JPH01217133A - Living house heater controller - Google Patents

Abstract

PURPOSE:To improve the comfortable property of a living house heater, by a method wherein a temperature, a humidity and flow rate of air are detected and the detected values are compared with set values to control the operation of a hot-water heat exchanging fan coil unit. CONSTITUTION:When there is an output from either one of a temperature detecting and controlling circuit or a comparater 3 or a humidity detecting and controlling circuit or the comparator 6, a relay Ry1 9 is ignited to operate or stop a hot-water heat exchanging fan coil unit 10 whereby the proper balance of a temperature and a humidity is realized. When the humidity is too high than a set value considerably, a humidifier 13 is operated by the relay Ry3 12 to dehumidify air. At the same time, when a room temperature is deviated from the set value thereof, the air flow rate changeover switch of the hot-water heat exchanging fan coil unit 10 is operated by the output of the comparator 8 through the relay Ry2 11 to obtain a predetermined flow rate of air.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a home heating controller and home heating equipment using the same. More specifically, the present invention relates to a home heating controller that links temperature/humidity control and air volume control to further improve comfort in home heating using a hot water heat exchange fan coil unit.

(Conventional technology) In recent years, with the improvement of airtightness and insulation of residential buildings,
A method of heating all rooms in a house at once is attracting attention. For example, as such whole room heating, hot water floor heating that circulates hot water under the floor and hot air heating that circulates warm air throughout the room are known.

The inventors of this invention have already discovered, for example, the second
Ductless hot air heating using hot air circulation as shown in the figure has also been proposed.

In this method, the space under the floor (A) and the space above the ceiling (B) are used as hot air passages to form a hot air circulation path.

A 1m heater and a heat exchanger (1) are installed in a bit (o) under the floor.

The warm air from the heaters is blown into the atrium on the first floor or into the room near the stairs from one or several outlets. , stairs, atriums, and other spaces, and ventilation holes installed in the doors and walls of each room (
G) Circulate the air into each room. Each room has a suction port.
The return warm air from the room is sucked into the space under the floor (A) and in the attic (B) through this suction port (R).

The return hot air circulates under the floor (A) and at the ceiling (B), then returns to the pit (O) under the floor (A), heating I! Let (tsu) inhale.

In addition, in this example, the return hot air that is sucked into the attic (A) and circulated through the attic space (A) is passed through the communication path (G) that connects the underfloor (A) and the attic (A). Under the floor (
It leads to a). This communication path is, for example,
It can be installed in an appropriate location such as a closet or wall that is not normally used or where there is plenty of space.

The ventilation system for this facility is to exchange heat with return warm air in a heat exchanger (1) for fresh air taken in from outside, mix it with the return warm air, and heat it with a heater (2) to produce hot air. It is circulated indoors.

A portion of the return hot air is exhausted outdoors after undergoing heat exchange.

Regarding the heating R of such heating equipment, a hot water heater using hot water is preferably used.

This hot water heater is connected to a heating boiler, and examples thereof include hot water coil units shown in FIGS. 3 and 4.

FIG. 3 shows an example in which this hot water coil unit (C) is installed together with a heat exchanger (1) in a pit (O) under the floor (A). The warm air that has circulated under the floor (A) is guided to the suction port (S) of this hot water coil unit (C), and then connected to the pipe v8.
(b) Supply more indoors.

FIG. 4 shows an example of the structure of this hot water coil unit (). In the hot water coil unit 1-(K),
For example, it has a built-in hot water heat exchanger (S), a fan (C), and a filter (S). ) has been established.

This kind of heating equipment can be installed under the floor (A) or in the ceiling (B), so there is a great deal of freedom in installing the equipment, and it is suitable for heat exchange ventilation heating equipment for residential buildings. The space saving effect associated with the introduction of this will be extremely large.

For example, a hot water coil unit (co) and a heat exchanger (co)
By installing the pit (e) under the floor (a), noise such as vibration can be effectively prevented. Furthermore, even when installed in the ceiling, there is no need to run air supply ducts like in the past, so the air is not transmitted to each room through these ducts.

(Problems to be Solved by the Invention) The above-mentioned heating equipment using warm ffl circulation is superior in that it utilizes the space under the floor and in the ceiling, and also performs clean and efficient hot air circulation using a hot water heat exchange coil unit. However, with the existing equipment,
For example, as shown in Figure 5, heating can be set manually using a combination of a manual fan coil switch (1) and a temperature switch using a bimetal thermostat (2).
It was controlled by a bimetallic thermostat that adjusted the volume of warm air and turned off when the room temperature rose to a certain temperature.

For this reason, conventional equipment has adopted a system in which the factor of temperature is centrally controlled and the air volume is constant regardless of the temperature, so the combination of mit and temperature is not rationally related. Not yet, and
It was also not possible to control the air volume and temperature in combination with other factors for improving the comfort of the indoor environment. especially,
Conditions vary greatly from region to region, and since they do not have a major impact on the comfort of daily life, no attempt has been made to control these in combination with humidity.

This invention was made in view of the above circumstances, and in order to improve the shortcomings of conventional heating equipment and make heating more comfortable in highly airtight and highly insulated houses, it has been developed to The company aims to provide a new home heating controller that can control humidity as well as heating equipment using this controller.

(3!Means for Solving the Problem) In order to achieve the above object, the present invention provides a temperature, humidity and airflow detection section, a comparison device that compares the detected values and set values, and a comparison device that compares the detected values with set values. A home heating controller is provided, characterized in that it is equipped with a relay that controls the operation of a hot water heat exchange fan coil unit according to the output of the device.

Further, the present invention provides a residential heating equipment comprising the residential heating controller, a hot water heat exchange fan coil unit, an indoor hot air circulation path, and an air supply/exhaust heat exchanger provided as necessary.

(Function) The residential heating controller of the present invention makes it possible to control the operation of a hot water heat exchange fan coil unit such as the hot water coil unit described above, depending on factors such as temperature, air volume, and humidity. This controller can make home heating more comfortable.

The operation of the present invention will be further specifically explained by the following examples.

(Example) FIG. 1 shows an example of the home heating controller of the present invention.

As shown in this example, the residential heating controller includes a temperature detection/control circuit consisting of a thermistor (1), a temperature setting potentiometer (2), and a comparator (3), a humidity sensor (4), and a humidity setting resistor (5). ) and a humidity detection/control circuit including a comparator (6), a thermistor (1), an air volume setting resistor (7), and a comparator (8).
and an air volume control circuit.

Connect the relay R,, (9) to the comparator (3),
It performs ON-OFF control of the operation of the hot water heat exchange fan coil unit (10), and also controls the operation of the hot water heat exchange fan coil unit (10).
) is connected to a relay R, (11) to control the air volume of the hot water heat exchange fan coil unit (10).

Relay R, 1 (9) is connected to the comparator (6), and the 0N-OF of the hot water heat exchange fan coil unit (10) is connected.
In addition to performing F control, relay R73 (12) is connected to perform ON-OFF control of the dehumidifier (13).

In this home heating controller, either the output from the temperature detection/control circuit, i.e., the output from the comparator (3), or the output from the humidity detection/control circuit, i.e., the output from the comparator (6), is If there is an output, the relay R,1 (9) is fired and the hot water heat exchange fan coil unit (10) is activated or stopped.

This relay R,1 (9) performs ON-OFF control of the hot water heat exchange fan coil unit (10) so as to achieve an appropriate balance of temperature and humidity. is relay R,3(
12), the dehumidifier (13) can be operated to dehumidify.

At the same time, if the room temperature deviates from the set value,
The output from the comparator (8) determines the relay R, 2 (
11) through the hot water heat exchange fan coil unit (10
) to select the desired air volume.

In the example shown in FIG. 1, relays R, 3
(12) dehumidifies I! Although the operation of (13) is controlled, this control system for dehumidification is not necessarily required. Basically, the home heating controller of the present invention uses temperature, humidity, and air volume as heating control factors, and turns the hot water heat exchange fan coil unit (10) ON-OFF by comparing these factors with predetermined set values.
control and weight switching control.

It goes without saying that the hot water coil unit shown in FIGS. 3 and 4 can be used as the hot water heat exchange fan coil unit (10). The residential heating controller is equipped with a suitable hot water heat exchange fan coil unit,
For example, in combination with the hot air circulation path shown in FIG. 2, or in various other forms, it is possible to realize a comfortable heating facility with appropriate temperature, humidity, and air volume.

Of course, it goes without saying that there are no particular restrictions on the types of each element of the controller of the present invention, such as the thermistor, humidity sensor, comparator, sushi, etc.

(Effects of the Invention) This invention makes it possible to automate air volume control, which was conventionally performed manually, and to perform humidity control in combination with temperature control, which has not been possible until now. It improves the comfort inside the house and eliminates the need for conventional and troublesome manual operations. Furthermore, by incorporating sensors into the control device, the controller can be made into an electronic circuit and miniaturized.

Wiring work can be simplified.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an example of a home heating controller of the present invention. FIG. 2 is a sectional view showing an example of a hot air heating facility for a residence. FIGS. 3 and 4 are perspective views showing an example of a hot water coil unit that can be used in this equipment. FIG. 5 is a circuit diagram showing a conventional manual control system. 1...Thermistor 2...Temperature setting volume 3
... Comparator 4 ... Humidity sensor 5 ... Humidity setting resistance 6 ... Comparator 7 ... Air volume setting resistance 8 ... Comparator 9 ... Relay R11 10 ... Hot water heat exchange fan coil unit 11...
Relay R12...Relay Ry313...#Wet machine agent Patent attorney Toshio Nishizawa 2nd
Figure 1 Figure 5

Claims (2)

[Claims] (1) Comprising a temperature, humidity, and air volume detection unit, a comparison device that compares the detected values with set values, and a relay that controls the operation of the hot water heat exchange fan coil unit based on the output of the comparison device. A residential heating controller characterized by: (2) A residential heating equipment comprising the residential heating controller according to claim (1), a hot water heat exchange fan coil unit, and an indoor hot air circulation path.