JPS5971944A - Control device for air-conditioning apparatus - Google Patents

Abstract

PURPOSE:To enable to control the room temperature to be equal to a set temperature at the position of the user of an air-conditioning apparatus, by detecting the room temperature by a room-temperature detecting circuit, and emitting an electric-wave control signal from a transmitter circuit. CONSTITUTION:A room-temperature detecting circuit 2 includes, for instance, a thermistor and applies a room-temperature representing signal to a processing circuit 4. In response to a control signal given from the processing circuit 4, a transmitter circuit 5 produces an electric-wave signal of a high-frequency carrier wave modulated by the control signal given from the processing circuit 4. A primary battery 8 for supplying current is disposed in a casing 1, and the electric- wave signal produced by the transmitter circuit 5 is received by a receiver circuit 9. The output of the receiver circuit 9 is applied to a control circuit 10 and controls the opening of a flow control valve 11 of an air-conditioning apparatus 7.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention is directed to a control device for controlling an air conditioner for cooling or cooling a building or the like.

PRIOR ART The control device for adjusting the indoor temperature, which is installed in connection with conventional air conditioners, is fixedly installed on the wall or pillar of the house, and is connected to the air conditioner by a line. has been done. In such prior art, in order to operate the control device in order to adjust the indoor temperature, it is necessary to go to the place where the control device is housed and operate it, resulting in poor operability. ing. Such control devices also detract from the aesthetics of the interior. Furthermore, conventionally, this control device is provided with a circuit for detecting the indoor temperature, and the solid line does not detect m1 degrees in a place where a person is present. Therefore, it was not possible to provide comfortable cooling or heating within the room.

OBJECTIVES An object of the present invention is to provide a control device for an air conditioner that improves operability and allows comfortable cooling or cooling.

Embodiment FIG. 1 is a block diagram of an embodiment of the present invention. The barrier operating means 1 includes, in its one casing, an indoor temperature detection circuit 2 that detects the rm7 pressure, a temperature setting circuit 3 that outputs a signal representing the setting rYFA summer, and processing realized by a microcomputer or the like. Circuit 4 and processing time lol!
It includes a transmitting circuit 5 connected to r4 and a display circuit 6. The indoor temperature detection circuit 2 includes, for example, a thermistor, and provides a signal representing the indoor temperature to the processing circuit 4. The temperature setting circuit 3 includes switches and the like that are used to set the indoor temperature to a desired temperature. The processing circuit 4 responds to the power supplied to the indoor temperature detection circuit 2 and the temperature setting circuit 3 by
A signal to control the air conditioner 7 is derived. The transmitting circuit 5 responds to the control signal 4g from the processing circuit 4 and transmits a radio signal, which is a high frequency carrier wave, which is filtered and filtered by the control signal. The display circuit 6 includes, for example, a liquid crystal display element, and displays the indoor temperature detected by the indoor temperature detection circuit 2 as a political value.

Also built into the casing is a primary circuit 8 for energizing the room temperature detection circuit 2, temperature setting circuit 3, processing circuit 4, transmission circuit 5, and display circuit 6. The radio signal from the transmitting circuit 5 is received by the receiving circuit 9. The output from this receiving circuit 9 is )βI] control circuit 10
given to. The control circuit 10 controls the opening degree of a flow rate 1rl control valve 11 provided in the air conditioner 7.

The air conditioning device 7 is, for example, a so-called central heating device using hot water, and the flow control valve 11 is supplied with hot water from a hot water supply source. A flow rate control valve 11 interposed in the middle of the pipe line 12 controls the flow rate of temperature to a heat exchanger 13 provided indoors. In this way, when the indoor temperature is lower than the set temperature, the flow value is 1 fl.
When the opening degree of the J-curve 1 valve 11 increases, and conversely, when the indoor m1 degree is higher than the set temperature, the opening degree of the flow control valve 11 becomes smaller, and in this way the indoor temperature matches the revised m1 degree. controlled to do so. The air conditioner 7 may be a heating device having another configuration, or may be a device that only performs cooling.

The construction of the processing circuit 4 will be explained with reference to FIG.

Moving from step n1 to step n2, it is determined whether a predetermined time T has elapsed. This time T may be, for example, 3 to 5 minutes. When the time T has elapsed, the process moves to step n3 and subsequent steps, and each step is executed.

In this way, the power consumption from the secondary battery 8 can be reduced as much as possible. Therefore, the secondary battery 8 can be downsized. In step n3, 7IiILi detected by the indoor temperature detection circuit 2 is read into the processing circuit 4, and in step n4, the temperature set by the temperature setting circuit 3 is read. In step n5,
The processing circuit 4 includes the indoor temperature detection circuit 2 and the separation setting circuit 3.
It receives the output from the air conditioner 7 and performs a comparison calculation to derive a signal to control the flow rate control valve 11 fitted to the air conditioner 7. In step n6, the transmitting circuit 5 generates a radio wave signal in response to the control signal from the processing circuit 4 as described above, and in step n7, the series of steps 93 is completed.

In other embodiments of the present invention, the secondary battery 8 may be replaced by a secondary battery or a secondary battery charged by a solar cell.

Effects As described above, according to the present invention, it is possible to manually control the air conditioner so as to achieve the setting speed set in the room temperature setting circuit. Therefore, the present invention eliminates the need for a person to move for control as in the prior art described above, improving operability and eliminating the risk of damaging the interior of the room.

In addition, since the indoor temperature detection circuit detects the indoor temperature in the vicinity of people, it is possible to control the air conditioning so that the temperature is optimal for the people in the room, and to keep the room comfortable. It will be n'.

Furthermore, in the present invention, the transmitter circuit emits the radio wave number 1d and does not emit other signals that propagate in the room, such as light or ultrasonic waves, so power consumption from the battery can be reduced. can.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a flowchart for explaining a previous version of the processing circuit 4. In FIG. l...Remote control means, 2...Indoor temperature detection circuit, 3
... llui degree setting circuit, 4... processing circuit, 5...
Transmission circuit, 6...Display circuit, 7...Air phase control device, 8
...-Battery, 9. Receiving circuit, 10. Control circuit, 11. Flow rate control valve, 13. Heat exchanger agent Patent attorney Kei Nishi Keiichi (7) No. 209 -2 Figure

Claims (1)

[Scope of Claims] In response to outputs from the indoor temperature detection circuit and the temperature setting circuit, a processing circuit that derives a signal to control the air conditioner; a transmitting circuit that transmits a radio signal in response to the control signal from the processing circuit; a receiving circuit that receives the radio signal; 1. A control device for an air conditioner, comprising means for controlling the air conditioner so that the indoor temperature reaches a set temperature in response to the output.