CN104519611A - Remote control rotation light fixture apparatus - Google Patents

Abstract

The embodiments of the invention disclose a remote control rotation light fixture apparatus. The remote control rotation light fixture apparatus comprises a wireless signal receiving module, a rotation control circuit and a voltage stabilizing circuit, wherein the rotation control circuit comprises a level control circuit and a motor control circuit, the level control circuit is connected with the wireless signal receiving module, the motor control circuit is connected with the level control circuit, the voltage stabilizing circuit comprises a first voltage stabilizing circuit , a second voltage stabilizing circuit and a third voltage stabilizing circuit, the first voltage stabilizing circuit is respectively connected with the motor control circuit, the second voltage stabilizing circuit and the third voltage stabilizing circuit, the second voltage stabilizing circuit is connected with the level control circuit, and the third voltage stabilizing circuit is connected with the wireless signal receiving module. According to the invention, the rotation of a light fixture can be controlled through a wireless device, such that the user experience is improved. Besides, the remote control rotation light fixture apparatus has the advantages of simple structure, convenient realization and low cost.

Description

A kind of remote-control rotary lamp device

Technical field

The present invention relates to field of circuit control, particularly relate to a kind of remote-control rotary lamp device.

Background technology

Current light fixture can provide multiple rotation mode, such as turn clockwise and be rotated counterclockwise, but at present mainly by settling floatless switch in a certain place of wall, by to described switch fixed operation, control light fixture rotates, and when user controls the rotation of light fixture at every turn, all will go to the position at the remote control switch place controlling described light fixture, make poor user experience, and the circuit structure that described control light fixture rotates is complicated, cost is high.

Summary of the invention

The invention provides a kind of remote-control rotary lamp device, by the rotation of wireless device controls light fixture, the Experience Degree of user can be improved, and the structure of described remote-control rotary lamp device is simple, realization is convenient and with low cost.

Embodiments provide a kind of remote-control rotary lamp device, comprising:

Reception of wireless signals module, for receiving wireless control signal, and decodes to described wireless control signal, exports control level;

Rotation control circuit, described rotation control circuit comprises level control circuit and circuit for controlling motor, described level control circuit and described reception of wireless signals model calling, described circuit for controlling motor is connected with described level control circuit, the control level that described level control circuit exports according to described reception of wireless signals module provides Electric Machine Control level to described circuit for controlling motor, and described circuit for controlling motor is according to the rotation of described Electric Machine Control Automatic level control motor;

Voltage stabilizing circuit, described voltage stabilizing circuit comprises the first voltage stabilizing circuit, second voltage stabilizing circuit and the 3rd voltage stabilizing circuit, described first voltage stabilizing circuit respectively with described circuit for controlling motor, second voltage stabilizing circuit and the 3rd voltage stabilizing circuit connect, described second voltage stabilizing circuit is connected with level control circuit, described 3rd voltage stabilizing circuit and described reception of wireless signals model calling, described first voltage stabilizing circuit is used for the operating voltage of input to be converted into described circuit for controlling motor, the first voltage that second voltage stabilizing circuit and the 3rd voltage stabilizing circuit provide, described second voltage stabilizing circuit is used for the operating voltage of described first voltage stabilizing circuit input to be converted into the second voltage provided to described level control circuit, described 3rd voltage stabilizing circuit is used for the operating voltage of described first voltage stabilizing circuit input to be converted into the tertiary voltage provided to described reception of wireless signals module.

Wherein, described circuit for controlling motor comprises the first relay K 1, second relay K 2 and motor A, wherein, the positive pole of motor A is by the normally opened contact N/O ground connection of the first relay K 1 or access the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A accesses the first voltage or the normally-closed contact N/C ground connection by the second relay K 2 by the normally opened contact N/O of the second relay K 2, one end of first relay K 1 and one end of the second relay K 2 are connected with described level control circuit, the other end of the first relay K 1 and the other end ground connection of the second relay K 2.

Wherein, described level control circuit comprises control chip U1, described control chip U1 comprises port PB0, PB1, PB2 and PB3, wherein, the PB0 port of control chip U1 and PB1 port and described reception of wireless signals model calling, the PB2 port of control chip U1 is connected with one end of relay K described in first 1, and the PB3 port of control chip U1 is connected with one end of described second relay K 2, the second voltage that described second voltage stabilizing circuit of the power end of control chip U1 access provides.

Wherein, the pin 2 of described reception of wireless signals module is connected with the PB0 port of control chip U1, the pin 3 of described reception of wireless signals module is connected with the PB1 port of control chip U1, the tertiary voltage that described 3rd voltage stabilizing circuit of the power pins of described reception of wireless signals module access provides.

Wherein, described remote-control rotary lamp device also comprises wireless signal sending module, and wherein, the pin 2 of described wireless signal sending module is connected with one end of switch S 1, the pin 3 of described wireless signal sending module is connected with one end of switch S 2, the other end ground connection of switch S 1 and switch S 2.

Wherein, described first voltage stabilizing circuit comprises voltage stabilizing chip U2, electric capacity C1 and electric capacity C2, wherein, one end of electric capacity C1 and the input access power supply of voltage stabilizing chip U2, the earth terminal ground connection of the other end of electric capacity C1, one end of electric capacity C2 and voltage stabilizing chip U2, the other end of electric capacity C2 is connected with the output of voltage stabilizing chip U2, and the output of voltage stabilizing chip U2 exports the first voltage.

Wherein, described second voltage stabilizing circuit comprises voltage stabilizing chip U3, electric capacity C3 and electric capacity C4, wherein, one end of electric capacity C3 and the input of voltage stabilizing chip U3 access the first voltage, the earth terminal ground connection of the other end of electric capacity C3, one end of electric capacity C4 and voltage stabilizing chip U3, the other end of electric capacity C4 is connected with the output of voltage stabilizing chip U3, and the output of voltage stabilizing chip U3 exports the second voltage.

Wherein, described 3rd voltage stabilizing circuit comprises voltage stabilizing chip U4, electric capacity C5 and electric capacity C6, wherein, one end of electric capacity C5 and the input of voltage stabilizing chip U4 access the first voltage, the earth terminal ground connection of the other end of electric capacity C5, one end of electric capacity C6 and voltage stabilizing chip U4, the other end of electric capacity C6 is connected with the output of voltage stabilizing chip U4, and the output of voltage stabilizing chip U4 exports tertiary voltage.

Wherein, when described reception of wireless signals module exports high level according to the wireless control signal received at pin 2, the PB2 port of described level control circuit and PB3 port export high level, the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then motor A is rotated counterclockwise;

When described reception of wireless signals module exports high level according to the wireless control signal received at pin 3, the PB2 port of described level control circuit and PB3 port output low level, the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A turns clockwise.

Wherein, when described reception of wireless signals module exports high level according to the wireless control signal received at pin 2 and pin 3, the PB2 port of described level control circuit and PB3 port export different Electric Machine Control level, then motor A stops the rotation.

The embodiment of the present invention receives by reception of wireless signals module the wireless control signal that obtains and controls light fixture and rotate, and makes simple to operate, improves the Experience Degree of user, and the circuit of remote-control rotary lamp device in the present invention is simple, and it is convenient, with low cost to realize.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of remote-control rotary lamp device that the embodiment of the present invention provides;

Fig. 2 is the schematic diagram of a kind of remote-control rotary lamp device that the embodiment of the present invention provides.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1, the structural representation of a kind of remote-control rotary lamp device that the embodiment of the present invention provides, described remote-control rotary lamp device comprises:

Reception of wireless signals module 110, for receiving wireless control signal, and decodes to described wireless control signal, exports control level.

Rotation control circuit 120, described rotation control circuit 120 comprises level control circuit 121 and circuit for controlling motor 122, described level control circuit 121 is connected with described reception of wireless signals module 110, described circuit for controlling motor 122 is connected with described level control circuit 121, the control level that described level control circuit 121 exports according to described reception of wireless signals module 110 provides Electric Machine Control level to described circuit for controlling motor 122, and described circuit for controlling motor 122 is according to the rotation of described Electric Machine Control Automatic level control motor.

Voltage stabilizing circuit 130, described voltage stabilizing circuit 130 comprises the first voltage stabilizing circuit 131, second voltage stabilizing circuit 132 and the 3rd voltage stabilizing circuit 133, described first voltage stabilizing circuit 131 respectively with described circuit for controlling motor 122, second voltage stabilizing circuit 132 and the 3rd voltage stabilizing circuit 133 connect, described second voltage stabilizing circuit 132 is connected with level control circuit 121, described 3rd voltage stabilizing circuit 133 is connected with described reception of wireless signals module 110, described first voltage stabilizing circuit 131 is for being converted into described circuit for controlling motor 122 by the operating voltage of input, the first voltage that second voltage stabilizing circuit 132 and the 3rd voltage stabilizing circuit 133 provide, described second voltage stabilizing circuit 132 is converted into for the operating voltage inputted by described first voltage stabilizing circuit 131 the second voltage provided to described level control circuit 121, described 3rd voltage stabilizing circuit 133 is converted into for the operating voltage inputted by described first voltage stabilizing circuit 131 tertiary voltage provided to described reception of wireless signals module 110.

Optionally, described circuit for controlling motor 122 comprises the first relay K 1, second relay K 2 and motor A, refers to the circuit for controlling motor shown in Fig. 2.Wherein, the positive pole of motor A is by the normally opened contact N/O ground connection of the first relay K 1 or access the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A accesses the first voltage or the normally-closed contact N/C ground connection by the second relay K 2 by the normally opened contact N/O of the second relay K 2, one end of first relay K 1 and one end of the second relay K 2 are connected with described level control circuit 121, the other end of the first relay K 1 and the other end ground connection of the second relay K 2.

Optionally, described level control circuit 121 comprises control chip U1, and described control chip U1 comprises port PB0, PB1, PB2 and PB3, wherein, the annexation of level control circuit 121 refers to Fig. 2, and the model of described control chip U1 can be ATtiny13.Wherein, the PB0 port of control chip U1 and PB1 port are connected with described reception of wireless signals module 110, the PB2 port of control chip U1 is connected with one end of relay K described in first 1, the PB3 port of control chip U1 is connected with one end of described second relay K 2, second voltage that theres is provided of described second voltage stabilizing circuit 132 of power end access of control chip U1, the earth terminal ground connection of control chip U1.

Optionally, the annexation of reception of wireless signals module 110 refers to Fig. 2, the pin 2 of described reception of wireless signals module 110 is connected with the PB0 port of control chip U1, the pin 3 of described reception of wireless signals module 110 is connected with the PB1 port of control chip U1, the tertiary voltage that theres is provided of described 3rd voltage stabilizing circuit of power pins access of described reception of wireless signals module 110, the earth terminal ground connection of described reception of wireless signals module 110.

Wherein, the model of described reception of wireless signals module 110 can be JF24D-RX, pin 2 and the pin 3 of reception of wireless signals module 110 are control level output pin, reception of wireless signals module 110 exports high level according to receiving the control signal obtained at the pin of correspondence, and other pin is low level.

Further alternative, described remote-control rotary lamp device also comprises wireless signal sending module, and the annexation of described wireless signal sending module refers to Fig. 2.Wherein, the power pins access power supply of described wireless signal sending module, the power supply of described access can provide for another the 3rd voltage stabilizing circuit.The pin 2 of described wireless signal sending module is connected with one end of switch S 1, and the pin 3 of described wireless signal sending module is connected with one end of switch S 2, and the other end ground connection of switch S 1 and switch S 2, wherein, switch S 1 and switch S 2 are often in off-state.

Wherein, the model of described wireless signal sending module can be JF24D-TX, and the pin 2 of wireless signal sending module and pin 3 are connected with transmitting button, Low level effective.Such as, described wireless signal sending module detects that pin 2 is for low level, then send corresponding wireless control signal, export high level to make reception of wireless signals module according to described wireless control signal at pin 2.

Optionally, described first voltage stabilizing circuit 131 comprises voltage stabilizing chip U2, electric capacity C1 and electric capacity C2, refers to the first voltage stabilizing circuit shown in Fig. 2.Wherein, one end of electric capacity C1 and the input access power supply of voltage stabilizing chip U2, the earth terminal ground connection of the other end of electric capacity C1, one end of electric capacity C2 and voltage stabilizing chip U2, the other end of electric capacity C2 is connected with the output of voltage stabilizing chip U2, and the output of voltage stabilizing chip U2 exports the first voltage.

Wherein, the model of voltage stabilizing chip U2 can be LM7812, electric capacity C1 and electric capacity C2 is filter capacitor, makes the direct voltage of the first voltage stabilizing circuit 131 stable output.

Further alternative, described remote-control rotary lamp device also comprises voltage transformation module, and described voltage transformation module is connected with described first voltage stabilizing circuit, for input voltage being converted into the operating voltage provided to described first voltage stabilizing circuit.

Optionally, described second voltage stabilizing circuit 132 comprises voltage stabilizing chip U3, electric capacity C3 and electric capacity C4, refers to the second voltage stabilizing circuit shown in Fig. 2.Wherein, one end of electric capacity C3 and the input of voltage stabilizing chip U3 access the first voltage, the earth terminal ground connection of the other end of electric capacity C3, one end of electric capacity C4 and voltage stabilizing chip U3, the other end of electric capacity C4 is connected with the output of voltage stabilizing chip U3, and the output of voltage stabilizing chip U3 exports the second voltage.

Wherein, the model of voltage stabilizing chip U3 can be LM7805, electric capacity C3 and electric capacity C4 is filter capacitor, makes the direct voltage of the second voltage stabilizing circuit 132 stable output.

Optionally, described 3rd voltage stabilizing circuit 133 comprises voltage stabilizing chip U4, electric capacity C5 and electric capacity C6, refers to the 3rd voltage stabilizing circuit shown in Fig. 2.Wherein, one end of electric capacity C5 and the input of voltage stabilizing chip U4 access the first voltage, the earth terminal ground connection of the other end of electric capacity C5, one end of electric capacity C6 and voltage stabilizing chip U4, the other end of electric capacity C6 is connected with the output of voltage stabilizing chip U4, and the output of voltage stabilizing chip U4 exports tertiary voltage.

Wherein, the model of voltage stabilizing chip U4 can be LM1117-3.3, electric capacity C5 and electric capacity C6 is filter capacitor, makes the direct voltage of the 3rd voltage stabilizing circuit 133 stable output.

Below in conjunction with Fig. 2, specifically describe the operation principle of a kind of remote-control rotary lamp device provided by the invention.

The first voltage that the operating voltage that power supply inputs can be converted into 12V by the first voltage stabilizing circuit is supplied to circuit for controlling motor, the second voltage stabilizing circuit and the 3rd voltage stabilizing circuit; Second voltage being converted into 5V of the first voltage can be supplied to level control circuit by the second voltage stabilizing circuit; Second photovoltaic conversion can be that the tertiary voltage of 3.3V is supplied to reception of wireless signals module by the 3rd voltage stabilizing circuit.

When described reception of wireless signals module exports high level according to the wireless control signal received at pin 2, the PB2 port of described level control circuit and PB3 port export high level, the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then motor A is rotated counterclockwise.

When described reception of wireless signals module exports high level according to the wireless control signal received at pin 3, the PB2 port of described level control circuit and PB3 port output low level, the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A turns clockwise.

When described reception of wireless signals module exports high level according to the wireless control signal received at pin 2 and pin 3, the PB2 port of described level control circuit and PB3 port export different Electric Machine Control level, then motor A stops the rotation.Such as, PB2 port exports high level, PB3 port output low level, the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A does not exist voltage drop, then motor A stops the rotation.Again such as, PB2 port output low level, PB3 port exports high level, the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then there is not voltage drop in motor A, then motor A stops the rotation.

Wherein, when switch S 1 closes, the pin 2 of wireless signal transmitting module is low level, then launch corresponding wireless control signal, reception of wireless signals module exports high level according to the wireless control signal received at pin 2, and the PB2 port of described level control circuit and PB3 port export high level, and the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then motor A is rotated counterclockwise.

Wherein, when switch S 2 closes, the pin 3 of wireless signal transmitting module is low level, then launch corresponding wireless control signal, reception of wireless signals module exports high level according to the wireless control signal received at pin 3, the PB2 port of described level control circuit and PB3 port output low level, and the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A turns clockwise.

Wherein, when switch S 2 and switch S 1 are simultaneously closed, the pin 3 of wireless signal transmitting module and pin 4 are low level simultaneously, then launch corresponding wireless control signal, reception of wireless signals module exports high level according to the wireless control signal received at pin 2 and pin 3, the PB2 port of described level control circuit and PB3 port export different Electric Machine Control level, then motor A stops the rotation.Such as, PB2 port exports high level, PB3 port output low level, the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A does not exist voltage drop, then motor A stops the rotation.Again such as, PB2 port output low level, PB3 port exports high level, the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then there is not voltage drop in motor A, then motor A stops the rotation.

The embodiment of the present invention receives by reception of wireless signals module the wireless control signal that obtains and controls light fixture and rotate, and makes simple to operate, improves the Experience Degree of user, and the circuit of remote-control rotary lamp device in the present invention is simple, and it is convenient, with low cost to realize.

Above disclosedly be only present pre-ferred embodiments, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (10)

1. a remote-control rotary lamp device, is characterized in that, comprising:

Reception of wireless signals module, for receiving wireless control signal, and decodes to described wireless control signal, exports control level;

Rotation control circuit, described rotation control circuit comprises level control circuit and circuit for controlling motor, described level control circuit and described reception of wireless signals model calling, described circuit for controlling motor is connected with described level control circuit, the control level that described level control circuit exports according to described reception of wireless signals module provides Electric Machine Control level to described circuit for controlling motor, and described circuit for controlling motor is according to the rotation of described Electric Machine Control Automatic level control motor;

Voltage stabilizing circuit, described voltage stabilizing circuit comprises the first voltage stabilizing circuit, second voltage stabilizing circuit and the 3rd voltage stabilizing circuit, described first voltage stabilizing circuit respectively with described circuit for controlling motor, second voltage stabilizing circuit and the 3rd voltage stabilizing circuit connect, described second voltage stabilizing circuit is connected with level control circuit, described 3rd voltage stabilizing circuit and described reception of wireless signals model calling, described first voltage stabilizing circuit is used for the operating voltage of input to be converted into described circuit for controlling motor, the first voltage that second voltage stabilizing circuit and the 3rd voltage stabilizing circuit provide, described second voltage stabilizing circuit is used for the operating voltage of described first voltage stabilizing circuit input to be converted into the second voltage provided to described level control circuit, described 3rd voltage stabilizing circuit is used for the operating voltage of described first voltage stabilizing circuit input to be converted into the tertiary voltage provided to described reception of wireless signals module.

2. remote-control rotary lamp device as claimed in claim 1, it is characterized in that, described circuit for controlling motor comprises the first relay K 1, second relay K 2 and motor A, wherein, the positive pole of motor A is by the normally opened contact N/O ground connection of the first relay K 1 or access the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A accesses the first voltage or the normally-closed contact N/C ground connection by the second relay K 2 by the normally opened contact N/O of the second relay K 2, one end of first relay K 1 and one end of the second relay K 2 are connected with described level control circuit, the other end of the first relay K 1 and the other end ground connection of the second relay K 2.

3. remote-control rotary lamp device as claimed in claim 2, it is characterized in that, described level control circuit comprises control chip U1, described control chip U1 comprises port PB0, PB1, PB2 and PB3, wherein, the PB0 port of control chip U1 and PB1 port and described reception of wireless signals model calling, the PB2 port of control chip U1 is connected with one end of relay K described in first 1, the PB3 port of control chip U1 is connected with one end of described second relay K 2, the second voltage that described second voltage stabilizing circuit of the power end of control chip U1 access provides.

4. remote-control rotary lamp device as claimed in claim 3, it is characterized in that, the pin 2 of described reception of wireless signals module is connected with the PB0 port of control chip U1, the pin 3 of described reception of wireless signals module is connected with the PB1 port of control chip U1, the tertiary voltage that described 3rd voltage stabilizing circuit of the power pins of described reception of wireless signals module access provides.

5. remote-control rotary lamp device as claimed in claim 4, it is characterized in that, described remote-control rotary lamp device also comprises wireless signal sending module, wherein, the pin 2 of described wireless signal sending module is connected with one end of switch S 1, the pin 3 of described wireless signal sending module is connected with one end of switch S 2, the other end ground connection of switch S 1 and switch S 2.

6. remote-control rotary lamp device as claimed in claim 1, it is characterized in that, described first voltage stabilizing circuit comprises voltage stabilizing chip U2, electric capacity C1 and electric capacity C2, wherein, one end of electric capacity C1 and the input access power supply of voltage stabilizing chip U2, the earth terminal ground connection of the other end of electric capacity C1, one end of electric capacity C2 and voltage stabilizing chip U2, the other end of electric capacity C2 is connected with the output of voltage stabilizing chip U2, and the output of voltage stabilizing chip U2 exports the first voltage.

7. remote-control rotary lamp device as claimed in claim 1, it is characterized in that, described second voltage stabilizing circuit comprises voltage stabilizing chip U3, electric capacity C3 and electric capacity C4, wherein, one end of electric capacity C3 and the input of voltage stabilizing chip U3 access the first voltage, the earth terminal ground connection of the other end of electric capacity C3, one end of electric capacity C4 and voltage stabilizing chip U3, the other end of electric capacity C4 is connected with the output of voltage stabilizing chip U3, and the output of voltage stabilizing chip U3 exports the second voltage.

8. remote-control rotary lamp device as claimed in claim 1, it is characterized in that, described 3rd voltage stabilizing circuit comprises voltage stabilizing chip U4, electric capacity C5 and electric capacity C6, wherein, one end of electric capacity C5 and the input of voltage stabilizing chip U4 access the first voltage, the earth terminal ground connection of the other end of electric capacity C5, one end of electric capacity C6 and voltage stabilizing chip U4, the other end of electric capacity C6 is connected with the output of voltage stabilizing chip U4, and the output of voltage stabilizing chip U4 exports tertiary voltage.

9. remote-control rotary lamp device as claimed in claim 5, it is characterized in that, when described reception of wireless signals module exports high level according to the wireless control signal received at pin 2, the PB2 port of described level control circuit and PB3 port export high level, the positive pole of motor A passes through the normally opened contact N/O ground connection of the first relay K 1, the negative pole of motor A accesses the first voltage by the normally opened contact N/O of the second relay K 2, then motor A is rotated counterclockwise;

When described reception of wireless signals module exports high level according to the wireless control signal received at pin 3, the PB2 port of described level control circuit and PB3 port output low level, the positive pole of motor A accesses the first voltage by the normally-closed contact N/C of the first relay K 1, the negative pole of motor A passes through the normally-closed contact N/C ground connection of the second relay K 2, then motor A turns clockwise.

10. remote-control rotary lamp device as claimed in claim 5, it is characterized in that, when described reception of wireless signals module exports high level according to the wireless control signal received at pin 2 and pin 3, the PB2 port of described level control circuit and PB3 port export different Electric Machine Control level, then motor A stops the rotation.