JPS6219844Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a heating system that uses hot water.
More specifically, the hot water supplied from the heat source machine is
The present invention relates to a heating system using hot water, which is guided to a heat exchanger of a radiator installed in a room to be heated, and hot air is discharged from the heat exchanger using a fan.

In typical prior art, the heat source machine is operated continuously to supply hot water, independent of the operation of the radiator. In the heat radiator, the drive of a fan is controlled to adjust the room temperature. In such prior art, the heat source device remains in continuous operation during heating, which is uneconomical, and it is necessary to operate the heat source device and the radiator separately.
Poor operability.

In other prior art, a heat source machine is configured to operate at the same time as a fan in a radiator is driven for heating. Although this prior art has the advantage of being economical and easy to operate because the heat source device is operated only when the fan is running, it has the problem that cold air is emitted at the beginning of heating, resulting in a feeling of cold air. There is.

Another prior art technique for preventing the feeling of cold air during the initial stage of heating is disclosed in Utility Model Application No. 149146/1983. This prior art is configured to drive a fan to send warm air indoors when the boiler water temperature reaches a set temperature. A new problem with this prior art is that once hot air is sent out from the fan and the room temperature rises, even if the water temperature is higher than the set temperature, hot water with a temperature close to the set temperature is supplied. When the fan is turned on, the wind from the fan is to cause a feeling of cold wind. That is, once the room temperature has risen, if the water temperature falls within a range equal to or higher than the set temperature, a feeling of cold air may occur.

An object of the present invention is to provide a heating system using hot water that can provide comfortable heating without always causing a feeling of cold air.

The present invention is a heating system using hot water, in which hot water from a heat source device is circulated and guided to a heat exchanger installed in a radiator, and hot air is discharged from the heat exchanger using a fan. Hot water temperature detector 11 that detects temperature Tw
In response to the outputs of the room temperature detector 16 which detects the room temperature Tr of the room to be heated, etc., and the hot water temperature detector 11 and the room temperature temperature detector 16, (a) the temperature Tr indicates that heating is required. When the room temperature is below the first room temperature Ts1, the heat source machine is activated and the hot water in the heat source machine is circulated, and when the room temperature is at or above the second room temperature Ts2, which is higher than the first room temperature Ts1, the heat source machine is disabled and the hot water is circulated. (b) When the hot water temperature Tw increases,
The fan is disabled until the hot water temperature Tw becomes higher than a predetermined first hot water temperature Tw1 that does not cause a feeling of cold wind, and when the hot water temperature rises to the first hot water temperature Tw1 or higher, the fan is turned off. drive,
(c) When the hot water temperature Tw exceeds a predetermined second hot water temperature Tw2 which is higher than the first hot water temperature Tw1, the fan is kept running, and when the hot water temperature decreases, the second hot water temperature Tw2 is higher than the first hot water temperature Tw1. This heating system uses hot water and is characterized by including means for disabling the fan when the temperature drops below Tw2.

FIG. 1 is a piping system diagram of an embodiment of the present invention. Hot water from heat source device 1 is transferred from pipe 2 to radiator 3
is supplied to the heat exchanger 4. A radiator is placed in a room to be heated. The hot water used for heating in the heat exchanger 4 returns to the heat source device 1 through the pipe line 5, is heated again, and circulates. Hot water from the pipe line 5 is stored in a storage tank 6 of the heat source device 1. This storage tank 6
The hot water is pumped from the pump 7 to the pipe line 2 via the heat exchanger 8. A heat exchanger 8 raises the temperature of hot water using a gas burner 9. In the heat radiator 3, a fan 10 is provided in association with the heat exchanger 4. By driving this fan, warm air is sent to the heat exchanger 4.
It is released into rooms that need to be heated. The temperature of the hot water introduced into the heat exchanger 4 is determined by the hot water temperature detector 1.
Detected by 1.

FIG. 2 is an electrical circuit diagram related to the heat source device 1 and the heat radiator 3. In the heat source device 1, the pump 7 and the combustion control device 12 are connected in parallel. A connection terminal 13 is interposed in a power line that supplies power to the pump 7 and the combustion control device 12 . The combustion control device 12 has a function of igniting the gas burner 9 when the power is energized and extinguishing the burner 9 when the power is de-energized.

In the radiator 3, the operation switch 14 and the hot water temperature detector 11 are connected in series. Electric power via the operation switch 14 and the hot water temperature detector 11 is applied to the fan 10 and the room temperature control device 15 in parallel. A room temperature detector 16 is connected to the room temperature control device 15 to detect the room temperature Tr of a room to be heated. A room temperature setting device 17 is also connected to the room temperature control device 15 . This room temperature setting device 17
is the room temperature Ts1 that requires heating before heating
(e.g. 21°C) and the predetermined upper limit Ts2 (e.g. 22°C) raised by heating.
can be set. Here, Ts1<Ts2. The hot water temperature detector 11 detects that the hot water temperature Tw is
The temperature Tw1 (for example, 47
℃) or above, and is turned off when the temperature of hot water is below Tw2 (for example, 37°C), which gives a feeling of cold air when air is blown by the fan 10. here
Tw1>Tw2. Room temperature control device 15 excites relay 18 to turn on relay switch 19 when room temperature Tr detected by room temperature detector 16 is below a preset room temperature Ts1. Further, the room temperature control device 15 demagnetizes the relay 18 and shuts off the relay switch 19 when the room temperature Tr is equal to or higher than a predetermined room temperature Ts2. The connection terminal 13 of the heat source device 1 is
It is connected to the relay switch 19 by a lead wire 20.

With reference to FIG. 3, the operation of the heating system shown in FIGS. 1 and 2 will be explained. In step m1 of FIG. 3, the operation switch 14 is turned on. In the next step m2, the room temperature detector 16
When the room temperature Tr detected by the room temperature setter 17 is lower than the room temperature Ts1 determined in advance by the room temperature setting device 17,
Room temperature control device 15 energizes relay 18, turns on relay switch 19, and executes step m3. As a result, the heat source device 1 is activated, the pump 7 is driven, and the combustion control device 12 is activated.
The gas burner 9 is ignited and the hot water is heated by the heat exchanger 8. Note that the room temperature Tr is the predetermined room temperature.
When Ts1 is exceeded, even if the operation switch 14 is turned on in step m1, the room temperature control device 15
does not energize relay 18, and relay switch 19 remains cut off.

In step m3, the pump 7 is driven,
By energizing the combustion control device 12, the hot water is heated and circulated through the pipes 2 and 5. The temperature Tw of this hot water is determined by the hot water temperature detector 11
detected by. In step m4, the hot water temperature detector 11 remains shut off until the hot water temperature Tw becomes higher than the predetermined hot water temperature Tw1. Hot water temperature Tw is predetermined hot water temperature Tw1
When this happens, the hot water temperature detector 11 becomes conductive.
Therefore, in step m5, the fan 10 is driven and the room temperature control device 15 is energized. When the fan 10 is driven and hot air is discharged into a room to be heated, the temperature of the hot air may be accompanied by a feeling of cold air because the hot water temperature Tw is the predetermined hot water temperature Tw1. Not only is there no heat, but warm air at a comfortable temperature is blown out. In this way, the room temperature Tr increases.

When the room temperature Tr is less than the temperature Ts2 determined by the room temperature setting device 17, the room temperature control device 15 keeps the relay 18 energized and the relay switch 19 is conductive at step m6. room temperature
When Tr reaches a predetermined temperature Ts2 or higher, the step
At m7, the room temperature control device 15 demagnetizes the relay 18 and shuts off the relay switch 19. As a result, the drive of the pump 7 is stopped, and the combustion control device 12
is deenergized and the supply of fuel gas to the gas burner 9 is cut off. Therefore, the hot water temperature to the heat exchanger 4
Tw will fall.

When the hot water temperature Tw exceeds the predetermined hot water temperature Tw2 in step m8, the hot water temperature detector 11 is conductive. Therefore, Juan 10
is driven, and the room temperature control device 15 is energized. During the period when the hot water temperature Tw exceeds the predetermined hot water temperature Tw2, the hot air discharged by driving the fan 10 does not have a cold feeling.

When the hot water temperature Tw becomes lower than the predetermined hot water temperature Tw2 and falls to a temperature accompanied by a feeling of cold air, the hot water temperature detector 11 shuts off. As a result, the fan 10 is stopped in step m9, and the power supply to the room temperature control device 15 is released. Hot water temperature Tw
Since the fan 10 is driven and hot air is discharged until the temperature of the hot water drops below the hot water temperature Tw2 with a feeling of cold air, the thermal energy of the hot water is fully utilized for heating, which is economical. After step m9, return to step m2.

As described above, according to the present invention, the following effects are achieved.

When the temperature of hot water is rising by the heat source device, the fan is disabled until the temperature rises above the first hot water temperature Tw1, and the first hot water temperature is increased.
Drives the fan when it rises above Tw1.
As a result, even when the room temperature is low and heating is not being performed, heating can be performed without creating a feeling of cold air.

After that, when the hot water temperature Tw becomes equal to or higher than the first hot water temperature Tw1, hot air is sent into the room and once heating is performed, the temperature of the hot water is
Tw may fluctuate up and down within a range equal to or higher than the first hot water temperature Tw1. This is because when the room temperature reaches or exceeds the second room temperature Ts2, the heat source device may be disabled and the circulation of hot water may be stopped. In this way, when the hot water temperature Tw fluctuates up and down within a range of the first hot water temperature Tw1 or higher, the fan is disabled when the hot water temperature Tw becomes lower than the second hot water temperature Tw2. Once heated in this manner, the blowing of air is stopped when the temperature falls below the second hot water temperature Tw2, which is higher than the first hot water temperature Tw1. This prevents the body, which is accustomed to heating, from experiencing a cold sensation. In this way, comfortable heating can be achieved.

Furthermore, in the present invention, when the room temperature Ts is below the predetermined first room temperature Ts1 that requires heating, the heat source device is activated for the first time, and hot water from the heat source device is circulated to the heat exchanger used in the radiator. and a second room temperature Ts1 whose room temperature is higher than that of the first room temperature Ts1.
When the room temperature Ts2 is reached, the heat source machine is disabled and the circulation of hot water is stopped, so the heat source machine is not operated unnecessarily, contributing to energy conservation.

[Brief explanation of the drawing]

Figure 1 is a piping system diagram of one embodiment of the present invention, Figure 2
The figure is the electrical circuit diagram, and Figure 3 is the same as Figures 1 and 2.
3 is a flowchart for explaining the operation of the heating system shown in the figure. 1...Heat source device, 2, 5...Pipe line, 3...Radiator, 4...Heat exchanger, 7...Pump, 9...Gas burner, 10...Fan, 11...Hot water temperature detector, 12... Combustion control device, 15... Room temperature control device, 16... Room temperature detector, 17... Room temperature setting device,
18...Relay.

Claims (1)

[Claims for Utility Model Registration] A heating system using hot water in which hot water from a heat source device is circulated and guided to a heat exchanger installed in a radiator, and hot air is discharged from the heat exchanger using a fan. In, a hot water temperature detector 11 that detects the temperature Tw of hot water
In response to the outputs of the room temperature detector 16, which detects the room temperature Ts of the room to be heated, the hot water temperature detector 11, and the room temperature sensor 16, (a) When the room temperature is below the first room temperature Ts1, the heat source machine is activated and the hot water in the heat source machine is circulated, and when the room temperature is at or above the second room temperature Ts2, which is higher than the first room temperature Ts1, the heat source machine is disabled and the hot water is circulated. (b) When the hot water temperature Tw increases,
The fan is disabled until the hot water temperature Tw becomes higher than a predetermined first hot water temperature Tw1 that does not cause a feeling of cold wind, and when the hot water temperature rises to the first hot water temperature Tw1 or higher, the fan is turned off. drive,
(c) When the hot water temperature Tw exceeds a predetermined second hot water temperature Tw2 which is higher than the first hot water temperature Tw1, the fan is kept running, and when the hot water temperature decreases, the second hot water temperature Tw2 is higher than the first hot water temperature Tw1. A heating system using hot water, comprising means for disabling the fan when the temperature drops below Tw2.