KR19980019777A - Individual temperature control system - Google Patents

Abstract

The present invention relates to a room temperature control system, and to install a room temperature controller in each room, and install an automatic valve in each of the distribution pipes in which hot water flows into each room, by connecting the control signal of the room temperature controller of each room to the terminal block, Controlling the automatic valve at the terminal block and controlling the boiler by combining in multiple stages, each of the indoor temperature controller and the automatic valve operation through the terminal block coupled to the multi-stage by receiving the power of one power adapter at the first stage It is configured to supply power. According to the present invention, individual temperature control is possible in each room.

Description

Individual temperature control system

1 is a configuration diagram of one embodiment of the individual room temperature control system of the present invention.

2 is a block diagram showing an embodiment of the terminal block of the present invention.

3 is a circuit diagram of a first terminal block of the present invention.

4 is a circuit diagram of a second terminal block of the present invention.

5 is another embodiment of the room temperature individual control system of the present invention.

Explanation of symbols on the main parts of the drawings

10: boiler 11: controller of boiler

20: distributor 21: circulation motor

22 supply pipe 23 recovery pipe

24: air valve 30: automatic valve

40: flow control valve 50: room temperature controller

60: terminal block 60a, 60b: first and second terminal block

61: 3-pin jack housing 62: Temperature controller connection terminal

63: 4-pin jack housing 64: 3-pin jack

65: coupling means 70: power adapter

100: centralized temperature controller 110: integral boiler controller

The present invention relates to a system for individually controlling the indoor temperature in a heating system, and more specifically, to a single house or apartment, etc., each of which has an indoor temperature controller installed in a plurality of rooms so that the indoor temperature can be individually controlled in each room. To an individual regulation system.

In general, an indoor temperature control system of a boiler installed in a single house, villa or apartment, distributes the boiler and hot water heat-exchanged in the boiler to each room through a supply pipe, and collects hot water circulated therefrom. A distributor for recovering and returning it to the boiler, a hot water supply control valve connected to a supply pipe of the distributor and a supply pipe of each room to regulate the flow rate of hot water, and a temperature at which the indoor temperature is selected according to the user's temperature selection. It consists of a room thermostat that runs the boiler until it performs heating.

In the conventional indoor temperature control system configured as described above, when the user operates the boiler by operating the indoor temperature controller, the boiler is operated to heat and heat the water introduced and recovered from the recovery pipe to supply to the distributor again. The hot water supplied to the distributor is circulated to each room through the supply pipe after the inflow amount is adjusted in the hot water supply control valve through the supply pipe to increase the temperature of each room to the temperature set by the user. And the cold water heat-exchanged while circulating the each room is supplied to the boiler side again through the recovery pipe and through the recovery pipe of the distributor. The above process is performed continuously and repeatedly to keep the indoor temperature at the set temperature to heat.

By the way, in the conventional boiler room temperature control system is usually installed only one room temperature controller, because the boiler is controlled only by the temperature of the room in which the room temperature controller is installed, regardless of the temperature of the room where the room temperature controller is not installed, The temperature deviation of each room becomes large. In addition, even in the case of centralized heating, the indoor temperature controller of each home is controlling the main inlet valve of each home. In this case, the same problem as above occurs because it is not controlled for each room.

In addition, when only one room wants to heat when there are several rooms, it is very inconvenient to manually control the flow control valves of the remaining rooms so that the hot water is not circulated in the rooms, and the hot water is circulated in each room. Unnecessary heating causes energy losses.

Accordingly, it is an object of the present invention to provide an individual temperature control system for the indoor temperature to individually control the indoor temperature of each room while eliminating such a conventional problem.

Another object of the present invention is to integrate the controller so as to control the operation of the boiler according to the controller of the boiler to control the automatic valve for controlling hot water supply to each room based on the control signal of the room temperature controller of each room. It is to provide a separate indoor temperature control system.

Still another object of the present invention is to provide wiring by simple combination of signal lines of a plurality of room temperature controllers to individually control the room temperature of each room in a conventional boiler system that does not integrally configure the room temperature individual control circuit in the boiler controller. In order to simplify the control of each automatic valve and to provide a terminal block to apply a control signal to the boiler.

In order to achieve the above object, the individual room temperature control system of the present invention, in the room temperature control system of the heating system, is provided with an automatic valve in each of the distribution pipes of the distributor for distributing hot water to each room, and the room temperature in each room. The controller is installed, and controls the opening and closing of the corresponding automatic valve based on each control signal of the room temperature regulators, and the controller for controlling the operation of the boiler is characterized in that the boiler is integrally configured.

In addition, in the existing boiler system that does not have the above-mentioned controller integrated in the boiler, automatic valves are installed in the distribution pipes of each room so as to individually control the room temperature of each room, and an indoor temperature controller is installed in each room. It connects power supply and boiler operation signal from each other, receives the operation signal of each room temperature controller and connects it to the opening / closing signal of the corresponding automatic valve, and generates the boiler operation signal based on the operation signal of the corresponding room temperature controller. Install the first terminal block in multiple stages connected to the boiler start signal of the next stage, connect the operating power to the first end of the first terminal block through the power adapter, and start the power and boiler from the last end of the first terminal block. The second terminal that receives the signal and outputs the boiler operation signal to the controller of the boiler It is characterized by being built.

Accordingly, according to the present invention, the room temperature of each room can be individually controlled by using the room temperature controller in each room, and the boiler is controlled by the parallel combination thereof.

Here, the automatic valve among the means for achieving the present invention, the automatic application using the valve electric opening and closing device of the domestic application No .: "95-4044", name: "valve electric opening and closing device of the hot water distributor" As a manual combined valve, the description of the valve electric shutoff device will be omitted in the following embodiments, and the valve and the electric shutoff device will be referred to as an automatic valve together.

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

1 is a block diagram of an individual temperature control system according to the present invention. As shown in FIG. 1, the boiler 10 and hot water obtained by heat exchange in the boiler 10 are pumped from the circulation motor 21 and distributed to each room. A distributor 20 having a supply pipe 22, a recovery pipe 23 for recovering water circulated in each room and returning it to the boiler 10, and an air valve 24 for discharging air in the pipe, and the supply pipe ( Automatic valve 30 for opening and closing each of the distribution pipes distributed to each room in 22, flow rate control valve 40 for reducing the temperature difference between each room by adjusting the flow rate of the water recovered to the recovery pipe 23 in each room, Installed in each room to apply the operation signal of the room temperature controller 50 and the room temperature controller 50 for each room to control the respective automatic valve 30 and the boiler 10 by room temperature and time adjustment, respectively. Opening and closing of the corresponding automatic valve 30 A terminal block 60 coupled in multiple stages and a terminal block connected in multiple stages to be connected to an arc and to apply a boiler operation signal based on the operation signal of each indoor temperature controller 50 to the controller 11 of the boiler 10 ( 60 is configured as a power adapter 70 for supplying power to the first stage.

Here, the terminal block 60 is connected to the power source and the boiler operation signal from the front end, as shown in Figure 2, the respective operating signals of the room temperature controller 50 is applied to each of the corresponding automatic valve 30 A first terminal block for outputting an open / close signal and a power source for driving the automatic valve 30 and connecting the boiler start signal based on the start signal of the corresponding room temperature controller 50 with the boiler start signal at the front end to the next stage. 60a and a second terminal block 60b which receives the power supply and the boiler operation signal from the last end of the first terminal block 60a and outputs the boiler operation signal to the controller 11 of the boiler 10.

The external structure of the terminal block 60, as shown in Figure 2, the three-pin jack housing 61 which is connected to the power source and the boiler operation signal from the front end, respectively apply the operation signal of the room temperature controller 50 in each room Two-line connecting terminal 62 receiving, the 4-pin jack housing 63 for connecting the opening and closing signal of the corresponding automatic valve 30 and the power source, the boiler start signal based on the operation signal of the corresponding room temperature controller 50 It is configured to include a three-pin jack (64) for outputting to the next stage in connection with the boiler operating signal of.

In addition, as shown in FIG. 2, each terminal block has coupling means 65 that can be coupled to each other on the upper and lower surfaces of the terminal block case, and is configured to be coupled to each other in a multistage manner.

FIG. 3 is a circuit diagram of the first terminal block 60a. As shown in the drawing, the connection terminal 62 to which the two-strand signal lines of the room temperature controller 50 are connected is connected to the 3-pin jack housing through the resistors R1 and R2, respectively. One terminal connected to a power input terminal (+ 12V, -12V DC) of 61 and one terminal of the connection terminal 62 connected to the resistor R2 is connected to the base of the transistor Q1 through the diode D1. The collector of the transistor Q1 is connected to the boiler operation signal terminal of the 3-pin jack housing 61 through the reverse diode D3, and is connected to the power terminal (+ 12V DC) through the capacitor C1. Connected to the power supply terminal (-12V DC) with its emitter through another reverse diode (D2), and the collector terminal of the transistor (Q1) is automatically connected to the 4-pin jack housing (63). To the valve open / close signal terminal, both power terminals are also connected to the power terminal of the 4-pin jack housing 63, 4-pin One terminal of the jack housing 63 does not connect a signal line as an auxiliary terminal. In addition, the 3-pin terminal of the 3-pin jack housing 61 is connected in parallel to the 3-pin terminal of the 3-pin jack (64).

4 is a circuit diagram of the second terminal block 60b according to the present invention, which receives a power supply and a boiler operation signal through a three pin jack 64 at the end of the first terminal block 60a. It is configured to switch the boiler operation signal line to the controller 11 of the boiler 10 through its contact switch.

Referring to the operation and effects of the indoor temperature control system of the present invention configured as described above are as follows.

When the room temperature controller 50 is installed in each room, the automatic valve 30 is installed in each of the distribution pipes into which hot water flows into each room, and the signal line of each room temperature controller 50 is connected to the first terminal block 60a. It is connected to the terminal 62, and the three-pin jack 64 of the terminal block is coupled to the three-pin jack housing of the next stage terminal block, and the four-pin jack of the corresponding automatic valve 30 is coupled to the four-pin jack housing 63. Then, the plurality of first terminal blocks 60a are coupled using the coupling means 65, and the 3-pin jack of the last first terminal block is coupled to the 3-pin jack housing of the second terminal block, and the second terminal block 60b of the second terminal block 60b is connected. The control signal of the controller 11 is connected to the output terminal of the boiler 10, and the jack of the power adapter 70 is coupled to the 3-pin jack housing of the first first terminal block to supply power.

In this state, when the boiler 10 is operated by temperature setting or time setting in any one of the room temperature controllers 50 installed in each room, a high-potential signal is output to one terminal of the first terminal block 60a so as to output a diode. The transistor Q1 is turned on because it is applied to the base of the transistor Q1 through D1. When the transistor Q1 is turned on, the diode D3 is turned on and the boiler start signal 13108 of the 3-pin jack housing 61 becomes a low potential signal, and the relay RELAY of FIG. 4 is excited to switch its contact switch. Is short-circuited. Accordingly, the boiler 10 starts to operate.

Meanwhile, as the transistor Q1 of FIG. 3 is turned on, the automatic valve opening and closing signal terminal of the 4-pin jack housing 63 also has a low potential; In response to the signal, the automatic valve 30 is driven in the opening direction so that the hot water heat exchanged in the boiler 10 is circulated to the corresponding room.

At this time, if the room temperature controller 50 of the other room is operated in the boiler off state, since the transistor Q1 of its first terminal block is turned off, the automatic valve opening / closing signal is a high potential state, and the corresponding automatic valve 30 is closed. Since the diode D3 is turned off, it does not affect other terminal blocks.

Accordingly, in any room, the heating can be individually controlled by setting the temperature or time of the room. At this time, if any one of the room temperature controllers of each room is set in the boiler operation mode, the boiler 10 is operated and all the room temperatures are operated. The boiler 10 stops operating only when the regulator is off.

On the other hand, in the description of one embodiment of the present invention, although not mentioned a centralized temperature control device, it is easy for those skilled in the art that the system can be applied to the room temperature control system including the centralized temperature control device, of course. You will know.

In addition, the circuit of the first terminal block 60a is applied to the controller 11 of the boiler 10 in multiple stages to control each automatic valve 30 based on a control signal of each room temperature controller 50, In addition, by combining the control signals of each room temperature controller 50, the circuit unit of the terminal block can be integrally formed in the controller of the boiler to control the operation of the boiler 10. Such a configuration can be easily realized by using the circuit of the first terminal block of the present invention.

5 is a block diagram showing another embodiment of the room temperature individual control system according to the present invention, as shown in the boiler 10, and the hot water obtained by heat exchange in the boiler 10 circulating motor 21 Distributor 20 having a supply pipe 22 pumped in each room and distributed to each room, a recovery pipe 23 for recovering water circulated in each room and returning it to the boiler 10 and an air valve 24 for discharging air in the pipe. ), And an automatic valve 30 for opening and closing each of the distribution pipes distributed from the supply pipe 22 to each room, and a flow rate for reducing the temperature difference in each room by individually adjusting the flow rate of the water recovered from each room to the recovery pipe 23. Control valve 40, the centralized temperature controller 100 is installed in the living room or large room to control the operation of the room temperature and boiler in each room, and the room temperature controller 50 for controlling the room temperature is installed in each room and Centralized Integral boiler which controls the operation of the boiler as well as controlling the automatic valve 30 for each room by receiving the indoor temperature control and boiler control signal of each room from the temperature controller 100 and the room temperature controller 50 of each room. It is composed of a controller (110).

In this case, when the integrated boiler controller 110 is provided, the boiler is operated in accordance with the boiler control signal of each room by configuring the circuit of the first terminal block in multiple stages in the boiler controller without having to install the terminal block as described above. The automatic valve 30 is configured to control individually.

On the other hand, only the centralized temperature controller 100 is installed, the rest of the room may not be installed the room temperature controller, in this case, the centralized temperature controller 100 can control the hot water supply of each room, which is each room By controlling the automatic valve 30 by the star on / off button, the hot water supply to the corresponding room is controlled to consequently adjust the temperature of each room.

In addition, when the centralized temperature controller 100 is not installed and only the room temperature controller of each room is installed, the control signals of the room temperature controllers of each room are directly connected to the controller 110 of the boiler, based on FIG. 1. As described above, the temperature can be controlled separately in each room.

As described in detail above, according to the present invention, there is an effect of individually controlling the desired temperature by operating the boiler as needed in any room. In addition, it can be easily turned off when heating is not required in each room individually, and it is possible to adjust the temperature individually in each room, which not only improves the living environment by maintaining convenience and comfortable indoor temperature, but also saves energy at the same time. will be.

Claims (5)

In the room temperature control system to control the operation of the boiler by the room temperature controller of the heating system to adjust the room temperature, Automatic valve 30 for opening and closing each distribution pipe for distributing and supplying hot water to each room, It is installed in each room and the indoor temperature controller 50 for controlling the respective automatic valve 30 and the boiler 10 by room temperature and time adjustment, The operation signal of the room temperature controller 50 in each room is applied to the opening and closing signal of the corresponding automatic valve 30, and the boiler operation signal based on the operation signal of each room temperature controller 50 is connected to the boiler 10. Indoor, characterized in that it comprises a power supply adapter 70 for supplying power to the terminal block 60 coupled in multiple stages and the first stage of the terminal block 60 connected in multiple stages to be applied to the control path 11 of Temperature individual regulation system. The method of claim 1, wherein the terminal block 60 It is connected to the power source and the boiler operation signal from the front end, and receives the operation signal of the room temperature controller 50 of each room and outputs the open / close signal of the corresponding automatic valve 30 and the power for driving the automatic valve 30. The first terminal block 60a for connecting the boiler start signal based on the start signal of the room temperature controller 50 with the boiler start signal at the front end to the next stage, and the power supply from the last end of the first terminal block 60a. And a second terminal block (60b) receiving the boiler operation signal and outputting the boiler operation signal to the controller (11) of the boiler (10). The method of claim 1, wherein the terminal block The upper and lower surfaces of the terminal block case is formed with a coupling means (65) which can be coupled to each other, the room temperature individual control system, characterized in that configured to be coupled to each other in multiple stages. In the room temperature control system to control the operation of the boiler by the room temperature controller of the heating system to adjust the room temperature, Automatic valves are installed in each distribution pipe of the distributor that distributes hot water to each room, and an indoor temperature controller is installed in each room, and the opening and closing of the corresponding automatic valves are controlled based on the control signals of the indoor temperature controllers. Individual temperature control system, characterized in that the configuration including an integrated boiler controller to control the operation of the. The method of claim 4, wherein In addition to the room temperature controller of each room, the individual room temperature control system further comprises a centralized temperature controller that can centrally control the operation of the automatic valve and the boiler corresponding to each room in one place.