KR100423222B1 - A device controlling boiler for heating - Google Patents

Abstract

The present invention relates to a heating boiler control device that can automatically control the temperature of a plurality of rooms with heating pipes individually installed, the plurality of heating rooms to detect the room temperature in accordance with the set temperature to operate the thermostat By installing the thermostat, the operation of the solenoid valve and the boiler which regulates the heating water flow in each room is controlled by the on / off operation of the thermostat.

Description

A boiler controlling device for heating

The present invention relates to a heating boiler, and more particularly, to a heating boiler control device that can automatically control the temperature of a plurality of rooms in which heating pipes are installed.

In general, a heating boiler sets a certain temperature in a single controller installed in a house (usually located in a living room in an apartment), and ignites and burns the burner of the boiler until the indoor temperature reaches the set temperature. When the temperature is reached, the ignition and extinguishing of the burner is repeated such as extinguishing the boiler to maintain the set temperature.

However, in the conventional boiler control method as described above, since the boiler is usually operated based on the temperature of the place where the controller is installed, individual heating is virtually impossible when there are a plurality of rooms.

Of course, in the past, a manual valve for controlling the flow of heating water is installed in a boiler pipe that is introduced into a plurality of rooms, and the temperature of the corresponding room is controlled by adjusting the amount of heating water flowing in the pipe by using the same. In fact, accurate temperature control was difficult, and there was a problem of the cost of heating regardless of the temperature of the room.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a heating boiler control apparatus that enables individual heating temperature control of a plurality of rooms in which a boiler pipe is installed.

The present invention for achieving the above object is interposed between a plurality of heating rooms, a thermostat installed in each of the rooms and the on-off operation according to the set temperature by detecting the room temperature, and the piping and heat exchanger of the respective rooms And a distributor for distributing the flow of heating water to each room, and a solenoid valve installed at the heating water inlet side of the distributor to control the heating water flow of each room and a driving switch for controlling the driving of the boiler. Wherein, power is applied to the primary side of the transformer, one end of the secondary side of the transformer is connected to one side of the thermostat installed in each room, and the other end of the secondary side of the transformer is connected to the other end of the thermostat through a relay coil. The power supply is connected to both ends of each of the switch contact and the relay coil connected in series and the series connection Between each switch contact point and the relay coil is connected to one end of the relay coil of the boiler drive switch via the solenoid valve drive switch contact point, and one side of the power source is connected to the other side of the relay coil. .

1 is a heating boiler and piping configuration according to the present invention,

2 is a circuit connection diagram of a control device of a heating boiler according to an embodiment of the present invention.

♣ Explanation of symbols for main part of drawing ♣

10,11,12: Room 10b: Piping

TC, TC1 ~ TC6: Thermostat V1 ~ V3: Solenoid valve

21: controller 22: boiler

23: Splitter L1 to L6, L11 to L66: Relay coil

S1 ~ S6, S11 ~ S66: Relay switch contact ML: Magnetic relay coil

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

1 is an overall configuration diagram of a heating boiler control apparatus according to the present invention.

As shown, the numerals 10, 11, 12 indicate a plurality of heating rooms, and for convenience, referred to as the first room 10, the second room 11, the third room 12, and the like. The heating pipe 10b is installed in the room. In addition, in each of the rooms 10, 11, 12.., A thermostat TC is installed to detect an indoor temperature and operate on and off according to a set temperature.

The sign 22 is a boiler, and the boiler 22 is connected in communication with the distributor 23 by a pipe 10b, and the pipe 10b branched from the distributor 23 is connected to each room 10, 11, 12. ...) is connected to the boiler 22.

The solenoid valves V1, V2, and V3 are mounted on the heating water inlet side of the distributor 23 to control the heating water flowing to each room.

The plurality of thermostats TC, the solenoid valves V1, V2, V3, and the boiler 22 are electrically connected to and controlled by the control device 21.

Therefore, in the present invention, in order to control the heating temperature of the first room 10, the solenoid valve is opened by the control device 21 according to the on / off operation of the thermostat TC installed in the first room 10. Control the room temperature by controlling (V1), and in order to control the heating temperature of the second room (11) in accordance with the on-off operation of the thermostat (TC) installed in the second room (11) 21) to control the room temperature by controlling the solenoid valve V2, and to control the heating temperature of the third room 13, on / off operation of the thermostat TC installed in the third room 12. According to the control device 21 by controlling the solenoid valve (V3) to control the room temperature, when the temperature of each room reaches the set temperature, by turning off the switch of the boiler, to enable individual heating control of each room It is.

2 is a circuit connection diagram of the control device 21 of the heating boiler according to an embodiment of the present invention.

According to an embodiment of the present invention, a structure for heating control of six rooms will be described as an example.

As shown, power AC is always applied to the primary side of the transformer TS, one end of the secondary side of the transformer TS is connected to one side of the thermostats TC1 to TC6 installed in each room, The other end of the secondary side of the transformer (TS) is connected to the other end of the thermostat (TC1 ~ TC6) through the relay coil (L1 ~ L6), each switch contact (S1 ~ S6 connected in series) ) And relay coils L11 to L66 are connected to each other, and are interposed between switch contacts S1 to S6 and relay coils L11 to L66 connected in series. By connecting to one end of the magnetic coil (ML), one side of the power source (AC) is configured to be connected to the other side of the magnetic coil (ML).

Here, each switch contact (S1 ~ S6) is a switch operated by the excitation of the relay coil (L1 ~ L6), the switch contact (S11 ~ S66) operated by the relay coil (L11 ~ L66) is a magnetic coil The relay corresponds to a relay that operates the switch MC to turn on / off the boiler 22.

The operation of the present invention configured as described above will be described below.

First, if the number of rooms is assumed to be six as shown in Figure 2, each of the rooms (10, 11, ...) is installed thermostats (TC1 ~ TC6) for detecting the temperature of the room. Then, power (AC) is applied to the boiler, and the user sets the desired heating temperature by adjusting the thermostats TC1 to TC6 installed in each room.

For example, if the temperature of the first room 10 is lower than the set temperature, the thermostat TC1 is turned on. Therefore, the power supply voltage AC dropped through the transformer TS is applied to the relay coil L1 through the thermostat TC1 so that the relay coil L1 is excited and its switch contact S1 is turned on. As the switch contact S1 is turned on, the relay coil L11, which is the solenoid valve V1, is excited. As the relay coil L11 is excited, the switch contact S11 is turned on, and the solenoid valve V1 is turned on. Is open. Therefore, the heating water flows to the first room 10 through the pipe 10b to perform the heating operation. At this time, the power source AC is applied to the magnetic coil ML so that the driving switch SW is turned on, thereby maintaining a state in which the boiler is driven.

Subsequently, when the temperature of the first room 10 reaches a set temperature, the thermostat TC1 that detects this is turned off. Therefore, the power supply AC is cut off from the relay coil L1, and the switch contact point S1 is turned off. The power supply AC is cut off from the relay coil L11 by turning off the switch contact point S1. By turning off S11, the solenoid valve V1 is closed and the flow of heating water to the first chamber 10 is stopped.

In this way, the heating control of each room is controlled by turning on and off the relay coils L22 to L66 and the switch contacts S22 to S66 that control each solenoid valve according to the settings of the thermostats TC2 to TC6. Will be performed. In this way, when the temperature of each room reaches the set temperature, all the thermostats TC1 to TC6 are turned off, and all the switch contacts S11 to S66 of the relay coils L11 to L66 are also turned off. As a result, each solenoid valve is closed so that there is no flow of heating water in each room. At this time, the power source AV is also cut off in the relay coil ML of the boiler driving switch, and thus the driving switch SW is turned off.

By repeating such an operation, individual heating control of each room becomes possible.

In addition, the present invention as described above is to control the temperature of each floor individually by the user's operation when you want to heat the multi-storey building as well as the partition space on the same floor.

As described above, according to the present invention, the heating temperature of the plurality of rooms can be individually controlled by using a single boiler, so that the user can automatically control the plurality of rooms to a desired temperature.

Therefore, there is an advantage that the optimum temperature management is possible for each room, thereby enabling efficient boiler control.

Claims (2)

A plurality of heating rooms, a thermostat installed in each of the rooms and detecting an indoor temperature to be turned on and off according to a set temperature, and interposed between pipes and heat exchangers of the rooms to distribute the flow of heating water to each room. A heating boiler comprising a distributor and a manual switch provided at a heating water inlet side of the distributor to control a flow of heating water in each room and a driving switch for controlling driving of a boiler, A plurality of thermostats installed in each room to individually control the room temperature of each room; A plurality of solenoid valves installed at the heating water inlet side of the distributor to cut the heating water flow in each room; It is electrically connected to the plurality of thermostats, the plurality of electric valves and the operation switch of the boiler, when the temperature of each room reaches the temperature set by each thermostat to control the corresponding one of the solenoid valve of the room A control device which interrupts the flow of the heating water and shuts off the flow of the heating water by closing all electric valves when the temperature of all the rooms reaches the set temperature, and simultaneously turns off the operation of the boiler; Boiler control device for heating characterized in that to control the temperature of each room to be heated individually. The control apparatus 21 according to claim 1, wherein power is applied to the primary side of the transformer TS, and one end of the secondary side of the transformer TS is disposed in each room of the thermostat TC1 to TC6. It is connected to one side, the other end of the secondary side of the transformer (TS) is connected to the other end of the thermostat (TC1 ~ TC6) through the relay coil (L1 ~ L6), each of the switch contacts S1 connected in series S6) and the relay coils L11 to L66 are connected to be applied to both ends, and the switch contact for driving the solenoid valve between the switch contacts S1 to S6 and the relay coils L11 to L66 connected in series. Heating boiler control, characterized in that configured to be connected to one end of the relay coil (ML) of the boiler drive switch (SW) via (S11 ~ S66), one side of the power supply is connected to the other side of the relay coil (ML). Device.