CN113923841B - Emergency repair lighting device - Google Patents

Abstract

The embodiment of the invention provides an emergency repair lighting device, which comprises a remote control signal output module, a control module and a lighting module; the lighting module comprises n lighting lamps, wherein n is more than or equal to 3, and n is a positive integer; the remote control signal output module is connected with the control module and is used for sending a first control signal to a first input end of the control module and also used for sending a second control signal to a second input end of the control module; the control module is connected with the lighting module and is used for controlling the lighting lamps in the lighting module to be combined and lighted according to a preset rule when the first control signal received by the first input end is a first level signal, wherein the combined and lighted state comprises 2 ⁿ -1. The emergency repair lighting device provided by the embodiment of the invention can provide different display brightness for workers in the electric power emergency repair process.

Description

Emergency repair lighting device

Technical Field

The invention relates to the field of electricity, in particular to an emergency repair lighting device.

Background

On some important occasions or more frequent power equipment of inspection, do not install the electric lighting device, bring the inconvenience of inspection and emergency repair for electric inspection operation personnel. Although some operation and maintenance patrolling personnel can carry the flashlight to patrol, the storage battery of the flashlight is limited in electric quantity, meanwhile, because the electric power equipment is installed in places where some operation and maintenance personnel are inconvenient to reach, the irradiation range of the flashlight carried by the operation and maintenance personnel is limited, the patrol range is not wide enough, often some tiny defects are difficult to find, and certain pressure is brought to the normal stable operation of the electric power equipment due to the defects. In some emergency repair occasions, particularly in the occasion of power transmission on a night emergency repair switch, the traditional working mode is that one person operates, the other person performs auxiliary illumination on the flashlight, and the mode needs very acquiescing cooperation of two persons. In the process of switching power transmission, if the positions of the other auxiliary illuminator stations are not right, or the positions of the flashlights are not right, certain difficulty is brought to power supply and repair of the switch.

The traditional flashlight is single in brightness, so that the optimal rush-repair time is frequently mistaken, certain difficulty is brought to power rush-repair, and meanwhile inconvenience is brought to a user in power utilization.

Disclosure of Invention

The emergency repair lighting device provided by the embodiment of the invention can provide different display brightness for workers in the electric power emergency repair process.

The embodiment of the invention provides an emergency repair lighting device, which comprises: the remote control signal output module, the control module and the lighting module;

the lighting module comprises n lighting lamps, wherein n is more than or equal to 3, and n is a positive integer;

the remote control signal output module is connected with the control module and is used for sending a first control signal to a first input end of the control module and also used for sending a second control signal to a second input end of the control module;

the control module is connected with the lighting module and is used for controlling the lighting lamps in the lighting module to be combined and lightened according to a preset rule when the first control signal received by the first input end is a first level signal, wherein the combined and lightened state comprises 2 ⁿ -1 means for controlling the lamps in the lighting module to maintain a current combined lit state when the first control signal received at the first input of the control module is a second level signal, and for controlling all the lamps in the lighting module to be turned off when the second control signal received at the second input of the control module.

Optionally, the remote control signal output module comprises a remote control signal transmitting unit and a remote control signal receiving unit;

the remote control signal transmitting unit is used for transmitting an illumination starting instruction, an illumination closing instruction, an illumination determining instruction or an illumination switching instruction to the remote control signal receiving unit;

the remote control signal receiving unit is used for sending the first level signal to the first input end of the control module when the starting illumination instruction is received, sending the second control signal to the second input end of the control module when the closing illumination instruction is received, sending the first level signal to the first input end of the control module when the switching illumination instruction is received, and sending the second level signal to the first input end of the control module when the determining illumination instruction is received.

Optionally, the control module includes a clock unit and a driving unit;

the clock unit is connected with the first output end of the remote control signal output module, and is used for outputting a clock signal to the driving unit when the first end of the clock unit receives the first level signal and stopping outputting the clock signal when the first end of the clock unit receives the second level signal;

the driving unit is connected with the clock unit, the second output end of the remote control signal output module and the lighting module, and is used for controlling the lighting lamps in the lighting module to be combined and lightened according to a preset rule when the clock signal is received, controlling the lighting lamps in the lighting module to maintain a current combined and lightened state when the clock signal is disappeared, and controlling all the lighting lamps in the lighting module to be turned off when a second control signal sent by the second output end of the remote control signal output module is received.

Optionally, the emergency repair lighting device further comprises a power supply conversion module and an emergency power supply change-over switch;

the first power end of the emergency power supply change-over switch is connected with the mains supply, the second power end of the emergency power supply change-over switch is connected with the emergency power supply, the first end of the emergency power supply change-over switch is connected with the first end of the power supply conversion module and the lighting module, and the second end of the emergency power supply change-over switch is connected with the second end of the power supply conversion module;

the second end of the power supply conversion module is connected with the remote control signal output module and the control module and is used for supplying power to the remote control signal output module and the control module.

Optionally, the remote control signal transmitting unit includes a first control chip, a first switch, a second switch, a third switch, a first signal lamp, a power supply unit, a first resistor and a first triode;

the first end of the first control chip is connected with the first end of the first switch, the second end of the first control chip is connected with the first end of the second switch, the third end of the first control chip is connected with the first end of the third switch, and the fourth end of the first control chip is connected with the first end of the first resistor;

the second end of the first switch, the second end of the second switch and the second end of the third switch are connected with the second end of the first signal lamp;

the second end of the first resistor is connected with the control end of the first triode;

a first pole of the first triode is connected with the negative electrode of the power supply unit, and a second pole of the first triode is connected with the first end of the first signal lamp;

the second end of the first signal lamp is connected with the positive electrode of the power supply unit.

Optionally, the remote control signal receiving unit comprises a second control chip and an infrared connector;

the first end of the second control chip is connected with the first input end of the control module, the second end of the second control chip is connected with the second input end of the control module, and the third end of the second control chip is connected with the first end of the infrared joint;

the second end of the infrared connector is connected with the second end of the power conversion module, and the third end of the infrared connector is grounded.

Optionally, the clock unit includes a second resistor, a second triode, a third resistor and a clock chip;

the first end of the second resistor is connected with the first output end of the remote control signal output module, and the second end of the second resistor is connected with the control end of the second triode;

the first pole of the second triode is connected with the first end of the third resistor, and the second pole of the second triode is connected with the second end of the power supply conversion module;

the second end of the third resistor is connected with the first end and the second end of the clock chip;

and the third end of the clock chip is connected with the driving unit.

Optionally, the driving unit includes a control subunit, a first diode, a fourth resistor, n fifth resistors, n third triodes, n sixth resistors, and n fourth switches;

the control subunit comprises n output ends;

the first end of the first diode is connected with the second output end of the remote control signal output module, and the second end of the first diode is connected with the first end of the fourth resistor;

the second end of the fourth resistor is connected with the first input end of the control subunit;

the second input end of the control subunit is connected with the clock unit;

the first end of the nth fifth resistor is connected with the nth output end of the control subunit, and the second end of the nth fifth resistor is connected with the control end of the nth third triode;

the second pole of the nth third triode is connected with the first end of the nth sixth resistor, and the first pole of the nth third triode is grounded;

the second end of the nth sixth resistor is connected with the control end of the nth fourth switch;

the first end of the nth fourth switch is connected with the second end of the power conversion module, and the second end of the nth fourth switch is connected with the second end of the nth lighting lamp;

the first end of the nth lighting lamp is connected with the first end of the power conversion module.

Optionally, the power conversion module includes a seventh resistor, a second capacitor, a second diode, a third diode, a voltage regulator tube and a third capacitor;

the first end of the seventh resistor is connected with the first end of the emergency power supply change-over switch and the first end of the second capacitor, and the second end of the seventh resistor is connected with the second end of the second capacitor;

the second end of the second capacitor is connected with the first end of the second diode and the second end of the third diode;

the second end of the second diode is connected with the second end of the emergency power supply change-over switch;

the first end of the third diode is connected with the first end of the voltage stabilizing tube and the first end of the third capacitor;

the first end of the third capacitor is grounded, and the second end of the third capacitor is connected with the second end of the voltage stabilizing tube and the second end of the second diode.

Optionally, the emergency repair lighting device provided by the embodiment of the invention further comprises a solar module;

and the solar module is connected with a third power end of the emergency power supply change-over switch.

The embodiment of the invention provides an emergency repair lighting device, which is characterized in that a remote control signal output module is used for sending a first control signal or a second control signal to a control module, so that the control module controls lighting lamps in the lighting module to be combined and lightened according to a preset rule, maintains the lightening state of a certain combination or turns off all the lighting lamps, and a worker can select the lightening effect of the lighting lamps according to actual needs. The emergency repair lighting device provided by the embodiment of the invention can provide different display brightness for workers in the electric power emergency repair process.

Drawings

FIG. 1 is a schematic structural diagram of an emergency repair lighting device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another emergency repair lighting device according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another emergency repair lighting device according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another emergency repair lighting device according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of another emergency repair lighting device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another emergency repair lighting device according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the invention. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present invention are shown in the drawings.

FIG. 1 shows an emergency repair lighting device according to an embodiment of the present inventionReferring to fig. 1, the emergency repair lighting device provided in this embodiment includes a remote control signal output module 210, a control module 220, and a lighting module 230; the illumination module 230 comprises n illumination lamps, wherein n is more than or equal to 3, and n is a positive integer; the remote control signal output module 210 is connected with the control module 220, and the remote control signal output module 210 is configured to send a first control signal to a first input end of the control module 220 and send a second control signal to a second input end of the control module 220; the control module 220 is connected to the illumination module 230, and the control module 220 is configured to control the illumination lamps in the illumination module 230 to be combined and lightened according to a preset rule when the first control signal received by the first input terminal is a first level signal, where the combined and lightened state includes 2 ⁿ 1 for controlling the lamps in the lighting module 230 to maintain the current combined on state when the first control signal received by the first input of the control module 220 is the second level signal, and for controlling all lamps in the lighting module 230 to be turned off when the second control signal received by the second input of the control module 220.

Specifically, the light can 360 rotations, and the staff can rotate the light and then control the illumination area of light according to actual need. The remote control signal output module 210 may include a remote controller, and the remote control signal output module 210 may send the first control signal or the second control signal to the control module 220 under the control of the remote controller, so that the combined lighting state of the lighting lamps is controlled more conveniently, and further, the working efficiency of the staff is improved. The illumination module 230 includes at least three illumination lamps, and the illumination lamps can be fixedly installed at different positions of the power equipment, so that a plurality of areas of the power equipment can be illuminated by the illumination lamps when the illumination lamps are lightened, the illumination lamps can not shake when the illumination lamps are lightened, and further the working efficiency of working personnel is improved. The illumination lamps have different illumination effects in different combined illumination states, and the preset rule may be periodic cyclic illumination, and the illumination module 230 is illustrated as including three illumination lamps, where the combined illumination states of the three illumination lamps include 7 types, which are 001, 010, 011, 100, 101, 110 and 111, respectively, and "1" is taken as an example "Indicating that the illumination lamp is in the on state, and "0" indicates that the illumination lamp is in the off state, when the remote control signal output module 210 transmits a first level signal to the first input terminal of the control module 220, the illumination lamps in the illumination module 230 are in accordance with 001, 010, 011, 100, 101, 110, 111, 001, 010, 011, 100, ^…… 110. 111, when the combined lighting state of the lighting lamps in the lighting module 230 is "011", the remote control signal output module 210 sends a second level signal to the first input terminal of the control module 220, the control module 220 maintains the current combined lighting state of the lighting lamps in the lighting module 230, that is, the maintained combined lighting state is "011", and when the remote control signal output module 210 sends a second control signal to the second input terminal of the control module 220, all the lighting lamps in the lighting module 230 are turned off.

The embodiment of the invention provides an emergency repair lighting device, which is characterized in that a remote control signal output module is used for sending a first control signal or a second control signal to a control module, so that the control module controls lighting lamps in the lighting module to be combined and lightened according to a preset rule, maintains the lightening state of a certain combination or turns off all the lighting lamps, and a worker can select the lightening effect of the lighting lamps according to actual needs. The emergency repair lighting device provided by the embodiment of the invention can provide different display brightness for workers in the electric power emergency repair process.

Optionally, fig. 2 is a schematic structural diagram of still another emergency repair lighting device according to an embodiment of the present invention, and referring to fig. 2, a remote control signal output module 210 includes a remote control signal transmitting unit 211 and a remote control signal receiving unit 212; the remote control signal transmitting unit 211 is configured to transmit an illumination start instruction, an illumination shut-off instruction, a determination illumination instruction, or a switching illumination instruction to the remote control signal receiving unit 212; the remote control signal receiving unit 212 is configured to send a first level signal to a first input terminal of the control module 220 when receiving an illumination start command, send a second control signal to a second input terminal of the control module 220 when receiving an illumination turn-off command, send a first level signal to the first input terminal of the control module 220 when receiving a switching illumination command, and send a second level signal to the first input terminal of the control module 220 when receiving a determination illumination command.

Specifically, the remote control signal transmitting unit 211 may be a remote controller, and the lighting effect of the illumination lamp may be selected by transmitting an instruction to the remote control signal receiving unit 212 through the remote control signal transmitting unit 211. After the remote control signal receiving unit 212, the control module 220 and the lighting module 230 are fixed, a worker can go out for inspection by carrying the portable remote control signal transmitting unit 211, and does not need to carry a heavy flashlight. The remote control signal receiving unit 212 receives the start lighting instruction, the close lighting instruction, the confirm lighting instruction, or the switch lighting instruction transmitted by the remote control signal transmitting unit 211, and the household television remote controller cannot transmit the start lighting instruction, the close lighting instruction, the confirm lighting instruction, or the switch lighting instruction, so that the household television remote controller cannot influence the lighting effect of the lighting lamp, and the remote control signal transmitting unit 211 and the remote control signal receiving unit 212 have matching properties, thereby preventing other remote controllers from controlling the lighting module 230.

Optionally, fig. 3 is a schematic structural diagram of still another emergency repair lighting device according to an embodiment of the present invention, and referring to fig. 3, a control module 220 includes a clock unit 221 and a driving unit 222; the clock unit 221 is connected to the first output end of the remote control signal output module 210, where the clock unit 221 is configured to output a clock signal to the driving unit 222 when the first end of the clock unit 221 receives the first level signal, and is further configured to stop outputting the clock signal when the first end of the clock unit 221 receives the second level signal; the driving unit 222 is connected to the clock unit 221, the second output end of the remote control signal output module 210, and the lighting module 230, where the driving unit 222 is configured to control, when the clock signal is received, the lights in the lighting module 230 to be turned on according to a preset rule combination, to control, when the clock signal disappears, the lights in the lighting module 230 to maintain a current combined on state, and to control, when the second control signal sent by the second output end of the remote control signal output module 210 is received, all the lights in the lighting module 230 to be turned off.

Specifically, when the remote control signal output module 210 sends the first level signal to the first end of the clock unit 221, the driving unit 222 controls the illumination lamps in the illumination module 230 to be turned on according to a preset rule under the action of the clock signal, and when the staff needs to maintain a certain combined on state of the illumination lamps in the illumination module 230, the staff can send the second level signal to the first end of the clock unit 221 through the remote control signal output module 210, the clock unit 221 stops sending the clock signal to the driving unit 222 after receiving the second level signal, and when the driving unit 222 does not receive the clock signal, the illumination lamps in the illumination module 230 are controlled to maintain the current combined on state. When the worker needs to turn off the illumination lamps, the worker may send a second control signal to the driving unit 222 through the second output end of the remote control signal output module 210, and the driving unit 222 will control all illumination lamps in the illumination module 230 to be turned off when receiving the second control signal.

Optionally, fig. 4 is a schematic structural diagram of still another emergency repair lighting device according to an embodiment of the present invention, and referring to fig. 4, the emergency repair lighting device according to the embodiment further includes a power conversion module 240 and an emergency power supply switch 250; the first power end of the emergency power supply change-over switch 250 is connected with the mains supply, the second power end of the emergency power supply change-over switch 250 is connected with the emergency power supply, the first end of the emergency power supply change-over switch 250 is connected with the first end of the power supply conversion module 240 and the lighting module 230, and the second end of the emergency power supply change-over switch 250 is connected with the second end of the power supply conversion module 240; a second terminal of the power conversion module 240 is connected to the remote control signal output module 210 and the control module 220, and is used for supplying power to the remote control signal output module 210 and the control module 220.

Specifically, the power conversion module 240 is configured to convert a voltage provided by the utility power or the emergency power source into a voltage required by the remote control signal output module 210 and the control module 220 when they operate. When the power line fails, the emergency power supply change-over switch 250 is automatically connected with an emergency power supply, the emergency power supply change-over switch 250 is connected with the commercial power and the emergency power supply, even if the power line fails, the emergency power supply can also provide the emergency power supply, normal operation of power maintenance work is guaranteed, the emergency repair lighting device provided by the embodiment further comprises a manual switch SA, and after the power line is recovered to be powered, the manual switch SA can be closed, so that the commercial power is input into the power conversion module.

Optionally, fig. 5 is a schematic structural diagram of still another emergency repair lighting device according to an embodiment of the present invention, and referring to fig. 5, a remote control signal transmitting unit 211 includes a first control chip 10, a first switch S1, a second switch S2, a third switch S3, a first signal lamp 11, a power supply unit 12, a first resistor R1 and a first triode T1; the first end of the first control chip 10 is connected with the first end of the first switch S1, the second end of the first control chip 10 is connected with the first end of the second switch S2, the third end of the first control chip 10 is connected with the first end of the third switch S3, and the fourth end of the first control chip 10 is connected with the first end of the first resistor R1; the second end of the first switch S1, the second end of the second switch S1 and the second end of the third switch S1 are connected with the second end of the first signal lamp 11; the second end of the first resistor R1 is connected with the control end of the first triode T1; a first pole of the first triode T1 is connected with the negative electrode of the power supply unit 12, and a second pole of the first triode T1 is connected with the first end of the first signal lamp 11; a second end of the first signal lamp 11 is connected to the positive pole of the power supply unit 12.

Specifically, the first switch S1, the second switch S2, and the third switch S3 may be key switches, and after being pressed, the switches are turned on, and after being released, the switches are turned off. The power supply unit 12 may be a battery, and the remote control signal transmitting unit 211 may not need the power conversion module 240 to supply power. When the power conversion module 240 starts to supply power to the remote control signal receiving unit 212 and the control module 220 and the remote control signal transmitting unit 211 does not transmit an instruction, the control module 220 automatically controls the illumination lamps in the illumination module 230 to be combined and lightened according to a preset rule, when a worker needs to maintain a certain combined and lightened state of the illumination lamps, the first switch S1 in the remote control signal transmitting unit 211 needs to be pressed, and when the first switch S1 in the remote control signal transmitting unit 211 is conducted, the remote control signal transmitting unit 211 transmits a determined illumination instruction to the remote control signal receiving unit 212. When the worker needs another lighting effect, the worker needs to press the third switch S3 in the remote control signal transmission unit 211, and the remote control signal transmission unit 211 transmits a switching lighting instruction to the remote control signal reception unit 212 when the third switch S3 in the remote control signal transmission unit 211 is turned on. When the worker needs to turn off all the illumination lamps, the worker needs to press the second switch S2 in the remote control signal transmission unit 211, and when the second switch S2 in the remote control signal transmission unit 211 is turned on, the remote control signal transmission unit 211 transmits an illumination-off instruction to the remote control signal reception unit 212. After all the illumination lamps are turned off, when the staff needs to turn on the illumination lamps, the staff needs to press the third switch S3 in the remote control signal transmitting unit 211, and when the third switch S3 in the remote control signal transmitting unit 211 is turned on, the remote control signal transmitting unit 211 sends an illumination starting instruction to the remote control signal receiving unit 211. The worker can remotely control the combined lighting state of the illumination lamps in the illumination module 230 by pressing the first switch S1, the second switch S2, or the third switch S3. Other resistors, diodes, and the like in the remote control signal transmitting unit 211 cooperate with the first control chip, so that the remote control signal transmitting unit 211 transmits instructions to the remote control signal receiving unit 212.

Optionally, fig. 6 is a schematic structural diagram of still another emergency repair lighting device according to an embodiment of the present invention, and referring to fig. 6, a remote control signal receiving unit 212 includes a second control chip 20 and an infrared connector 21; the first end of the second control chip 20 is connected with the first input end of the control module 220, the second end of the second control chip 20 is connected with the second input end of the control module 220, and the third end of the second control chip 20 is connected with the first end of the infrared joint 21; a second end of the infrared connector 21 is connected to a second end of the power conversion module 240, and a third end of the infrared connector 21 is grounded.

Specifically, the infrared connector 21 is configured to receive a start illumination instruction, an off illumination instruction, a confirm illumination instruction, or a switch illumination instruction emitted by the remote control signal emission unit 211, and send the received start illumination instruction, the received off illumination instruction, the received confirm illumination instruction, or the received switch illumination instruction to the second control chip 20, where a first control signal output when the second control chip 20 receives the illumination instruction or the received switch illumination instruction is a first level signal, a first control signal output when the second control chip 20 receives the confirmed illumination instruction is a second level signal, and the second control chip 20 receives the received off illumination instruction is a second control signal.

Optionally, with continued reference to fig. 6, the clock unit 221 includes a second resistor R2, a second triode T2, a third resistor R3, and a clock chip 30; the first end of the second resistor R2 is connected with the first output end of the remote control signal output module, and the second end of the second resistor R2 is connected with the control end of the second triode T2; the first pole of the second triode T2 is connected with the first end of the third resistor R3, and the second pole of the second triode T2 is connected with the second end of the power supply conversion module 240; the second end of the third resistor R3 is connected with the first end and the second end of the clock chip 30; a third terminal of the clock chip 30 is connected to a driving unit.

Specifically, the first level signal may be a low level signal, the second level signal may be a high level signal, when the infrared connector 21 receives an illumination starting instruction or an illumination switching instruction, the second control chip 20 outputs the first level signal to the first end of the second resistor R2, when the first end of the second resistor R2 receives the first level signal, the second triode T2 is not turned on, and when the first end and the second end of the clock chip 30 cannot receive signals, the clock chip 30 will send a clock signal to the driving unit. When the infrared connector 21 receives the determined illumination instruction, the second control chip 20 outputs a second level signal to the first end of the second resistor R2, when the first end of the second resistor R2 receives the second level signal, the second triode T2 is turned on, the first end and the second end of the clock chip 30 receive the second level signal, and the clock chip 30 will not send the clock signal to the driving unit any more.

Optionally, with continued reference to fig. 6, the driving unit includes a control subunit 40, a first diode V1, a fourth resistor R4, n fifth resistors R5, n third triodes T3, n sixth resistors R6, n fourth switches S4; the control subunit 40 includes n outputs; the first end of the first diode V1 is connected with the second output end of the remote control signal output module, the second end of the first diode V1 is connected with the first end of the fourth resistor R4, and the second end of the fourth resistor R4 is connected with the first input end of the control subunit 40; a second input of the control subunit 40 is connected to the clock unit 30; the first end of the nth fifth resistor R5 is connected with the nth output end of the control subunit 40, and the second end of the nth fifth resistor R5 is connected with the control end of the nth third triode T3; the second pole of the nth third triode T3 is connected with the first end of the nth sixth resistor R6, and the first pole of the nth third triode T3 is grounded; the second end of the nth sixth resistor R6 is connected with the control end of the nth fourth switch S4; the first end of the nth fourth switch S4 is connected to the second end of the power conversion module 240, and the second end of the nth fourth switch S4 is connected to the second end of the nth illumination lamp EL; the first terminal of the nth illumination lamp EL is connected to the first terminal of the power conversion module 240.

Specifically, the number of fifth resistors R5, the number of third transistors T3, the number of sixth resistors R6, the number of fourth switches S4, and the number of illumination lamps EL are equal. The control subunit 40 may be a binary-up counting chip. For example, when the first control signal output by the second control chip 20 is the first level signal, the clock chip 30 starts vibrating, the clock chip 30 periodically sends a clock signal to the control subunit 40, each time the control subunit 40 receives a clock signal, the clock signal is accumulated once in a binary manner, and when the control subunit 40 receives the clock signal for the first time, the first output end, the second output end and the third output end of the control subunit 40 output the high level signal, the low level signal and the low level signal respectively, the first third triode T3 is turned on, the corresponding first fourth switch S4 is turned on, the second fourth switch S4 and the third fourth switch S4 are turned off, the first light EL is turned on, the second light EL and the third light EL are turned off, and when the control subunit 40 continuously receives the clock signal for the second time, the first output end, the second output end and the third output end of the control subunit 40 output the low level signal, the high level signal and the low level signal respectively, the second output the first output end and the low level signal respectively, and the third light EL are turned off, and each time the control subunit 40 receives the clock signal is turned off, and the corresponding first light EL is turned off. The clock chip 30 may send a clock signal to the control subunit 40 every 1.5 seconds. When the clock chip 30 stops sending clock signals at the second input of the control subunit 40, each output of the control subunit 40 maintains the current output form. The second control signal may be a high level signal, when the second output end of the remote control signal output module outputs the second control signal, the first input end of the control subunit 40 receives the high level signal, and at this time, the control subunit 40 controls all the output ends of the control subunit 40 to output the low level signal, so as to control all the illumination lamps to be turned off. Other resistors, capacitors, diodes and the like in the control module assist the clock chip and the control subunit in realizing the corresponding functions of the control module.

Optionally, with continued reference to fig. 6, the power conversion module 240 includes a seventh resistor R7, a second capacitor C2, a second diode V2, a third diode V3, a voltage regulator VZ, and a third capacitor C3; the first end of the seventh resistor R7 is connected with the first end of the emergency power supply change-over switch 250 and the first end of the second capacitor C2, and the second end of the seventh resistor R7 is connected with the second end of the second capacitor C2; the second end of the second capacitor C2 is connected with the first end of the second diode V2 and the second end of the third diode V3; a second end of the second diode V2 is connected to a second end of the emergency power supply changeover switch 250; the first end of the third diode V3 is connected with the first end of the voltage stabilizing tube VZ and the first end of the third capacitor C3; the first end of the third capacitor C3 is grounded, and the second end of the third capacitor C3 is connected to the second end of the voltage stabilizing tube VZ and the second end of the second diode V2.

Specifically, the seventh resistor R7, the second capacitor C2 and the second diode V2 function as rectifying and filtering, and the voltage stabilizing tube VZ functions as stabilizing voltage, so that the power conversion module 240 provides a stabilized voltage to the remote control signal output module and the control module 220. The third capacitor C3 and the third diode V2 protect the power conversion module 240.

Optionally, the emergency repair lighting device provided in this embodiment further includes a solar module; the solar module is connected with a third power end of the emergency power supply change-over switch.

Specifically, the solar module comprises a photovoltaic panel, the photovoltaic panel can convert solar energy into electric energy, the solar module is arranged to save the electric energy, the energy-saving and emission-reducing effects are achieved, and the full utilization of natural resources is realized. In the electric power emergency repair, an emergency power supply change-over switch is preferentially connected with the solar module.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present invention are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present invention. Therefore, while the embodiments of the present invention have been described in connection with the above embodiments, the embodiments of the present invention are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (7)

1. An emergency repair lighting device, comprising: the remote control signal output module, the control module and the lighting module;

the lighting module comprises n lighting lamps, wherein n is more than or equal to 3, and n is a positive integer;

the remote control signal output module is connected with the control module and is used for sending a first control signal to a first input end of the control module and also used for sending a second control signal to a second input end of the control module;

the control module is connected with the lighting module and is used for controlling the lighting lamps in the lighting module to be combined and lightened according to a preset rule when the first control signal received by the first input end is a first level signal, wherein the combined and lightened state comprises 2 ⁿ -1 means for controlling the lamps in the lighting module to maintain a current combined lit state when the first control signal received at the first input of the control module is a second level signal, and for controlling all the lamps in the lighting module when the second control signal received at the second input of the control moduleThe bright lamp is turned off;

the remote control signal output module comprises a remote control signal transmitting unit and a remote control signal receiving unit;

the remote control signal transmitting unit is used for transmitting an illumination starting instruction, an illumination closing instruction, an illumination determining instruction or an illumination switching instruction to the remote control signal receiving unit;

the remote control signal receiving unit is used for sending the first level signal to the first input end of the control module when the starting illumination instruction is received, sending the second control signal to the second input end of the control module when the closing illumination instruction is received, sending the first level signal to the first input end of the control module when the switching illumination instruction is received, and sending the second level signal to the first input end of the control module when the determining illumination instruction is received;

the remote control signal transmitting unit comprises a first control chip, a first switch, a second switch, a third switch, a first signal lamp, a power supply unit, a first resistor and a first triode;

the first end of the first control chip is connected with the first end of the first switch, the second end of the first control chip is connected with the first end of the second switch, the third end of the first control chip is connected with the first end of the third switch, and the fourth end of the first control chip is connected with the first end of the first resistor;

the second end of the first switch, the second end of the second switch and the second end of the third switch are connected with the second end of the first signal lamp;

the second end of the first resistor is connected with the control end of the first triode;

a first pole of the first triode is connected with the negative electrode of the power supply unit, and a second pole of the first triode is connected with the first end of the first signal lamp;

the second end of the first signal lamp is connected with the positive electrode of the power supply unit;

the power supply conversion module is also included; the second end of the power supply conversion module is connected with the remote control signal output module and the control module and is used for supplying power to the remote control signal output module and the control module;

the remote control signal receiving unit comprises a second control chip and an infrared connector;

the first end of the second control chip is connected with the first input end of the control module, the second end of the second control chip is connected with the second input end of the control module, and the third end of the second control chip is connected with the first end of the infrared joint;

the second end of the infrared connector is connected with the second end of the power conversion module, and the third end of the infrared connector is grounded.

2. The emergency repair lighting device according to claim 1, wherein the control module comprises a clock unit and a drive unit;

the clock unit is connected with the first output end of the remote control signal output module, and is used for outputting a clock signal to the driving unit when the first end of the clock unit receives the first level signal and stopping outputting the clock signal when the first end of the clock unit receives the second level signal;

the driving unit is connected with the clock unit, the second output end of the remote control signal output module and the lighting module, and is used for controlling the lighting lamps in the lighting module to be combined and lightened according to a preset rule when the clock signal is received, controlling the lighting lamps in the lighting module to maintain a current combined and lightened state when the clock signal is disappeared, and controlling all the lighting lamps in the lighting module to be turned off when a second control signal sent by the second output end of the remote control signal output module is received.

3. The emergency repair lighting device according to claim 2, further comprising an emergency power supply switch;

the first power end of the emergency power supply change-over switch is connected with the mains supply, the second power end of the emergency power supply change-over switch is connected with the emergency power supply, the first end of the emergency power supply change-over switch is connected with the first end of the power supply conversion module and the lighting module, and the second end of the emergency power supply change-over switch is connected with the second end of the power supply conversion module.

4. The emergency repair lighting device according to claim 2, wherein the clock unit comprises a second resistor, a second triode, a third resistor and a clock chip;

the first end of the second resistor is connected with the first output end of the remote control signal output module, and the second end of the second resistor is connected with the control end of the second triode;

the first pole of the second triode is connected with the first end of the third resistor, and the second pole of the second triode is connected with the second end of the power supply conversion module;

the second end of the third resistor is connected with the first end and the second end of the clock chip;

and the third end of the clock chip is connected with the driving unit.

5. The emergency repair lighting device according to claim 2, wherein the driving unit comprises a control subunit, a first diode, a fourth resistor, n fifth resistors, n third triodes, n sixth resistors, n fourth switches;

the control subunit comprises n output ends;

the first end of the first diode is connected with the second output end of the remote control signal output module, and the second end of the first diode is connected with the first end of the fourth resistor;

the second end of the fourth resistor is connected with the first input end of the control subunit;

the second input end of the control subunit is connected with the clock unit;

the first end of the nth fifth resistor is connected with the nth output end of the control subunit, and the second end of the nth fifth resistor is connected with the control end of the nth third triode;

the second pole of the nth third triode is connected with the first end of the nth sixth resistor, and the first pole of the nth third triode is grounded;

the second end of the nth sixth resistor is connected with the control end of the nth fourth switch;

the first end of the nth fourth switch is connected with the second end of the power conversion module, and the second end of the nth fourth switch is connected with the second end of the nth lighting lamp;

the first end of the nth lighting lamp is connected with the first end of the power conversion module.

6. The emergency repair lighting device according to claim 3, wherein the power conversion module comprises a seventh resistor, a second capacitor, a second diode, a third diode, a voltage regulator tube and a third capacitor;

the first end of the seventh resistor is connected with the first end of the emergency power supply change-over switch and the first end of the second capacitor, and the second end of the seventh resistor is connected with the second end of the second capacitor;

the second end of the second capacitor is connected with the first end of the second diode and the second end of the third diode;

the second end of the second diode is connected with the second end of the emergency power supply change-over switch;

the first end of the third diode is connected with the first end of the voltage stabilizing tube and the first end of the third capacitor;

the first end of the third capacitor is grounded, and the second end of the third capacitor is connected with the second end of the voltage stabilizing tube and the second end of the second diode.

7. The emergency repair lighting device according to claim 3, further comprising a solar module;

and the solar module is connected with a third power end of the emergency power supply change-over switch.