KR101476645B1 - Method for controlling heating temperature for each room in the heating system for each room - Google Patents

Abstract

The present invention relates to a method of controlling separate room heating temperatures in a separate room heating system. Particularly, in a separate room heating system having n separate room temperature controllers and n separate room valve driving devices, the maximum number of operating separate room valve drivers is limited even if a heating signal is sent from the n separate room temperature controllers to entirely perform heating by first operating the limited number of separate room valve drivers in the order of the great difference between a setting temperature of the separate room temperature controllers and a current heating temperature and consecutively operating the limited number of separate room valve driving devices according to the difference between the setting temperature of the separate room temperature controllers and the current heating temperature. Accordingly, a boiler of small volume compared with the total volume of rooms preferred to be heated can be used, thereby lowering a consumer financial burden. Separate rooms can be heating in different temperatures with the boiler of small volume, thereby remarkably improving the consumer satisfaction. Also, a room preferred to be heated can intensively be heated, thereby remarkably increasing a heating speed, and remarkably improving the marketability of the separate room heating system and reliability due to the separate heating control.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling a heating temperature in a room heating system,

More particularly, the present invention is applied to a system for controlling the heating of each room with a boiler having a small capacity compared to the total area of each room where heating is desired, And sequentially heating the boiler so that the boiler can be heated even with a small capacity compared to the heating area, so that it is possible to heat the boiler according to the requirements of each room while heating the boiler, .

Generally, a boiler is a boiler that uses oil, coal and gas as a fuel and burns it or uses heat of combustion and heat generated by supplying electricity to a heater to supply water to various heating facilities In the case of a domestic boiler, hot water is supplied to the piping installed on the floor of the room or the like, and the hot water is supplied to the hot water through a water pipe.

In recent years, a system has been developed and widely used for heating and supplying hot water to a plurality of rooms by using a single boiler. Such a boiler usually has one main remote controller and at least one wired or wireless sub remote controller And is controlled by a multi-remote control device, that is, a plurality of temperature control devices installed in each room.

At this time, the main remote controller is configured to be able to set various functions such as heating and heating temperature, and display the results thereof, and the sub remote controllers installed in other kitchens or other rooms can be operated for heating of the corresponding indoor space, So that the setting and the result thereof can be displayed.

Accordingly, the user can control the heating and the heating temperature of the entire room through the main remote controller, and control the heating and heating temperature of the corresponding room through the respective sub remote controllers.

In the cubic control system that controls the heating and hot water supply to a plurality of rooms using one boiler, there is a separate cubic temperature controller between the main body of the boiler and the multi remote controller (i.e., the main remote controller and the sub remote controller) Between the other side of each heating pipe connected at one end to the heating water supply pipe of the boiler body and the heating water water return pipe of the boiler, the amount of heating water supplied to each heating pipe is opened and closed, And a flow control valve is provided as a solenoid valve having a motor that can be automatically controlled in response to a signal.

In each temperature regulator interlocked with the boiler having such a configuration, the heating temperature of the room is controlled by supplying or stopping the hot water to the pipe connected to the room by turning on / off the valve connected to each room to heat each room .

However, in the conventional each heating system, the heating effect can be obtained only by installing a boiler having a required capacity in the entire area of a place (i.e., rooms) where heating is desired.

In addition, even if a suitable boiler is installed in the heating area, if the heating area is wide, the heating water circulation pipe is long and circulation of the heating water is not easy, so that the heating effect can not be maximized.

In the case where the conventional room heating system having the above-described configuration is applied, when the rooms are heated at the same time, the above-described phenomenon occurs. Also, when heating is performed in several places, There is a problem in that the effect of heating is lower than that in the case of performing in one room and the desired heating effect can not be obtained.

That is, conventionally, when a heating signal is input to each of the room temperature control devices in each room, the respective valve driving device is immediately activated to heat the room, so that there is no heating problem when only a part is used in each heating system. When the heating signal is inputted from all the temperature control devices of the system, all the valve driving devices are operated and the heating of all the rooms is simultaneously performed. Therefore, there is a problem that the time for the temperature rise becomes long. In addition, There is a problem in the heating itself.

Patent Document 0001. Korean Published Patent Application No. 10-2012-0020617 (Mar. 08, 2012) Patent Document 0002. Korean Registered Patent No. 10-0857377 (September 01, 2008)

The present invention has been made in order to solve the above problems of the related art, and it is an object of the present invention to provide a heating system and a heating system capable of eliminating a heating problem with respect to the entire area even if a boiler having a capacity lower than the total area of the rooms, The present invention provides a method for controlling each heating temperature in a room heating system.

That is, according to the present invention, even when the heating signals are inputted from the n number of temperature control devices in the each heating system in which each of the n temperature control devices and each valve driving devices are installed, the operation amount of each valve control device is limited, After each valve driving apparatus is operated by a limited amount of the order in which the difference between the set temperature of the apparatus and the current heating temperature is large, the opening of each valve is controlled in accordance with the difference between the set temperature of the respective temperature regulating apparatus and the present heating temperature, It is possible to use the boiler with a small capacity compared to the total area of the rooms where the heating is desired, thereby reducing the price burden on the consumers, and it is possible to heat the temperature required for each room with a small capacity boiler, The satisfaction of the user can be greatly improved, The present invention is intended to provide a method of controlling each heating temperature in each heating system which can increase the heating speed of heating by heating the room.

According to an aspect of the present invention, there is provided a method for controlling a supply and return temperature, a flame detection device, a fan drive device, a gas supply drive device, and a temperature control device, A boiler (heat source) having a connected state; A plurality of temperature control devices and a plurality of valve driving devices are connected to input and output terminals of a control unit provided with an arithmetic unit and a storage unit, and driving of each temperature control unit and each valve driving unit including the boiler A method for controlling a heating temperature of each side of a heating system having a plurality of heating units,

When the heating "on" signal (Aon) is inputted (S1) in any of the temperature control devices of all rooms A, it is judged whether or not the " (S2);

When the "ON" count of the respective valve driving apparatus is "0", the respective valve driving apparatuses corresponding to the respective temperature control apparatus to which the heating "on" (Aon) signal is input are turned on (S3) Operating "on"

The heating set temperature Rts set by the respective room temperature adjusting device corresponding to the on-state valve driving device "on" and the current temperature Rth of the room An operating in the "on" Step S5;

It is determined whether or not the present temperature Rth of the room An in operation in the on-state valve operation device is above the set temperature Rts in step S6 and the current temperature Rth of the room An is set The heating set temperature Rts set by the respective room temperature adjusting device corresponding to the respective valve driving devices in the "on" operating state and the current temperature Rth of the corresponding room An are set to " And returning to the previous step (S5) of confirming each.

If the present temperature Rth is equal to or higher than the set temperature Rts as a result of the determination in step S6 that the current temperature Rth of the room An is " (Yes in S6), a room in which the current temperature Rth is equal to or higher than the set temperature Rts among the rooms An with the ON state of the respective valve driving apparatus is designated as "Aoff" and stored (S7) (S8) judging whether or not the number of valves for each valve in the state is less than or equal to "1 ";

As a result of the judgment in the step S8, if the number of each valve driving apparatus in the "on" state is less than or equal to "1 " , And returning to the step S5 of confirming the heating set temperature Rts and the present temperature Rth of the corresponding room An respectively set by the respective temperature control devices corresponding to the respective valve driving devices in the "on" Wow;

The heating mode operation of the boiler is turned "off " (S10) and the heating is waited if the number of valves for each valve in the" on "state is less than or equal to" 1 ".

If it is not "0 " as a result of judging in S2 that the number of valve devices for driving each valve in the" on "state in the initial state is" 0 ", the heating calorie of the boiler is the maximum calorie Max, It is determined whether the temperature Th is smaller than the heating water control temperature Ts and if the heating heat amount of the boiler is the maximum heat amount Max or the current heating water temperature Th is lower than the heating water control temperature Ts If it is smaller (Yes in S11), it is determined that the other chamber can not be heated by the heating capacity of the present boiler and the previous step S2 (S2 );

If the heating calorie of the boiler is other than the maximum calorie Max and the current heating water temperature Th is not smaller than the heating water control temperature Ts (No in S11), the heating "on" (Rty2 = Rts - Rth) between the set temperature (Rts) and the present temperature (Rth) of each temperature control device for a predetermined number of chambers Am that are not in the "on" (S12);

(S13) selecting an opening / closing valve driving device of the room Amax having the largest temperature difference among the temperature differences Rty2 calculated for the predetermined number of rooms Am waiting in the step S12;

(S14) judging whether or not the number of each valve driving devices currently in operation is smaller than the initial operation restriction quantity Rn inputted in each of the temperature controllers;

When the number of the respective valve driving devices in the current "on" operation is smaller than the initial operation restricted quantity Rn, the respective valve driving devices in the chambers Amax in which the set temperature Rts and the present temperature Rth difference Rty2 are the largest, (S5) confirming the heating set temperature (Rts) and the current temperature (Rth) of the corresponding room (An) set by the respective temperature control devices corresponding to the respective valve driving devices in the "on" (Step S15).

If the result of the determination in the step S14 is that the number of the respective valve actuators in operation during the current on period is not smaller than the initial limited actuation quantity Rn, (S16) of calculating a set temperature (Rts) and a present temperature (Rth) difference (Rty1 = Rts - Rth) of each temperature control device for each of the plurality of temperature sensors (An);

Next, in step S16, the respective valve driving apparatus selects the respective valve driving apparatuses of the chambers Amin having the smallest temperature difference among the temperature differences Rty1 calculated for the chambers An operating in the "on" (S17);

In step S13, it is determined whether the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 of the current temperature Rth with respect to the set temperature Rts is smaller than the first temperature difference T1 (S18);

If the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is smaller than the first temperature difference T1, the temperature difference Rty1 of the current temperature Rth with respect to the set temperature Rts at step S17 The temperature difference Rty1 in the room selected as the smallest room Amin is smaller than or equal to the second temperature difference T2 in step S19 and the temperature difference Rty1 in the room selected as the room Amin having the smallest temperature difference Rty1, Returning to the step S2 of judging whether the number of valves for each valve in the "on" state in the initial various temperature controller is "0" if the temperature difference T2 is not smaller than or equal to the second temperature difference T2 (No in S19) .

If it is determined in step S18 that the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is not smaller than the first temperature difference T1 (No in S18)

Or if the temperature difference Rty1 of the room selected as the room Amin having the smallest temperature difference Rty1 is smaller than or equal to the second temperature difference T2 (Yes in S19) (S20) and returning to step S2 of judging whether or not the number of valves for each valve in the "on" state in the initial each temperature controller is "0 " .

At this time, the first temperature T1 is set to 8 to 12 ° C, and the second temperature T2 is set to 1 to 3 ° C.

As described above, according to the heating control method for each room in the heating system of each aspect of the present invention, when the heating signals are inputted from the n heating control units in the respective heating systems in which each of the temperature control devices and the valve driving devices are installed, The operation amount of the maximum angle valve driving device is limited so that the valve driving device is operated by the limited amount of the order in which the difference between the set temperature of each temperature control device and the current heating temperature is large, So that it is possible to heat the whole valve by operating the valve driving device sequentially by a limited amount in accordance with the difference of the heating temperature of the room. Therefore, even if the boiler having the capacity smaller than the total area of the rooms for heating is applied, You can stay in an optimal condition for each room .

In other words, according to the present invention, it is possible to use a boiler having a small capacity compared to the total area of the rooms where heating is desired, thereby reducing the price burden on the consumer and heating the required temperature for each room with a small capacity boiler, The heating heating speed can be greatly increased by intensively heating the room in which the heating is desired, and in particular, it is possible to greatly improve the reliability of the heating and heating system of each room, will be.

1 is a block diagram of an interior heating system to which the present invention is applied;
2 is a flow chart for explaining the method of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of an interior heating system to which the present invention is applied, and FIG. 2 is a flowchart illustrating the method of the present invention.

As shown in FIG. 1, each of the heating systems to which the method of the present invention is applied includes a boiler 1 that operates largely as a heat source, a plurality of temperature control devices 2 corresponding to each number, A driving device 4 and an oven temperature controller 3.

At this time, the boiler 1 is connected to the input and output terminals of the control unit 11 provided with the computing device 111 and the storage device 112, with the supply and return temperature detection devices 12 and 13 and the flame detection device 14 The fan driving device 15, the gas supply driving device 16 and the temperature adjusting device 17 are connected to each other and controlled by the respective temperature controller 3 to calculate the heating number at a predetermined temperature And the like.

The outdoor temperature controller 3 is provided with a plurality of outdoor temperature control devices 2 and a plurality of outdoor temperature control devices 3 at an inlet and an outlet of a controller 31 having a computing device 311 and a storage device 312, (2) and each valve driving device (4) including the boiler (1) having a configuration in which the control part of the boiler (1) .

In addition, a plurality of outdoor temperature control devices 2 are installed in each of the rooms, respectively, so as to allow the user to select a heating or hot water mode, and to set a heating temperature and the like.

The plurality of valve units 4 are installed at the inlet or outlet of each heating pipe and are opened or closed in response to the output signal of the respective temperature controller 3 so that the heating water provided by the boiler 1 flows into the heating pipe And automatically performs a function of automatically shutting off the supplied water.

As shown in Fig. 2, the method of the present invention (i.e., the method of controlling the heating temperature of each room) applied to the cubic heating system having the above- (Aon) signal is input to any one of the temperature control devices 2 in each of the room temperature control devices 2,

As a result of the determination, if a heating "on" signal (Aon) is inputted in any one of the outdoor temperature controllers 2 (S1) Quot; 0 "(S2).

As a result of the determination by the respective temperature controller 3, if there is not any valve driving device 4 having an ON state before, and the ON state of the valve driving device is "0" Immediately turns on the respective valve driving devices 4 corresponding to the respective temperature control devices 2 to which the signal is inputted in step S3 and the boiler 1 is turned on in the heating mode S4, The heating operation is performed.

While the boiler is operated as described above and heating is performed for one room to which the heating "on" (Aon) signal is inputted, the each temperature controller 3 responds to the respective valve driving apparatus 4 in the "on" And the current temperature Rth of the room An in which the each-side valve driving apparatus 4 is in the "on" operation (S5).

It is determined whether or not the current temperature Rth of the room An in which the respective valve driving devices 4 thus detected is in the ON state is greater than or equal to the user's set temperature Rts, If the current temperature Rth of the room temperature is not equal to or higher than the set temperature Rts of the user (No in S6), the heating temperature of the room has not yet reached the set temperature Rts of the user, (S5) for confirming the heating set temperature (Rts) set by the respective room temperature control device (2) corresponding to the on-state valve driving device (4) and the current temperature (Rth) ) To return to the next step.

However, if it is determined in step S6 that the present temperature Rth of the room An in which each valve driving apparatus 4 is on is greater than or equal to the set temperature Rts, (Rts) or more (Yes in S6), it is determined that the heating temperature of the room is sufficiently higher than the set temperature Rts of the user so that the room temperature An of the room An having the " A room in which the room temperature Rth is equal to or higher than the set temperature Rts (that is, the room where the heating has been performed so far) is designated and stored (S7).

Then, in each of the temperature controllers 3, it is determined whether or not the number of the respective valve driving apparatuses 4 in the "on" state is smaller than or equal to "1" (S8) Off valve "is set to " Aoff " in step S9, and if the number is not smaller than or equal to" 1 " The process returns to the step S5 of confirming the heating set temperature Rts set by the respective room temperature regulating device 2 corresponding to each valve driving device 4 in operation and the present temperature Rth of the room An respectively Will repeat the subsequent steps.

However, as a result of the judgment in the step S8, if the number of each valve driving apparatus 4 in the "on" state is less than or equal to (i.e., less than or equal to 1) The heating mode operation of the boiler is turned "off" (S10) and the heating standby mode is entered.

On the other hand, if it is not "0 " (that is, if it is judged in S2 that the number of each valve driving apparatus 4 in the ON state is" 0 " The heat quantity of the boiler 1 in the current heating operation is the maximum heat quantity Max or the heating water temperature which is being discharged from the heat exchanger of the present boiler (Th) is smaller than the heating water control temperature Ts.

As a result of the determination, if the heating calorific value of the boiler is the maximum calorie Max or the current heating water temperature Th is less than the heating water control temperature Ts (Yes in S11) It is determined that the other room can not be heated and the flow returns to the previous step S2 in which it is judged whether or not the number of each valve driving apparatus 4 in the "ON" state in the room temperature controller 3 is "0" .

That is, if the heating of the other room is performed by further operating the respective valve driving device 4 in a state where the heat amount of the boiler 1 is in the maximum state, the room where the existing heating is performed and the room where the additional heating is performed, And if it is not in the proportional control state, the load of the room currently being heated can not be known, so that the operation of each valve driving apparatus 4 is waited until the proportional control state is reached.

However, if it is determined in step S11 that the heating calorie of the boiler is not the maximum calorie Max and the current heating water temperature Th is not less than the heating water control temperature Ts The temperature control device 2 for the predetermined number of chambers Am in the standby state in which the heating device "On" (Aon) signal of the entire room A is present but the respective valve driving device 4 is not " (Rts2 = Rts - Rth) of the current temperature Rth (step S12).

Then, the cubic temperature controller 3 compares the temperature differences Rty2 calculated for the predetermined number of chambers Am waiting in the step S12, and calculates a difference between the temperature difference Rty2 in the room Amax (Step S13). [0051] As shown in FIG.

Thereafter, in each of the temperature controllers 3, the quantity of the respective valve driving devices 4 in the "on" state is controlled by the initial operation limit quantity Rn (for example, four) (S14).

As a result, if the number of each valve driving apparatuses 4 currently in operation is smaller than the initial operation restriction amount Rn (for example, less than four), the set temperature Rts selected in the step S13, (S15) of the room air valve driving apparatus 4 of the room Amax in which the difference between the present temperature Rth and the present temperature Rth is the largest The process returns to step S5 in which the heating set temperature Rts set by the room temperature regulating device 2 and the current temperature Rth of the room An are respectively checked and the subsequent steps are repeated.

However, if it is determined in step S14 that the number of each valve driving apparatus 4 in operation is not less than the initial operation limit number Rn (for example, four or more) (Rty1 = Rts - Rth) of the set temperature (Rts) and the present temperature (Rth) of the temperature control device 2 for each room (An) (S16).

Subsequently, the temperature controller 3 compares the temperature differences Rty1 calculated for the rooms An operating in the on-state valve driving device 4 with each other in the step S16, Way valve driving device 4 of the smallest room Amin having the smallest value Rty1 (S17).

In step S13, the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 of the current temperature Rth with respect to the set temperature Rts is stored in the room temperature controller 3, For example, 8 to 12 degrees Celsius (T1) (for example, 8 to 12 degrees Celsius), and if the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is the first temperature difference T1 The temperature difference Rty1 in the room selected as the room Amin having the smallest temperature difference Rty1 with respect to the set temperature Rts in the step S17 is less than the second temperature difference T2 For example, 1 to 3 DEG C) (S19).

If the temperature difference Rty1 of the room selected as the room Amin having the smallest temperature difference Rty1 is equal to or less than 1 to 3 degrees Celsius, for example, the second temperature difference T2, (No in S19), the process returns to step S2 in which it is determined whether the number of valve devices 4 for each valve in the "on" state in the initial various temperature controller 3 is "0 " do.

On the other hand, if it is determined in step S18 that the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is not less than the first temperature difference T1, for example, 8 to 12 占 폚 Or if the temperature difference Rty1 of the room selected as the room Amin having the smallest temperature difference Rty1 determined in step S19 is equal to or smaller than the second temperature difference T2 of 1 to 3 degrees Celsius (Step S20), the room air valve driving device 4 of the room selected in the smallest room Amin is turned "off" ) Is "0" (S2), and repeats the steps thereafter.

In other words, when there is a heating signal in each room temperature regulating device 2 but there is a standby valve driving device 4, the current temperature and the set temperature of the room to be operated are compared and the temperature difference Rty1 is compared with the second temperature difference T2 ), The heating operation is stopped by stopping each valve driving device (4) of the room.

If there are a plurality of valve units 4 in each operating state, it is confirmed whether the temperature difference of the room Amin having the smallest temperature difference Rty1 between the current temperature and the set temperature of each room satisfies the condition.

When each valve driving device 4 in operation is stopped, the respective valve driving device 4 in the standby state is operated to perform heating. When there are a plurality of valve driving devices 4 in the standby state, Way valve driving device 4 of the room Amax in which the temperature difference Rty2 of the set temperature is the largest.

If the temperature difference Rty2 between the current temperature and the set temperature of the room in the standby state of each valve driving apparatus 4 is 8 to 12 DEG C or more which is the first temperature difference T1, (Rty2) between the current temperature and the set temperature of the room in which the current temperature and the set temperature of the room in operation are stopped is stopped after the operation of each valve driving device 4 of the room Amin having the smallest difference 1 Heating valve is operated immediately by operating the valve driving device in the room of 8 to 12 ° C or more, which is the temperature difference (T1).

Particularly, even if the total area of the heating place is the same, the load of the heating pipe depends on the length of the heating water pipe relative to the heating area. Therefore, according to the present invention, The number of valves for driving each valve can be limited so that the flow rate of the heating water can be made to be equal to or greater than the minimum flow rate capable of heating.

In this case, for example, four rooms are exemplified as the initial limited quantity of each valve driving apparatus, but the present invention is not limited to this, and the maximum capacity of the boiler 1 and the total area to be heated can be set in comparison with each other. Since an amount of heat of about 500 Kcal / h is required per 3.3 square meters of area, it is only necessary to set an initial limited quantity of each valve driving device based on this.

Although the preferred embodiments of the present invention have been described for illustrative purposes, 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. Which will be apparent to those skilled in the art.

1: boiler 11: control unit
111: computing device 112: storage device
12: supply temperature detecting device 13: return temperature detecting device
14: Flame detection device 15: Fan drive device
16: gas supply drive device 17: temperature control device
2: Each room thermostat
3: each room temperature controller 31:
311: computing device 312: storage device
4: Each valve driving device

Claims (8)

A method for controlling an outdoor heating temperature of an interior heating system,
When the heating "on" signal (Aon) is inputted (S1) in any of the temperature control devices of all rooms A, it is judged whether or not the "(S2);
When the "ON" count of the respective valve driving apparatus is "0", the respective valve driving apparatuses corresponding to the respective temperature control apparatus to which the heating "on" (Aon) signal is input are turned on (S3) Operating "on"
The heating set temperature Rts set by the respective room temperature adjusting device corresponding to the on-state valve driving device "on" and the current temperature Rth of the room An operating in the "on" Step S5;
It is determined whether or not the present temperature Rth of the room An in operation in the on-state valve operation device is above the set temperature Rts in step S6 and the current temperature Rth of the room An is set The heating set temperature Rts set by the respective room temperature adjusting device corresponding to the respective valve driving devices in the "on" operating state and the current temperature Rth of the corresponding room An are set to " And returning to a previous step (S5) of confirming each heating temperature.
The method according to claim 1,
If the current temperature Rth is equal to or higher than the set temperature Rts as a result of the determination in step S6 that the current temperature Rth of the room An in which the respective valve driving apparatus is on is greater than or equal to the set temperature Rts (Yes in S6), a room in which the current temperature Rth is equal to or higher than the set temperature Rts among the room An with the on-state valve driving apparatus "on" is designated and stored as "Aoff" (S8) judging whether or not the number of valves for each valve is less than or equal to "1 ";
As a result of the judgment in the step S8, if the number of each valve driving apparatus in the "on" state is less than or equal to "1 " , And returning to the step S5 of confirming the heating set temperature Rts and the present temperature Rth of the corresponding room An respectively set by the respective temperature control devices corresponding to the respective valve driving devices in the "on"Wow;
(S10) and waiting for heating in the heating mode operation of the boiler when the number of valves for each valve in the "on" state is less than or equal to "1 " Control method.
The method according to claim 1,
If it is not "0" as a result of judging in S2 that the number of valve devices for each valve in the "on" state is "0" in the initial temperature controller, the heating value of the boiler is the maximum heating value Max or the current heating water temperature Th is smaller than the heating water control temperature Ts in step S11 and if the heating heat amount of the boiler is the maximum heat amount Max or the current heating water temperature Th is less than the heating water control temperature Ts (Yes in S11), it is determined that the other chamber can not be heated by the current heating capacity of the boiler, and the previous step S2 is performed to determine whether the number of valves for each valve in the "on" state is "0"Returning;
If the heating calorie of the boiler is other than the maximum calorie Max and the current heating water temperature Th is not smaller than the heating water control temperature Ts (No in S11), the heating "on" (Rty2 = Rts - Rth) between the set temperature (Rts) and the present temperature (Rth) of each temperature control device for a predetermined number of chambers Am that are not in the "on"(S12);
(S13) selecting the respective valve driving apparatuses of the chambers Amax having the largest temperature difference among the temperature differences Rty2 calculated for the predetermined number of chambers Am waiting in the step S12; Wherein the control unit further performs the heating control of each side in each heating system.
The method of claim 3,
(S13) of the chambers of the chambers Amax in which the temperature difference Rty2 is the largest is selected and then the quantity of each valve driving apparatus in the current "on"(S14);
When the number of the respective valve driving devices in the current "on" operation is smaller than the initial operation restricted quantity Rn, the respective valve driving devices in the chambers Amax in which the set temperature Rts and the present temperature Rth difference Rty2 are the largest, (S5) confirming the heating set temperature (Rts) and the current temperature (Rth) of the corresponding room (An) set by the respective temperature control devices corresponding to the respective valve driving devices in the "on" (S15). The method according to any one of claims 1 to 5, further comprising:
The method of claim 4,
If the result of the determination in step S14 is that the number of the respective valve actuators in the on state is not less than the initial limit operation quantity Rn, (S16) calculating a set temperature (Rts) and a present temperature (Rth) difference (Rty1 = Rts - Rth)
Next, in step S16, the respective valve driving apparatus selects the respective valve driving apparatuses of the chambers Amin having the smallest temperature difference among the temperature differences Rty1 calculated for the chambers An operating in the "on" (S17) is further carried out.
The method of claim 5,
The valve opening control device for each valve of the room Amin having the smallest temperature difference Rty1 is selected S17 and the temperature difference Rty2 of the present temperature Rth relative to the set temperature Rts is selected in the step S13 (S18) of determining whether a temperature difference (Rty2) of the room selected by the first temperature difference (Amax) is smaller than a first temperature difference (T1);
If the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is smaller than the first temperature difference T1, the temperature difference Rty1 of the current temperature Rth with respect to the set temperature Rts at step S17 It is determined whether the temperature difference Rty1 of the room selected as the smallest room Amin is smaller than or equal to the second temperature difference T2 and the temperature difference Rty1 of the room selected as the room Amin having the smallest temperature difference Rty1, Returning to the step S2 of judging whether the number of valves for each valve in the "on" state in the initial various temperature controller is "0" if the temperature difference T2 is not smaller than or equal to the second temperature difference T2 (No in S19) Wherein the control unit is configured to control the respective heating temperatures in the respective heating systems.
The method of claim 6,
If the result of the determination in step S18 is that the temperature difference Rty2 of the room selected as the room Amax having the largest temperature difference Rty2 is not smaller than the first temperature difference T1 (No in S18)
Or if the temperature difference Rty1 of the room selected as the room Amin having the smallest temperature difference Rty1 is smaller than or equal to the second temperature difference T2 (Yes in S19) (S20) and returning to step S2 of judging whether or not the number of valves for each valve in the "on" state in the initial each temperature controller is "0 " Wherein the heating control unit controls the heating temperature of each room in each heating system.
The method of claim 7,
Wherein the first temperature T1 is set to 8 to 12 degrees Celsius and the second temperature T2 is set to 1 to 3 degrees Celsius.

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