NL1021545C1 - Two wire type wireless switch, comprises wireless receiver, manual switch, control unit, magnetic relay and DC power source - Google Patents

Abstract

A wireless receiver unit (2) is used to receive encrypted switch control signals from an external transmitter. A manual switch unit (7) is used switch the control signal to a wire route. A control unit (3) is used to amplify the control signal. A magnetic relay unit (5) has a signal control input connected to the control unit output. A DC current power source (4) is provided for the control unit and relay unit. A load unit (6) is connected in series with the relay unit output and an AC current power source. On/Off control signals are received by the wireless receiver unit and manual switch unit and used to generate On/Off current signals. The relay conducts electricity on the basis of the On/Off control signals from the control unit without maintaining or absorbing magnetism, enabling power to be drawn from a back-up source.

Description

P61603NL00

Title: Wireless switching device for a two-wire load.

With reference to Figures 1, 1A, 1B and 1C, a conventional device of a wireless switching device of the two-wire or three-wire load type is shown. For a two-wire type load, the power of the load element 12 (such as tungsten, 5 light bulbs) is low due to consumption of the loaded power. Therefore, the signal control unit 13 is coupled in parallel to the switching element 11 to activate the device with little current (as shown in Fig. 1A), the generally used element being a DRAIC 14. However, this element 14 can sometimes not be applied, in particular in the case that a transition current is not produced because of the capacitance load 15, so that no voltage is generated.

Therefore, an additional current control wire 16 is provided between the control unit 13 and the power source. This becomes a three-wire load (as shown in Fig. 1B), resulting in additional costs. To avoid this problem, as shown in Figure 1C, a control is applied with a battery 17 whereby the switch of the relay, which is normally open, will close, and wherein the normally closed circuit of the relay is opened. However, the relay will constantly consume power, which means that the battery will have to be replaced frequently.

The production costs are thereby increased.

FIG. 1 is a schematic representation showing an arrangement of a conventional two-wire type load.

FIG. 1A is a schematic representation showing another conventional two-wire type load device.

FIG. 1B is a schematic representation of a conventional type of three-wire type load.

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FIG. 1C is a schematic representation of another conventional wiring type of the load.

FIG. 2 is a block diagram according to the invention.

FIG. 3 is a circuit diagram according to the invention.

FIG. 4 is a schematic representation of the loop status according to the invention when an activation signal is input.

FIG. 5 is a schematic representation of the loop status of the invention when the switch-off signal is input.

FIG. 6 is a circuit diagram showing the embodiment of the invention of FIG. 5.

FIG. 7 is a circuit diagram showing another embodiment of the invention of FIG. 5.

Referring to Fig. 2, a wireless switching device 15 is shown which comprises a wireless receiver unit 2, a control unit 3, a power unit 4, a magnetically held relay 5, a load unit 6, and a manual switching device 7. The ON / OFF signals, which are received wirelessly or via wiring by the wireless receiver unit 2 or the manual switching device 7, are picked up and compared by control unit 3 for producing ON / OFF current signals based on the control signal for controlling the status of relay 5. The power of the control circuit is provided by a battery, so that the relay output circuit and the load are completely isolated. That is, the load connected to the relays will not be affected by the switching of the wireless receiver unit 2 and the manual switching device 7.

With reference to FIG. 3, when the wireless device 2 receives a wireless control signal, this signal is amplified, and the signal passes through a calculating module IC1 of control unit 3 for obtaining an input signal, which signal is picked up and compared. via encoder 31.

The relay unit 5 comprises a relay 51, transistors Q2, Q3 and a unidirectional diode D1, D2, the transistor Q2 and the coil S1 of the relay 51 for detecting input forming a clockwise loop, the transistor Q3 and the input detection coil S2 forms a clockwise loop and the base contact terminal of transistors Q2, Q3 and respectively are connected to the two output ends P1, P2 of the integrated circuit IC1 of the control unit. The output contact terminal is selected on the basis of the input signal from the integrated circuit IC1, and the two connecting legs of relay 51 are respectively connected to the two ends of the load unit 6. When the ON signal of IC1 is higher at the output end P1 then the high voltage, transistor Q2 becomes conductive, whereby a clockwise loop is formed via the input detection coil s1 and transistor Q2 (with reference to Fig. 4), so that the connecting legs com and m2 are connected and the load unit 6 is connected to the ON status is coming. On the other hand, if the OFF signals at output ends P2 of IC1 are higher than the potential, a clockwise loop is formed by transistor Q3 and detection coil S2 (with reference to FIG. 5). When the connecting leg com is in connection with leg ml, the load unit 6 is in the OFF state, and unidirectional diodes D1, D2 are connected, so that short-circuiting is prevented. Only when the control unit 3 calculates the input signal from IC1, a small current of power unit 4 is consumed.

In accordance with the invention, a bi-directional control mode is applied by connecting two manual switching devices 7 in series (with reference to Fig. 6).

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Claims (2)

A wireless switching device for a two-wire type load comprising: a wireless receiving unit for receiving coded corresponding wireless switching control signals from an external transmitter; a manual switch for providing a circuit of the control signal via wire conduction; a control unit for appropriately amplifying the switching signals of the wireless receiver unit and the manual switch; a magnetically held relay unit with a signal control input connected to the output of the control unit; a power unit that supplies direct current of a certain type to the control unit and the magnetically held relay unit; 15 a load unit connected in series with the output of the relay unit and an alternating current power, wherein the ON / OFF control signals are received by the wireless receiver unit and the manual switching unit, which signals are picked up and compared and where ON / OFF current signals are produced based on the control signals, causing the relay to conduct based on the ON / OFF control signals from the control unit without maintaining or absorbing magnetism, thereby depleting the additional power source. 2. Wireless control unit according to claim 1, further comprising two manual control devices connected in series to provide bi-directional control. 1021545