermistor 2 for detecting temperature of heating return

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 a preferred embodiment of the present invention, the method of suppressing the drain phenomenon in the gas boiler comprises a first step of starting the heating operation in the gas boiler; A second step of performing the normal operation by using the heating operation temperature on the heating return side and the temperature on the heating tapping side; A third step of determining a drain phenomenon during the normal combustion operation; A fourth step of performing normal combustion operation if it is not determined as a drain phenomenon and extinguishing the primary heat exchanger 14 if it is determined as a drain phenomenon; After performing the digestion, the fifth step of repeatedly performing the third step of judging the drain phenomenon is configured to be performed sequentially.

In the third step, the drain phenomenon may be determined by comparing whether the user heating set temperature is smaller than a predetermined temperature (X ° C.) during the normal operation. If the matching between the temperature and the temperature on the heating tapping side is maintained for a predetermined time (A), or less than the temperature (X ° C), the matching on the temperature on the heating return side and the temperature on the heating tapping side is constant time (B). Is determined to be maintained for a while.

On the other hand, the predetermined time A and B is set in advance in the microcomputer, but the time value is set to B greater than A, and the predetermined temperature (X ℃) is preferably between 40 ℃ to 50 ℃ within the heating set temperature range. Do.

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 flowchart illustrating a method of suppressing a drain phenomenon according to an exemplary embodiment of the present invention. Referring to Figure 2, the gas boiler starts the heating operation (S2) to perform normal combustion (S4). At this time, the microcomputer of the gas boiler receives the temperature from the heating tapping thermistor (TH1) and the heating return side thermistor (TH2), respectively, and uses the temperature value to determine the current state of the gas boiler.

The user heating set temperature is compared with the predetermined temperature (X ° C.) (S6). Here, the predetermined temperature (X ° C) determines whether the user heating set temperature is set at a low temperature between 40 ° C. and 50 ° C. within the range of the user heating set temperature (40 ° C. to 80 ° C.).

Therefore, while maintaining the equilibrium of the heating tapping temperature and the heating return temperature, the time difference is determined according to the time when the temperature is higher than the predetermined temperature (X ° C.), that is, divided by the A time and the B time (S8). , S12).

When the current state of the gas boiler is low and it is determined that the heating tapping temperature and the heating return temperature are in equilibrium, the microcomputer recognizes the drain phenomenon and extinguishes the flame of the primary heat exchanger 14 (S10).

After the extinguishing, it is again compared with the user heating set temperature and the predetermined temperature (X ° C) to determine whether the drain phenomenon persists (S6) and is repeated until the drain phenomenon is suppressed.

According to the present invention, it is obvious that it is a very advantageous invention that the drain phenomenon can be reliably prevented in advance by correctly recognizing the drain phenomenon in the gas boiler and correspondingly extinguishing the flame of the primary heat exchanger.

Claims (4)

A first step of starting to perform a heating operation in the gas boiler; A second step of performing the normal operation by using the heating operation temperature on the heating return side and the temperature on the heating tapping side; A third step of determining a drain phenomenon during the normal combustion operation; A fourth step of performing normal combustion operation if it is not determined as a drain phenomenon and extinguishing the primary heat exchanger 14 if it is determined as a drain phenomenon; And a fifth step of repeatedly performing the third step from the third step of judging the drain phenomenon after the extinguishing is performed sequentially. The method according to claim 1, The determination of the drain phenomenon in the third step When the user heating set temperature is smaller than the predetermined temperature (X ℃) during the normal operation and the user heating set temperature is larger than the temperature (X ℃), the matching between the temperature on the heating return side and the temperature on the heating tapping side is different. Maintained for a certain time (A), or When the temperature (X ° C.) is less than, the matching between the temperature on the heating return side and the temperature on the heating tapping side is determined to be maintained for a predetermined time (B). The method according to claim 1 or 2, The predetermined time A and B are set in advance in the microcomputer, but the time value is set to B greater than A, the method of suppressing the drain phenomenon in the gas boiler. The method according to claim 1, And said predetermined temperature (X ° C) is between 40 ° C and 50 ° C in a range of heating preset temperature (40 ° C to 80 ° C).