AU2019100203A4

AU2019100203A4 - Light source control device

Info

Publication number: AU2019100203A4
Application number: AU2019100203A
Authority: AU
Inventors: Yu Ta Chen
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-02-25
Filing date: 2019-02-25
Publication date: 2019-04-04
Anticipated expiration: 2027-02-25

Abstract

A light source control device has a switch capable of receiving a signal remotely. The switch is electrically connected to at least one base. The base has at least one mounting member for mounting a lamp. The switch has a logic unit. The logic unit can perform a turn-on operation or a turn-off operation for the mounting member, so that the user can send a signal to command the logic unit to turn on/off the lamp. 2 mains supply base -switch 114 -mounting member logic unit receivingunit ( wireless 21 ~ transmitter lamp 12 interconnected network

Description

FIELD OF THE INVENTION

The present invention relates to a control device, and more particularly to a control device that can control a light source remotely.

BACKGROUND OF THE INVENTION

Lamps are installed in most homes, factories, buildings, and the like to provide sufficient light. In general, a lamp is turned on/off through a switch disposed on the wall. When the user wants to turn the lamp on or off, it is necessary for the user to walk to the switch to turn on/off the lamp. As a result, it is unsatisfactory in operation.

In order to solve such a problem, there is a control device for controlling a lamp through an infrared remote control on the market. The control device has a receiver electrically connected to the lamp and an infrared emitter. The infrared emitter can transmit a turn-on signal and a turn-off signal to the receiver. When the user wants to turn the lamp on or off, the lamp can be turned on or off by simply aligning the infrared emitter with the receiver and transmitting the turn-on signal or the turn-off signal. However, although such a control device can achieve the function of controlling the lamp remotely through the cooperation of the infrared emitter and the receiver, the control device is designed to turn on/off all the lamps through a one-off operation, which is very unsatisfactory in operation. In addition, when a plurality of lamps are to be controlled, it is necessary to install a plurality of control devices according to the number of lamps, and the infrared 20 emitters are paired with the receivers to control the lamps through the infrared emitters. In this way, it takes a lot of time to pair the infrared transmitters with the receivers. When one of the lamps is to be controlled, the infrared emitter must aim at the receiver connected to the lamp for turning on/off the lamp, which is inconvenient for installation and operation.

2019100203 25 Feb 2019

Accordingly, the inventor of the present invention has devoted himself based on his many years of practical experiences to solve these problems.

SUMMARY OF THE INVENTION

Accordingly in one form of the invention there is provided a light source control device, said a light source control device including:

A switch is electrically connected to a base, and all lamps that are electrically connected to the base can be controlled through a wireless transmitter or a mobile phone, thereby reducing installation time and improving the convenience of operation greatly. Furthermore, the present invention is provided with a logic unit, and the logic unit can intelligently learn and record the lighting configuration of each lamp for the preferences of different users to achieve the convenience of operation.

In order to achieve the above object, the present invention provides a light source control device. The light source control device has a switch. The switch is electrically connected to at least one base. The base has at least one mounting member for mounting a lamp. The switch has a logic unit and a receiving unit. The receiving unit is configured to receive a signal and transmit it to the logic unit, so that the logic unit can execute a program sequence. The program sequence is configured to perform a turn-on operation or a turn-off operation for the mounting member. When the turn-on operation is performed, the logic unit commands the base to supply power to the mounting member so that the lamp emits light. When the turn-off operation is performed, the logic 20 unit commands the base to stop supplying power to the mounting member so that the lamp stops emitting light.

Preferably, the signal is a communication protocol that is infrared, Bluetooth, ZigBee or Wi-Fi.

2019100203 25 Feb 2019

Preferably, the receiving unit is connected to an interconnected network. The signal is transmitted through the interconnected network for the logic unit to perform the turn-on operation or the turn-off operation.

Preferably, the program sequence records the turn-on operation or the turn-off operation performed by the mounting member in the past and converts it to at least one sub-program sequence. The sub-program sequence may directly command the mounting member to perform the tum-on operation or the turn-off operation performed in the past.

Preferably, the light source control device further has a wireless transmitter. The wireless transmitter has a plurality of buttons. Each button corresponds to each sub-program sequence. When one of the buttons is pressed, the wireless transmitter transmits the signal to the receiving unit, commanding the logic unit to execute the sub-program sequence corresponding to the button.

The above objects and advantages of the present invention will be readily understood from the following detailed description of the embodiments, with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram showing the circuit of the present invention; and

FIG. 2 is a schematic view of the present invention when in use, showing that the user controls each lamp through a mobile phone.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1 and FIG. 2 illustrate a preferred embodiment of the present invention for illustrative purposes only, and the present invention is not limited to the embodiment.

2019100203 25 Feb 2019

As shown in FIG. 1 and FIG. 2, the present invention provides a light source control device. The light source control device has a switch 1. The switch 1 is electrically connected to at least one base 2. The base 2 is electrically connected to a mains supply 3 and has at least one mounting member 21 for mounting a lamp 22. As shown in FIG. 2, the base 2 has three mounting members

21. Each of the three mounting members 21 is provided with a lamp 22.

The switch 1 has a logic unit 11 and a receiving unit 12. The receiving unit 12 is configured to receive a signal and transmit it to the logic unit 11, so that the logic unit 11 can execute a program sequence. The program sequence can perform a tum-on operation or a turn-off operation for each of the mounting members 21. When the turn-on operation is performed, the logic unit 11 commands the base 2 to supply power to each of the mounting members 21, so that the lamp of each of the mounting members 21 emits light. When the turn-off operation is performed, the logic unit 11 commands the base 2 to stop supplying power to each of the mounting members 21, so that the lamp 22 of each of the mounting members 21 stops emitting light. In this embodiment, the signal may be a communication protocol, such as infrared, Bluetooth, ZigBee or Wi-Fi. The user may use a mobile phone 41 to transmit the signal via Bluetooth.

Preferably, the program sequence records the tum-on or tum-off operation performed by each of the mounting members 21 in the past and converts it to at least one sub-program sequence. The sub-program sequence may directly command each of the mounting members 21 to perform the turn-on operation or the turn-off operation performed in the past. For example, when two of the 20 three mounting members 21 have performed the turn-on operation for the corresponding lamps 22, and the other mounting member 21 has performed the turn-off operation for the corresponding lamp

22, the program sequence records the operations performed by the three mounting members 21 and converts them into a sub-program sequence. When the sub-program sequence is executed, the two mounting members 21 will perform the turn-on operation for the lamps 22 again, and the other mounting member 21 will perform the turn-off operation for the lamp 22.

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The light source control device further has a wireless transmitter 4. The wireless transmitter 4 has a plurality of buttons (not shown in the drawings). Each button corresponds to each subprogram sequence. When one of the buttons is pressed, the wireless transmitter 4 transmits the signal to the receiving unit 12, commanding the logic unit 11 to execute the sub-program sequence corresponding to the button.

Furthermore, the receiving unit 12 is connected to an interconnected network 13, such that the user can use a desktop computer to directly transmit the signal through the interconnected network 13 for the logic unit 11 to perform the turn-on operation or the turn-off operation.

When the present invention is in use, the base 2 connected to the mains supply 3 is electrically connected to the switch 1 provided by the present invention to complete the installation. A plurality of bases 2 may be electrically connected to the switch 1, thereby increasing the number of the lamps 22 that can be controlled by the switch 1. When the user wants to control the lamps 22, the user may pre-set a plurality of different sub-program sequences as desired and transmit the signal through the wireless transmitter 4 or the mobile phone 41, so that the logic unit 11 executes the sub-program sequence, allowing each of the mounting members 21 to perform the turn-on operation or the turnoff operation for its lamp 22.

According to the above description, the conventional control device needs receivers corresponding to the respective lamps, and the infrared emitters must be paired with the receivers to control each lamp. In the present invention, the switch 1 is electrically connected to the base 2 to 20 which the lamps 22 are connected, and all the lamps 22 can be controlled through the wireless transmitter 4 or the mobile phone 41. There is no need for the present invention to install multiple receivers to control a plurality of lamps 22, and each of the lamps 22 can be directly controlled by the wireless transmitter 4 or the mobile phone 41, thereby reducing installation time and improving the convenience of operation greatly. Furthermore, the present invention can execute the program

2019100203 25 Feb 2019 sequence to record the turn-on and turn-off operations of the lamps 22 and convert them into subprogram sequences through the logic unit 11, thereby allowing the logic unit 11 to intelligently learn and record the lighting configurations of the lamps 22 for the preferences of different users to achieve the convenience of operation.

Although particular embodiments of the present invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the present invention. Accordingly, the present invention is not to be limited except as by the appended claims.

Claims

WHAT IS CLAIMED IS:

1. A light source control device, having a switch, the switch being electrically connected to at least one base, the base having at least one mounting member for mounting a lamp, wherein:

the switch has a logic unit and a receiving unit, the receiving unit is configured to receive a signal and transmit it to the logic unit so that the logic unit can execute a program sequence, the program sequence is configured to perform a turn-on operation or a turn-off operation for the mounting member, when the turn-on operation is performed, the logic unit commands the base to supply power to the mounting member so that the lamp emits light; when the turn-off operation is performed, the logic unit commands the base to stop supplying power to the mounting member so that the lamp stops emitting light.
2. The light source control device as claimed in claim 1, wherein the signal is a communication protocol that is infrared, Bluetooth, ZigBee or Wi-Fi.
3. The light source control device as claimed in claim 1, wherein the receiving unit is connected to an interconnected network, and the signal is transmitted through the interconnected network for the logic unit to perform the turn-on operation or the turn-off operation.
4. The light source control device as claimed in claim 1, wherein the program sequence records the turn-on operation or the turn-off operation performed by the mounting member in the past and converts it to at least one sub-program sequence, and the subprogram sequence directly commands the mounting member to perform the tum-on operation or the turn-off operation performed in the past.
5. The light source control device as claimed in claim 4, further having a wireless transmitter, the wireless transmitter having a plurality of buttons, each button

2019100203 25 Feb 2019 corresponding to each sub-program sequence, wherein when one of the buttons is pressed, the wireless transmitter transmits the signal to the receiving unit, commanding the logic unit to execute the sub-program sequence corresponding to the button.