JPH08149580A - Remote control system - Google Patents

Abstract

PURPOSE: To provide the remote control system which hardly puts restrictions on positional relations between a transmitter and a load. CONSTITUTION: A transmitter 4 provided with an operation part 5 for operation and a transmission part 6 which transmits an operation signal for control of the load by radio based on the output of the operation part, a receiver 8 provided with a reception part 9 for reception of the operation signal from the transmitter and an output part 10 which converts the operation signal to a control signal of the load to output it, and a second transmitter 12 provided with a storage part 13 where a second control signal to control the load by radio is stored, a conversion part 14 which converts the control signal to the second control signal based on the storage part, and a second transmission part 15 which transmits the second control signal are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control system for remotely controlling loads such as electric equipment.

[0002]

2. Description of the Related Art Conventionally, as a remote control system for remotely controlling a load composed of electric equipment such as a television and an air conditioner, an oscillator for transmitting an operation signal composed of an optical signal such as infrared rays is provided for each load. The load is controlled by operating the oscillator. However, this one requires as many transmitters as the number of loads, and management thereof is troublesome. Therefore, recently, there is a remote control system for controlling a plurality of loads with one transmitter.

[0003]

In the remote control system described above, a plurality of loads can be controlled, but since they are controlled by optical signals, they cannot be transmitted if there is an obstacle such as a wall, and Since the reach of the optical signal is also limited, it is necessary to operate the transmitter by placing it near the load and in a position where it can be seen.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a remote control system which is less likely to be restricted by the positional relationship between the transmitter and the load.

[0005]

In order to solve the above-mentioned problems, a remote control system according to a first aspect of the present invention comprises an operation section for operation and an operation signal for controlling a load based on the output of the operation section. And a receiver having a receiver for receiving an operation signal of the transmitter and an output unit for converting the operation signal into a load control signal and outputting the load control signal. It is configured.

A remote control system according to a second aspect of the present invention is connected to the output section of the receiver according to the first aspect, and stores a second control signal for wirelessly controlling the load. A second oscillator having a unit, a converter that converts a control signal into a second control signal based on the storage unit, and a second transmitter that transmits the second control signal.

According to a third aspect of the remote control system, the second oscillator according to the second aspect is provided with learning means for inputting the second control signal and outputting it to the storage section.

According to a fourth aspect of the remote control system, the transmitter of the first to third aspects is provided with a collective transmitting means for transmitting a plurality of operation signals.

A remote control system according to a fifth aspect is controlled by the second control signal of the second oscillator according to the first to fourth aspects, and is connected to the power source side of the load to the load. An energization controller for controlling the energization of is provided.

[0010]

According to the first aspect of the invention, the radio wave is reflected by operating the transmitter to transmit an operation signal by radio wave to the receiver and converting the signal into a control signal to control the load. However, since the signal is transmitted over a considerable distance, the load can be controlled without being restricted by the positional relationship between the transmitter and the load.

According to the structure of claim 2, in addition to the operation of claim 1, the wireless second control signal is transmitted from the second oscillator to control the load, whereby the remote control is performed wirelessly. It is possible to control the load that can be formed.

According to the structure of claim 3, in addition to the function of claim 2, since the second control signal can be input to the storage unit by the learning means, the remote control system can be used at a place where it is used. Accordingly, the second control signal can be set.

According to the structure of claim 4, in addition to the functions of claims 1 to 3, the transmitter can collectively transmit a plurality of operation signals, so that a plurality of devices can be collectively operated. Can be controlled.

Further, according to the structure of claim 5, in addition to the actions of claims 1 to 4, the energization controller can control the power supply to the load.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a block diagram of a remote control system showing an embodiment of the present invention. This remote control system is for remotely controlling a load 1, and includes a transmitter 4,
The receiver 8 and the second oscillator 12 are the main constituent members.

The load 1 is a first electric device 2a, 2b, 2c, 2d, 2e, 2f which has a remote control remote controller for itself such as a television, an air conditioner, a lighting device, etc. and can be remotely controlled by radio, It is composed of second electric devices 3a, 3b, 3c such as electric shutters, electric curtains, and electric locks that can be remotely controlled by wire.

The oscillator 4 transmits an operation signal for remotely controlling the load 1, and includes an operation unit 5 and a transmission unit 6.
have. The operation unit 5 outputs an operation signal by being operated, and has a plurality of switches (not shown) that output the operation signal. This operation signal includes, for example, a signal for turning on / off each load 1, a signal for switching the channel if the load 1 is a television, a signal for simultaneously controlling a plurality of loads 1, and the like. The transmission unit 6 transmits an operation signal by radio waves and has a collective transmission unit 6a. This collective transmission means 6a is for transmitting a plurality of operation signals for controlling a plurality of loads 1 at the same time, for example, to simultaneously operate a plurality of loads 1 in the morning,
It is used when you want to block multiple loads 1 when you are out.
Reference numeral 7 shown in FIG. 2 is a card-shaped storage means for storing operation signals for controlling a plurality of loads 1 and program control of a single load 1, and is inserted into the oscillator 4 as necessary. By doing so, the operation signal can be transmitted. The oscillator 1 is formed to be portable.

The receiver 8 receives the operation signal and controls the load 1, and is installed in the ceiling or a closet. This receiver 8 has a receiving section 9 and an output section 10, and the repeater 1
While being connected to the second electric devices 3a, 3b, 3c of the load 1 and the second oscillator 12 to be described later via 1, 1 ,.
It is also connected to a power source via a distribution board (not shown). The receiving unit 9 receives the operation signal of the oscillator 4 and outputs it to the output unit 10. The output unit 10 converts the operation signal into a control signal for the load 1 and outputs the control signal to the second electric devices 3a, 3b, 3c and the second oscillator 12. This control signal is based on a certain standard.
The repeater 11 converts the control signal into a signal for control unique to each load 1.

The second oscillator 12 is the first electric device 2a, 2b, 2c, 2
It controls d, 2e, 2f wirelessly, and includes a storage unit 13 and a conversion unit 1.
4, it has a second transmitting unit 15 and a learning means 16. Memory 13
Stores a second control signal for wirelessly controlling the first electric device 2a, 2b, 2c, 2d, 2e, 2f.
The second control signals peculiar to 2a, 2b, 2c, 2d, 2e and 2f are stored. This second control signal is applied to each first electric device 2a, 2b, 2c, 2d, 2e, 2f.
It corresponds to the signal output from the remote control attached to. Converter 14
Converts the control signal output from the receiver 8 into the second control signal based on the storage unit 13. The second transmitter 15 wirelessly transmits the second control signal, which is an optical signal such as infrared rays. The learning means 16 includes the first electric devices 2a, 2b, 2c, 2d, 2e, 2
A second control signal specific to f is input and output to the storage unit 13. For example, a remote controller, which is a transmitter attached to the first electric device 2a, 2b, 2c, 2d, 2e, 2f, is input to the learning unit 16. By operating toward, the second control signal is input and stored in the storage unit 13.

An energization controller 17 is controlled by the second control signal of the second oscillator 12 and is connected to the power source side of the load 1 to control the energization of the load 1. The energization controller 17 is configured to be connected to, for example, an outlet 18, and by connecting the first electric device 2c to the energization controller 17, the energization of the first electric device 2c is controlled. In addition, the energization of the first electric device 2d is controlled by connecting the energization controller 17 to the hooking energization member 19 of the lighting device of the first electric device 2d.

The operation of this embodiment will be described below.
By operating the operation unit 5 of the transmitter 4, an operation signal is output from the transmission unit 6 as a radio wave. This operation signal is received by the receiver 8
Is received by the receiving unit 9 and converted into a control signal by the output unit 10 and output to the second electric devices 3a, 3b, 3c and the second oscillator 12. As a result, the operations of the second electric devices 3a, 3b, 3c are controlled. The control signal output to the second oscillator 12 is converted into a second control signal by the conversion unit 14 based on the storage unit 13, and the second control signal is wirelessly transmitted to the first control signal by the second transmission unit 15. Electrical equipment
2a, 2b, 2c, 2d, 2e, 2f is transmitted and its operation is controlled. On the other hand, the second control signal output to the energization controller 17 controls energization of the first electric devices 2c and 2d. In addition, the second oscillator 12
The second control signal of the storage unit 13 can be input by the learning means 16.

Since this structure and operation are as described above, the load 1 can be remotely controlled without being restricted by the positional relationship between the oscillator 4 and the load 1. As a result, the receiver 8 can be installed in a location that is not easily visible to improve the aesthetics, or the load 1 can be located far away from the load 1.
Can be controlled. Further, it becomes possible to perform complicated control of the load 1 by using the collective control means 6a of the oscillator 4 and the like.

In this embodiment, the television, the air conditioner, the lighting equipment, etc. are the first electric equipment, and the electric shutter, the electric curtain, the electric lock, etc. are the second electric equipment, but the invention is not limited to these. In short, the first electric device is simply divided into those that can be controlled wirelessly and the second electric devices that can be controlled only by wire. Therefore, it is of course possible to control the second electric device by the energization controller. Further, the power supply to the load 1 can be supplied not only through an outlet or a hooking current-carrying member but also through a receiver.

[0024]

The remote control system according to the first aspect of the invention controls the load by controlling the load by operating the oscillator, transmitting the operation signal to the receiver by radio waves, and converting the signal into the control signal.
Since the radio waves are reflected and transmitted to a considerable distance, the load can be controlled without being limited by the positional relationship between the transmitter and the load, so that remote control of the system is further facilitated.

In addition to the effect of claim 1, the remote control system according to claim 2 wirelessly performs remote control by transmitting a wireless second control signal from the second oscillator to control the load. Since the load that can be formed is controllable, the load that can be used is increased and the usability is improved.

Further, in addition to the effect of claim 2, the remote control system according to claim 3 can input the second control signal to the storage unit by the learning means, so that the remote control system can be installed in a place where the remote control system is used. Accordingly, since the second control signal can be set, the usability is further improved and
Since the system can be constructed with one type of second oscillator, manufacturing becomes easy.

Further, in the remote control system according to claim 4, in addition to the effects of claims 1 to 3, the transmitter can collectively transmit a plurality of operation signals. Since it can be controlled by the user, the usability is further improved.

Further, in the remote control system according to the fifth aspect, in addition to the actions of the first to fourth aspects, the power supply to the load can be controlled by the energization controller, so that the electrical safety is improved.

[Brief description of drawings]

FIG. 1 is a block diagram of a remote control system showing an embodiment of the present invention.

FIG. 2 is a system diagram showing actual use of the remote control system.

[Explanation of symbols]

 1 Load 2a, 2b ... 1st electric device 3a, 3b ... 2nd electric device 4 Oscillator 5 Operation part 6 Sending part 6a Batch transmission means 8 Receiver 9 Receiving part 10 Output part 13 Storage part 14 Converting part 15 Second transmission Part 16 Learning means 17 Energization controller

Claims (5)

[Claims] 1. A transmitter having an operating unit for operating and a transmitting unit for transmitting an operating signal for controlling a load by radio waves based on the output of the operating unit, and receiving an operating signal of the oscillator. A remote control system, comprising: a receiver having a receiver and an output that converts an operation signal into a load control signal and outputs the load control signal. 2. A storage unit, which is connected to an output unit of the receiver and stores a second control signal for wirelessly controlling a load, and a second control signal based on the storage unit.
The remote control system according to claim 1, further comprising a second oscillator having a conversion unit that converts the control signal and a second transmission unit that transmits the second control signal. 3. The remote control system according to claim 2, wherein the second oscillator is provided with learning means for inputting a second control signal and outputting the second control signal to a storage unit. 4. The remote control system according to claim 1, wherein the transmitter of the transmitter is provided with a collective transmitter for transmitting a plurality of operation signals. 5. An energization controller, which is controlled by the second control signal of the second oscillator, is connected to the power source side of the load and controls energization to the load. The remote control system according to claim 1.