KR20120003132A - Individual heating system and control method for heating - Google Patents

Abstract

PURPOSE: An individual heating system and a heating control method are provided to maintain circulating hot water at over minimum amount since a control valve corresponding to a room, to which hot water is not supplied, is opened, so required amount of hot water is supplied. CONSTITUTION: An individual heating system(100) comprises a hot water supply pipe(115), a how water supply header(120), a plurality of hot water pipes(130a~130d), a hot water recovering header(135), a hot water recovering pipe(140), a plurality of hot water control valves(145a~145d), a plurality of drivers(150a~150d), and a control unit(155). The hot water supply pipe is connected to a boiler to supply heating water. The hot water supply header is connected to the hot water supply pipe and distributes hot water supplied to the hot water supply pipe, to each room(125a,125b,125c,125d).

Description

Individual heating system and heating control method {INDIVIDUAL HEATING SYSTEM AND CONTROL METHOD FOR HEATING}

The present invention relates to an individual heating system, and more particularly, to an individual heating system and a heating control method capable of safe and efficient operation by maintaining a hot water circulation flow rate higher than an operating minimum flow rate required for boiler operation even when the heating load decreases. will be.

If the heating method of MDU is largely classified according to the production method of heat source, it can be classified into individual heating method, central heating method, and district heating method. The individual heating method is heating operation by individual boilers installed by generation, and the central heating method is a method of supplying the heat source produced in the central machine room of each complex to each household directly or through a heat exchanger of the machine room. District heating is a method of supplying heat sources produced by a certain area or a certain scale of heat production facilities to a multi-family housing complex or a large building. The characteristics of each of these heating methods are as follows.

The individual heating method is a method of producing heat sources for each generation of apartment houses and heating them individually, and as the efficiency of home boilers increases, miniaturization, and fuels diversified from oil to electricity and city gas are increasing. In particular, the individual heating method using these small boilers has the advantage of solving the unreasonable aspect of the heating cost collection compared to the central heating method, and reducing the management cost and operating cost depending on the will of the residents.

The central heating method is the heating method applied to most apartment houses until the district heating method is introduced. The central machine room is installed in the complex, and the hot water is heated to around 100 ° C by one or several boilers, and the heat exchange is performed in the intermediate machine room. It converts the medium temperature water into low temperature water suitable for floor heating and supplies hot water to each household. In this method, the hot water supply time, time and frequency are intermittent hot water supply three to four times a day according to the preset heating operation schedule, which is based on the fluctuation of outside temperature in the area.

The supply of large-scale heat sources by district heating has expanded rapidly with the development of new cities. In the multi-family house that performs district heating, a calorimeter or flow meter is installed for each household, and a temperature controller is attached for each household or room, so that actual room temperature control is possible. In district heating, the heat source distribution system can be divided in terms of the distribution of heat sources.The division of the machine room that controls the heat source supply from the district heating corporation to the primary side, and the heat source supplied from the district heating system for the heating of the household, is transferred to the secondary side and the household The heat source supply can be divided into tertiary side.

In the heating method of such a multi-family house, a heating system is provided for each household. The heating system includes a hot water supply header for distributing hot water supplied to each room, a hot water return header for recovering hot water discharged from each room, and a plurality of hot water pipes connected to each room. The hot water supplied to the hot water supply header is distributed to each room through the plurality of hot water pipes, and the hot water passed through the hot water pipe is returned to the hot water supply header.

In the case of the individual heating system, the heating capacity of the boiler to supply hot water is determined at the time of boiler design, and each household is supplied with a boiler having a heating capacity. In general, boilers perform both heating and hot water functions simultaneously. Heating loads account for about 30% while hot water loads account for about 70%, and boiler capacity tends to be overdesigned by the hot water load. There is this.

)이 결정되는데, 보일러의 열량(

)은 다음과 같은 식으로 나타낼 수 있다.Boiler operating heat in boiler design (

) Is determined, the heat of the boiler (

) Can be expressed as

는 유량이고,

는 비열이며,

는 온도 편차를 나타낸다.

는 상수이므로, 온수의 유량

과 온수의 온도 편차

가 보일러의 열량에 영향을 주는 인자이다.From here,

Is the flow rate,

Is specific heat,

Represents the temperature deviation.

Since is a constant, the flow rate of hot water

Temperature range of hot water

Is a factor that affects the heat of the boiler.

In an individual heating system, the minimum heat required for boiler operation is determined by the operating heat of the boiler. Here, the operating minimum flow rate of the boiler represents the minimum flow rate required to prevent a problem in the operation of the boiler. In operating a boiler, problems can arise if the boiler does not have a minimum operating flow rate.

That is, if the hot water circulation flow rate supplied from the boiler and returned to the boiler through each room falls short of the operating minimum flow rate, the hot water temperature of the boiler rises rapidly and the temperature rises more than the upper limit of the normal temperature and prevents the boiler from overheating. The function cuts off the boiler temporarily, turning off the boiler completely. Here, the overheat prevention function of the boiler is a function that is essentially built in the boiler to prevent problems such as the explosion of the boiler when the hot water temperature in the boiler rises above a certain level. Therefore, the boiler needs to be restarted for heating. In the process of restarting the boiler, the combustion efficiency of gas decreases due to the increase of incomplete combustion of gas, and eventually the gas consumption increases. In conclusion, if the minimum operating flow rate required for the operation of the boiler cannot be secured, the amount of gas is used to increase the heating cost and waste energy.

The present invention is to solve this problem, by maintaining the hot water circulation flow rate above the minimum operating flow rate required for the operation of the boiler, safe and efficient operation of the boiler, individual heating system and heating control to reduce the gas consumption It is an object to provide a method.

Individual heating system according to an embodiment of the present invention for achieving the above object, the hot water supply pipe connected to the boiler to supply the heating hot water, the hot water to distribute the hot water supplied to the hot water supply pipe to each room Hot water supply header connected to a supply pipe, a plurality of hot water pipes connected to the hot water supply header to provide hot water of the hot water supply header to each room, the plurality of hot water to collect hot water passed through the plurality of hot water pipes A hot water return header connected to the pipe, a hot water return pipe connecting the boiler and the hot water return header to return hot water collected in the hot water return header to the boiler, and to control the flow of hot water through the respective hot water pipes. A plurality of hot water control valves installed in respective hot water pipes, and the respective hot water to adjust the opening amount of the plurality of hot water control valves. A plurality of actuators coupled to a shut-off valve, a control device for controlling the plurality of actuators, wherein the hot water circulation is cut off from the plurality of rooms to be supplied to some of the rooms and is supplied from the boiler and returned to the boiler. If the flow rate does not reach the minimum operating flow rate required for the operation of the boiler, the controller opens the hot water control valve of the hot water pipe connected to the room where the hot water supply is cut off and flows the hot water to the room where the hot water supply is cut off. The circulation flow rate is maintained above the operating minimum flow rate.

When there is a plurality of rooms in which the hot water supply is cut off, the control device opens each hot water control valve corresponding to the room where the hot water supply is cut off or opens a hot water control valve corresponding to the selected specific room at the minimum flow rate of the operation. The insufficient amount of hot water can be distributed and flowed into the room where the hot water supply is cut off.

Individual heating system according to an embodiment of the present invention may further include a flow meter for measuring the hot water circulation flow rate and providing the measurement signal to the control device.

In addition, the controller may maintain the hot water circulation flow rate above the operation minimum flow rate by comparing the operation minimum flow rate data input in advance and whether each room is opened or closed and the hot water circulation flow rate information received from the flow meter.

Heating control method according to an embodiment of the present invention for achieving the above object, (a) operating a boiler to produce hot water for heating of each room, (b) a plurality for supplying hot water to each room Supplying hot water produced by the boiler to a hot water supply header connected to a hot water pipe of (c) hot water control connected to a hot water pipe corresponding to a room requiring heating among a plurality of hot water control valves respectively installed in the plurality of hot water pipes; Supplying hot water to a hot water pipe corresponding to a room requiring heating by opening a valve; and (d) hot water passing through the plurality of hot water pipes through a hot water return header connected to the plurality of hot water pipes to the boiler. (E) measuring the circulating flow rate of the hot water supplied from the boiler and returned to the boiler; and (f) hot water for some of the plurality of rooms. If the hot water is blocked and the flow rate of the hot water circulation does not reach the minimum operating flow rate required for the operation of the boiler, the hot water supply valve is blocked by opening a hot water control valve corresponding to a room where the hot water supply is cut off from the plurality of hot water control valves. Maintaining the hot water circulation flow rate above the operating minimum flow rate by flowing hot water into the room.

In the step (f), when there are a plurality of rooms where the hot water supply is cut off, each of the hot water regulating valves corresponding to the rooms where the hot water supply is cut off is opened, or the hot water regulating valve corresponding to the selected specific room is opened to minimize the operation. The amount of hot water insufficient in the flow rate can be distributed and flowed to the room where the hot water supply is cut off.

In addition, the step (f) is performed by a command of the control device, the control device compares the pre-input operation minimum flow rate data with each room opening and closing and the hot water circulation flow rate information received from the flow meter to determine the hot water circulation flow rate Can be maintained above the minimum operating flow rate.

In the individual heating system according to the present invention, when the hot water circulation flow rate does not reach the minimum operating flow rate required for the operation of the boiler, the minimum flow rate is opened to the room where the hot water supply is blocked by opening the hot water control valve corresponding to the room where the hot water supply is blocked. By flowing hot water by the flow rate insufficient in the above, the hot water circulation flow rate can be maintained above the operating minimum flow rate.

Therefore, in order to prevent the rapid increase of the hot water temperature due to the lack of the hot water circulation flow rate, to prevent damage caused by the hot water whose temperature has risen above the set value, the operation of the boiler due to the operation of the overheat prevention function, the reduction of gas combustion efficiency, etc. The problem can be solved, the safe and efficient operation of the boiler, and the gas consumption can be reduced.

1 is a block diagram showing an individual heating system according to an embodiment of the present invention.
Figure 2 shows a typical pump lift curve of the boiler provided in the individual heating system.

Hereinafter, with reference to the accompanying drawings, it will be described in detail for the individual heating system and heating control method according to an embodiment of the present invention.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

As shown in Figure 1, the individual heating system 100 according to an embodiment of the present invention, the boiler 110 for producing hot water, hot water supply pipe 115 for supplying hot water produced in the boiler 110 ), A plurality of hot water pipes for providing hot water of the hot water supply header 120 connected to the hot water supply pipe 115 and the hot water of the hot water supply header 120 to each of the rooms 125a, 125b, 125c, and 125d. 130a) (130b) 130c (130d), a plurality of hot water pipes (130a) 130b (130c) (130c) collected in the hot water return header 135, hot water return header 135 to collect the hot water passed through In order to return the hot water to the boiler 110 is installed in the hot water return pipe 140, the plurality of hot water pipes 130a, 130b, 130c, 130d connecting the boiler 110 and the hot water return header 135. A plurality of drivers 150a, 150b, 150c coupled to a plurality of hot water control valves 145a, 145b, 145c, 145d, and a plurality of hot water control valves 145a, 145b, 145c, 145d. 150d and control the overall operation of the heating system 100. And a device (155).

On the hot water supply header 120 side of the plurality of hot water pipes 130a, 130b, 130c, 130d for manually adjusting the flow rate of hot water through the hot water pipes 130a, 130b, 130c, 130d. A plurality of manual open and close valves (160a, 160b, 160c, 160d) may be installed. The user may operate the manual open / close valves 160a, 160b, 160c, and 160d to block the flow of hot water through the hot water pipes 130a, 130b, 130c, and 130d. In addition, the individual heating system 100 according to the present invention is a plurality of thermostats (165a) (165b) (165c) (165d) for setting the heating temperature of each room (125a, 125b, 125c, 125d) And a flow meter 170 for measuring the circulation flow rate of the hot water supplied from the boiler 110 and returned to the boiler 110. Although the figure shows that the flow meter 170 is installed in the hot water return pipe 140, the flow meter 170 may be installed at another position capable of measuring the flow rate of the hot water circulation.

The hot water supply header 120 connects a hot water supply pipe 115 for supplying hot water produced by the boiler 110 and a plurality of hot water pipes 130a, 130b, 130c, 130d, and a hot water supply pipe ( The hot water supplied through 115 is distributed to each of the hot water pipes 130a, 130b, 130c, and 130d. The hot water return header 135 connects the plurality of hot water pipes 130a, 130b, 130c, 130d and the hot water return pipe 140 to connect the plurality of hot water pipes 130a, 130b, 130c, 130d. It collects the hot water flowing through it serves to return to the boiler 110 through the hot water return pipe 140.

Hot water control valves 145a, 145b, 145c installed in a plurality of hot water pipes 130a, 130b, 130c, 130d for supplying hot water to each of the rooms 125a, 125b, 125c, and 125d. 145d serves to adjust the flow rate of the hot water flowing through the hot water pipes 130a, 130b, 130c, and 130d. Drivers 150a, 150b, 150c and 150d are coupled to the respective hot water control valves 145a, 145b, 145c and 145d. These drivers 150a, 150b, 150c and 150d are for controlling the opening amount of the hot water control valves 145a, 145b, 145c and 145d and are controlled by the controller 155. The controller 155 controls the actuators 150a, 150b, 150c and 150d to adjust the opening amount of the hot water regulating valves 145a, 145b, 145c and 145d to control the hot water pipes 130a and 130b. Control the flow rate of the hot water through the 130c, 130d.

The controller 155 receives the heating set temperature for each of the rooms 125a, 125b, 125c, and 125d through the plurality of temperature controllers 165a, 165b, 165c, and 165d. And a plurality of drivers 150a, 150b, 150c and 150d. In addition, the control device 155 is supplied from the boiler 110 through the flow meter 170 installed in the hot water return pipe 140 is provided with a hot water circulation flow rate is returned to the boiler 110, the hot water circulation flow rate is the boiler The opening degree of each hot water control valve 145a, 145b, 145c, and 145d is adjusted to be maintained at or above a minimum operating flow rate required for operation of the 110.

As mentioned above, if the hot water circulation flow rate during the heating operation falls short of the operating minimum flow rate, the temperature of the hot water rises rapidly, and the temperature rises more than the normal controllable temperature. Will turn off completely. Therefore, there is a problem that the amount of gas used increases due to incomplete combustion of the gas (combustion efficiency at the time of gas ignition) in the process of restarting the boiler. For this reason, the present invention, if the hot water supply to some of the plurality of rooms (125a) (125b) (125c) (125d) is blocked and the hot water circulation flow rate does not reach the minimum operating flow rate, a certain amount of water into the room is blocked The hot water is flowed to maintain the hot water circulation flow rate above the operating minimum flow rate.

Figure 2 shows a typical pump lift curve of the boiler provided in the individual heating system. In the pump lift curve of FIG. 2, curves a, b, c, and d represent system resistance values according to the number of rooms to which hot water is supplied, and curve a is system resistance when hot water is supplied to one room, and curve b Is the system resistance when hot water is supplied to two rooms, curve c is the system resistance when hot water is supplied to three rooms, and the curve d is the system resistance when hot water is supplied to four rooms. Respectively. As can be seen from the graph, the hot water circulation flow rate decreases as the number of rooms to which hot water supply is cut off increases in the plurality of rooms.

The pump lift curve is a curve determined according to the length, layout, and heating system of the pump used in each room. That is, in a specific heating system, a certain pump lift curve is displayed.

On the other hand, as mentioned above, since the operating heat (Q) of the boiler can be expressed by the following equation,

)이 감소하면 온수의 온도 편차(

)가 정상적인 경우보다 커지게 된다. 즉, 온수 순환 유량(

)이 감소하면 정상적으로 제어가능한 온수 온도의 상한치보다 온수의 온도가 상승하게 된다. 이러한 문제는 온수 순환 유량(

)을 일정 값 이상으로 유지시키면 해결할 수 있다.Hot water circulation flow rate (

) Decreases, the temperature variation of the hot water (

) Becomes larger than normal. That is, the hot water circulation flow rate (

The decrease of) increases the temperature of the hot water above the upper limit of the normally controllable hot water temperature. This problem is caused by hot water circulation flow rate (

) Can be solved by keeping it above a certain value.

)이 100으로 설정된 경우, 온도 편차(

)를 10 이하로 유지시키고자 할 경우, 온수 순환 유량(m)을 10 이상으로 유지시켜야 하며, 이때 운전 최소 유량은 10이 된다.For example, the operating heat of a boiler (

) Is set to 100, the temperature deviation (

) Is to be kept below 10, the hot water circulation flow rate (m) should be maintained above 10, the operating minimum flow rate is 10.

In the case of a boiler and a heating system having a pump lift curve shown in FIG. 2, when the hot water is supplied to only one or two rooms, the hot water circulation flow rate does not reach the operating minimum flow rate of 10, so that one room or two When hot water is supplied only to the room, the hot water circulation flow rate can be maintained above the operating minimum flow rate by supplying hot water with insufficient flow rate at the minimum flow rate to the room where the hot water supply is cut off. For example, the hot water circulation flow rate when the hot water is supplied to two rooms is 8, so distributing 2 hot water to the remaining two rooms or supplying 2 hot water to one room will maintain the hot water circulation flow rate to 10. Can be.

In the individual heating system 100 according to the present invention, hot water supply to some of the plurality of rooms 125a, 125b, 125c, and 125d is blocked by using this principle so that the hot water circulation flow rate does not reach the minimum operating flow rate. If not, the controller 155 opens the hot water control valve corresponding to the room where the hot water supply is cut off from the plurality of hot water regulating valves 145a, 145b, 145c and 145d to supply hot water to the room where the hot water supply is blocked. By flowing, the hot water circulation flow rate is maintained above the operating minimum flow rate. If there are a plurality of rooms where the hot water supply is cut off, the controller 155 may open each hot water control valve corresponding to the room where the hot water supply is cut off, or open the hot water control valve corresponding to the selected specific room to minimize operation. The amount of hot water insufficient in the flow rate can be flowed into the room where the hot water supply is cut off.

Hereinafter, the heating control method of the individual heating system 100 according to an embodiment of the present invention will be described in more detail.

The user adjusts the hot water regulators 165a, 165b, 165c, and 165d so that a heating room among the plurality of rooms 125a, 125b, 125c, 125d and each room 125a, 125b, 125c is required. By setting the heating temperature for 125d, the boiler 110 is operated to produce hot water. When the boiler 110 operates, hot water is supplied to the hot water supply header 120 through the hot water supply pipe 115 under the action of a boiler pump (not shown). The controller 155 closes the hot water control valve corresponding to the room without heating among the plurality of hot water control valves 145a, 145b, 145c, and 145d.

The hot water supplied to the hot water supply header 120 flows into a hot water pipe connected to a room requiring heating among the plurality of hot water pipes 130a, 130b, 130c, and 130d to heat the room requiring heating, and then returns the hot water. Flow to the header 135. The hot water collected by the hot water return header 135 is returned to the boiler 110 through the hot water return pipe 140.

During the hot water circulation process, the flow meter 170 installed in the hot water return pipe 140 measures the hot water circulation flow rate and provides the measurement signal to the control device 155, and the control device 155 inputs the minimum operation data of the minimum flow rate. And whether the hot water circulation flow rate is less than the minimum operation flow rate based on the opening and closing of each room and the measured signal. If the hot water circulation flow rate does not reach the minimum operating flow rate, the controller 155 may include a hot water control valve corresponding to a room in which the hot water supply is cut off among the plurality of hot water control valves 145a, 145b, 145c, and 145d. It is opened and flowed into the room where the hot water supply is cut off by the amount of hot water which is insufficient flow at the minimum operating flow rate or the flow rate plus the margin value. At this time, since the amount of hot water supplied to the room that does not require heating is small, the effect thereof is not large.

In the present invention, when the flow meter 170 is disposed upstream of the hot water supply header 120 on the hot water flow path, the hot water circulation flow rate does not reach the operating minimum flow rate when the hot water supply header 120 starts to supply hot water. The hot water circulation valve 145a, 145b, 145c, and 145d may be controlled so that the hot water circulation flow rate is equal to or greater than the minimum operating flow rate.

As such, the individual heating system 100 according to an embodiment of the present invention maintains the hot water circulation flow rate above the operating minimum flow rate, thereby rapidly increasing the hot water temperature due to the lack of the hot water circulation flow rate, and preventing the overheating of the boiler. The conventional problem that the consumption of gas is increased by stopping the operation, reducing the gas combustion efficiency when the boiler is restarted can be solved.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention, and the protection scope of the present invention is limited only by the matters described in the claims. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

100: heating system 110: boiler
115: hot water supply pipe 120: hot water supply header
125a ~ 125d: Room 130a ~ 130d: Hot Water Pipe
135: hot water return header 140: hot water return piping
145a ~ 145d: Hot water control valve 150a ~ 150d: Actuator
155: control device 160a ~ 160d: manual control valve
165a ~ 165d: thermostat 170: flow meter

Claims (7)

A hot water supply pipe connected to the boiler for supplying heating hot water;
A hot water supply header connected to the hot water supply pipe to distribute hot water supplied to the hot water supply pipe to each room;
A plurality of hot water pipes connected to the hot water supply header to provide hot water of the hot water supply header to each room;
A hot water return header connected to the plurality of hot water pipes to collect hot water passing through the plurality of hot water pipes;
A hot water return pipe connecting the boiler and the hot water return header to return hot water collected in the hot water return header to the boiler;
A plurality of hot water control valves installed in the respective hot water pipes to control the flow of hot water through the hot water pipes;
A plurality of drivers coupled to each of the hot water control valves to adjust the amount of opening of the plurality of hot water control valves; And
A control device for controlling the plurality of drivers;
If the hot water supply to some of the plurality of rooms is cut off and the hot water circulation flow rate supplied from the boiler and returned to the boiler does not reach the minimum operating flow rate required for the operation of the boiler, the control device is switched off. Individual heating system, characterized in that for maintaining the hot water circulation flow rate above the operating minimum flow rate by opening the hot water control valve of the hot water pipe connected to the room to flow the hot water to the room where the hot water supply is blocked.
The method of claim 1,
When there is a plurality of rooms in which the hot water supply is cut off, the control device opens each hot water control valve corresponding to the room where the hot water supply is cut off or opens a hot water control valve corresponding to the selected specific room at the minimum flow rate of the operation. Individual heating system, characterized in that for dispensing the flow of hot water to the room in which the hot water supply is cut off.
The method of claim 1,
And a flow meter for measuring the hot water circulation flow rate and providing the measured signal to the control device.
The method of claim 3,
The control apparatus compares a pre-input operation minimum flow rate data with each room opening and closing and hot water circulation flow rate information received from the flow meter to maintain the hot water circulation flow rate above the minimum operating flow rate.
(a) operating a boiler to produce hot water for heating each room;
(b) supplying hot water produced by the boiler to a hot water supply header connected to a plurality of hot water pipes for supplying hot water to each of the rooms;
(c) supplying hot water to a hot water pipe corresponding to a room requiring heating by opening a hot water control valve connected to a hot water pipe corresponding to a room requiring heating among a plurality of hot water control valves respectively installed in the plurality of hot water pipes; ;
(d) returning hot water passing through the plurality of hot water pipes to the boiler through a hot water return header connected to the plurality of hot water pipes;
(e) measuring a circulating flow rate of hot water supplied from the boiler and returned to the boiler; And
(f) If the hot water supply to some of the plurality of rooms is cut off so that the hot water circulation flow rate does not reach the minimum operating flow rate required for the operation of the boiler, the hot water supply from the plurality of hot water control valves is blocked. Opening the hot water control valve to maintain the hot water circulation flow rate above the operating minimum flow rate by flowing hot water to the room where the hot water supply is cut off; heating control method comprising a.
The method of claim 5, wherein
In the step (f), when there are a plurality of rooms where the hot water supply is cut off, each of the hot water regulating valves corresponding to the rooms where the hot water supply is cut off is opened, or the hot water regulating valve corresponding to the selected specific room is opened to minimize the operation. The heating control method, characterized in that for distributing hot water by the insufficient flow rate to the room where the hot water supply is blocked.
The method of claim 5, wherein
The step (f) is performed by a command of a control device, and the control device compares a pre-input operation minimum flow rate data with each room's opening / closing and hot water circulation flow rate information received from a flow meter to control the hot water circulation flow rate. Heating control method characterized in that to maintain above the minimum flow rate.

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