RU22847U1 - WIRELESS DEVICE FOR REMOTE BULB MANAGEMENT - Google Patents

Description

WIRELESS REMOTE CONTROL DEVICE The technical field to which the utility model belongs.

The present utility model relates to a wireless remote control device, and more particularly, to a wireless device for remote control of a light bulb with the ability to control light bulbs that will turn on or off by wireless remote control.

State of the art

In the prior art, switches for controlling light bulbs are usually mounted on a wall, and each switch allows only a light bulb connected to it to be controlled. At the same time, you can control bulbs only by changing the wiring, through which power is supplied to the bulbs. However, this technical approach requires a lot of time and money, and thus is not effective.

The continuous progress of science and technology leads to the fact that more and more people attach particular importance to comfort and time saving in everyday life. A true utility model aims to allow people to flexibly control each light bulb. In addition, the present utility model aims to

2420-224475 / 011

BULB

Description

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to allow people with disabilities to control the operation of each light bulb via wireless remote control without the need for anyone else's help. In short, this utility model provides a wireless remote control device for controlling bulbs that will turn on or off in order to achieve convenient use.

Utility Model Essence

The main task, the solution of which the present utility model is directed, is to implement a wireless remote control device with the ability to control each lamp that will turn on or off by wireless remote control. In this case, it is not necessary to connect each bulb through a connecting wire to a switch located on the wall. Therefore, with this use you can achieve very great amenities. In addition, the appearance of each light bulb is not of particular importance, which can lead to a decrease in the cost of the original form for the manufacture of light bulbs and, ultimately, the process of manufacturing light bulbs.

Another problem solved by the present utility model is to provide a wireless remote control device for controlling the bulbs so that it is possible to remotely control each bulb individually and a plurality of bulbs to achieve simultaneous operation. Thus, lamps that are on or off can be divided into zones or

group in order to achieve the convenience and flexibility of management.

Another problem solved by the proposed utility model is to implement a wireless remote control device for controlling light bulbs, which can be connected to a computer system. Thus, the bulbs can be remotely controlled over a long distance or through a network.

According to the claimed utility model, the wireless light remote control device comprises a remote control unit for emitting a remote control signal that will receive at least a remote control receiver mounted in the light bulb. After correctly distinguishing the signal, the lamp will light up. Thus, the device allows you to control the on or off state of more than one light bulb through a wireless remote control.

The various objectives and advantages of this utility model will become more apparent from the following detailed description and the accompanying drawings.

Brief Description of the Drawings

The utility model is described in detail with reference to a variant of its embodiment, shown in the drawings, on which:

Figure 1 depicts a block diagram of a remote control unit, according to the present utility model;

management according to this utility model;

Fig. 3 depicts a block diagram of a remote control receiver according to the present utility model;

FIG. 4 depicts a schematic view of a remote control receiver, according to the present utility model, after its installation in a light bulb,

Information confirming the usefulness of

According to the claimed utility model, the wireless lamp remote control device comprises a wireless remote control unit for emitting a remote control signal that will be received by the remote control receiver mounted in the light bulb. After correctly distinguishing the signal, the lamp will light up. In this way, the user can control the on or off state of more than one light bulb via wireless remote control.

As shown in FIG. 1 and 2, the remote control unit 10 comprises a central processing unit (CPU) 12, a radio frequency (RF) signal emitting unit 14, a keypad 16, a display device 18, a first memory 20, an RF signal receiving unit 22, a serial port 24 and a generator 28 sweeps. The CPU is connected, respectively, to the RF signal emitting unit 14, the keypad 16, the display device 18, the first memory 20, the RF signal receiving unit 22, the serial port 24 and the sweep generator 28. CPU 12

models

It is used to receive data entered from the keypad 16 and serial and zone remote control codes of the bulbs when the user wishes to control so that the remote control receiver can receive them for learning and distinguishing. The remote control unit 10 also displays the codes on the display device 18 and stores them in the first memory 20. The CPU 12 transmits the remote control code to the RF signal emitting unit 14, which will then emit a remote control signal for installing the remote control receiver. An RF signal receiving unit 22 connected to the CPU 12 is used to receive and copy data transmitted from another remote control unit. Serial port 24 is a connector for connecting the remote control unit 10 to external digital systems, such as computer systems, so that the task of controlling the bulbs over a long distance or through a network can be performed. Sweep generator 28 is used to generate the control time that is required to calculate the date and time. The user can pre-set the time to turn on or off the bulbs. The CPU 12 will control the on or off state of the bulbs immediately after receiving the set time. A power source 26, which is usually a collection of batteries, is used to supply electric current to each of the above cells.

.

As shown in FIG. 3 and 4, the remote control receiver 30 is mounted in the holder 52 of the bulb 50. The remote control receiver 30 includes a learning / discrimination device 32, an RF receiver 34, a DC power supply 36, and a second memory 38. The learning / discrimination device 32 is respectively connected to the RF a receiver 34, a DC power source 36, and a second memory 38. An RF receiver 34 is used to receive a remote control signal emitted from the remote control unit 10. The received remote control signal is then differentiated and compared using the learning / discriminating device 32 in order to see whether or not the remote control code is correct. The RF receiver 34 may also store the received remote control code in the second memory 38. The second memory 38 stores the internal serial code of the remote control receiver 30 directly for comparison. After correctly distinguishing the received remote control code using the training / discriminating device 32, a confirmation signal is supplied to the thyristor (bi-directional triode thyristor (triac)) 42 located in the DC power supply 36. The bi-directional triode thyristor 42 is a controllable AC circuit breaker, the two terminals of which are respectively connected to the terminal 54 of the AC power source located in the bulb and the bulb activation unit 56. If the remote control signal

If the wireless remote control device for the light bulb is adopted, then the remote control receiver 30 will supply or turn off the alternating current, which allows you to turn the light on or off. The DC power supply 36 further comprises an AC rectification / direct current supply unit 40 connected to a terminal 54 of the direct current power supply, which is located in the light bulb, for converting the alternating current to direct current and supplying electric current to each element of the remote control receiver 30.

The aforementioned first memory 20 and second memory 38 are electrically erasable programmable read-only memory devices (EEPROMs).

Before using this utility model, sequential codes and zone codes of the lamps to be controlled must be typed on the keypad of the remote control unit. The codes are then emitted using an RF signal emitting unit and received using an RF receiver located in the remote control receiver. Then, the received sequential codes are transmitted to the learning / discriminating device, which will train, memorize and then store them in a second memory. Thus, the remote control unit allows you to remotely control at least a remote control receiver that has been trained and installed in advance to control the operation of at least one light bulb.

Since an independent remote control needs an independent addressing method, the remote control receiver of the present utility model in each lamp uses a unique addressing method for a serial code that will be trained and copied using the remote control unit. Therefore, each remote control unit not only allows you to independently control the light bulb, but also allows you to control several dozen light bulbs through training. The same key can be set for multiple bulbs using the remote control module so that you can control the bulbs with the possibility of turning them on or off simultaneously.

In summary, the present utility model provides a wireless light bulb remote control device for controlling on or off light bulb states by means of a wireless remote control. In this case, it is not necessary to connect each light bulb to a fixed switch located on the wall through a connecting wire, which results in very convenient use. In addition, the appearance of each light bulb is not of particular importance, which can lead to a decrease in the cost of the original form for the manufacture of light bulbs and, ultimately, the process of manufacturing light bulbs.

In addition, the present utility model makes it possible to achieve the effect of remote control of a lamp at a great distance through a telephone line or network so that

the on or off state of the bulbs could be zoned or grouped for convenience and flexibility in operation.

Although the present utility model has been described with reference to its preferred embodiments, it is clear that it is not limited to details. Various substitutions and modifications were proposed in the previous description, and along with this, specialists can make other replacements and modifications. Therefore, all such replacements and modifications do not go beyond the scope of the utility model, as defined in the attached utility model formula.

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Claims (5)

1. A wireless light remote control device for controlling the on or off state of at least one light bulb by means of a wireless remote control, the wireless light remote control device comprising a control unit comprising a central processing unit (CPU), a keypad, a display device, a sweep generator, and a first memory, and the CPU is respectively connected to the keypad, display device, sweep generator and the first memory, when Ohm, the CPU is used to receive data typed from the keypad and serial remote control codes, display them on the display device and then store them in the first memory, the CPU also being used to transmit the remote control code to the radiation unit of the radio frequency RF signal, allowing the unit radiation of the RF signal to emit a remote control signal, the sweep generator is configured to generate a period of time for the user to set the on or off time in advance of the light bulb, the power source is configured to supply electric current to each of the above-mentioned elements, and at least a remote control receiver mounted in the bulb holder, the remote control receiver comprising an RF receiver, a learning / discrimination device, a DC power source and a second memory, while the RF receiver is used to receive the remote control signal emitted from the remote control unit, the learning / discrimination device is made with possible distinguishing and comparing to check the remote control code, the signal being transmitted to a DC power supply connected to the learning / distinguishing device for controlling the lamp operation after correctly distinguishing the remote control code, while the learning / distinguishing device is additionally connected to the second memory for storing internal serial code and received remote control code.  2. The wireless lamp remote control device of claim 1, wherein the CPU located in the remote control unit is further connected to an RF signal receiving unit for receiving and copying data transmitted from another remote control unit.  3. The wireless light remote control device according to claim 1, wherein the remote control unit further comprises a serial port that connects to external digital systems.  4. The wireless lamp remote control device according to claim 1, wherein the direct current power source comprises an AC rectifier / direct current supply unit and a thyristor, respectively connected to a power source terminal located in the light bulb, and a light activation unit, the thyristor being used for receiving a signal transmitted from the training / discrimination device. 5. The wireless light remote control device of claim 1, wherein the first memory and the second memory are electrically erasable programmable read-only memory devices.