CN211878468U - Solar lamp box and multipoint-distributed lamp box cluster remote control system - Google Patents

Abstract

The utility model discloses a solar lamp box and multipoint distribution's lamp house cluster remote control system, including a plurality of solar lamp boxes and terminal equipment, solar lamp box includes the box, be equipped with solar energy plane skylight on the box surface, be provided with illumination source in the box, control circuit board and battery, control circuit board is provided with communication module, terminal equipment realizes UNICOM through the network with this solar lamp box, the lamp house realizes information and data interchange with terminal equipment through communication module, make terminal equipment can read the data of lamp house and realize remote control to it, avoid the wasting of resources and solve the lamp house and open the problem that leads to the life to shorten greatly for a long time because of forgetting to close; in addition, the light box is also provided with a photosensitive detection unit for monitoring the external brightness in real time, when the brightness is darker than a set value, the controller automatically opens the light box to prevent unnecessary waste of electric energy caused by premature opening of the light box before darkness, thereby playing a role in energy conservation and environmental protection.

Description

Solar lamp box and multipoint-distributed lamp box cluster remote control system

Technical Field

The utility model relates to a lamp house cluster remote control system of solar lamp case and multiple spot distribution.

Background

The advertising lamp box and the signboard lamp box are one of the commonly used propaganda methods of a plurality of merchants, but the advertising lamp box and the signboard lamp box on the market at present need to be manually started and closed, if a user forgets to close the lamp box when going off duty, the lamp box can be always on, so that certain resource waste can be caused, the cost of the merchants is increased, the service life of the lamp box can be greatly shortened when the lamp box works for a long time, and if the lamp box works for a long time in thunderstorm weather, the electricity leakage can be caused when the lamp box works for a long time, so that the service life of the lamp box can be shortened, the resources can be wasted, the cost of the merchants can be increased, and certain potential; in order to solve the problem that the lamp box can only be manually started and closed, a lamp box with a timing function is developed on the market, a timer is arranged on a circuit of the lamp box, starting and closing time is set, the lamp box is automatically started or closed as long as the time is up, but the timing function is single and not intelligent enough, if the time for starting the lamp is too early, the natural color is not dark, and the lamp box is started, so that resource waste is caused, and therefore, the lamp box which can be remotely controlled to be started and closed and can automatically adjust the starting time according to outdoor brightness is necessary to be developed.

Disclosure of Invention

The utility model aims at providing a lamp house cluster remote control system of solar lamp box and multiple spot distribution can realize the remote control of lamp house, and information reading reaches the start-up time that can intelligent adjustment lamp house.

The technical scheme of the utility model is realized like this:

a solar lamp box comprises a box body, a solar daylighting panel is arranged on the surface of the box body, a lighting source, a control circuit board and a storage battery which are supplied with direct current are arranged in the box body,

the control circuit board is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module and a communication module;

the solar daylighting panel converts solar energy into electric energy through the electric energy conversion module to charge the storage battery;

the electric quantity detection module is used for detecting the current electric quantity of the storage battery and transmitting a detection signal to the microprocessor MCU;

a first switch unit is arranged between the storage battery and the direct current supply illumination light source, and when the first switch unit is closed, the storage battery provides a power supply for the direct current supply illumination light source;

the mains supply is connected to the power supply module through an external power line and provides power for the control circuit board, a second switch unit is arranged between the power supply module and the direct-current-powered illumination light source, and when the second switch unit is closed, the mains supply provides power for the direct-current-powered illumination light source;

the microprocessor MCU controls the on-off of the first switch unit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the direct-current-powered lighting source is realized;

the memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box;

the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment.

Preferably, a photosensitive detection unit is further arranged on the surface of the box body and electrically connected with the microprocessor MCU, the photosensitive detection unit is used for detecting the brightness of the current environment and transmitting a detection signal to the microprocessor MCU, and the microprocessor MCU makes a judgment according to the received detection signal and whether the lamp box needs to be immediately turned on or turned off.

Preferably, the microprocessor MCU is provided with an electric quantity control software unit, the electric quantity detection module sends detected signals to the microprocessor MCU at regular intervals, if the electric quantity of the storage battery is lower than a certain set value, the microprocessor MCU disconnects the first switch unit, the storage battery and the direct current power supply lighting source are disconnected, the power supply of the storage battery is automatically disconnected, meanwhile, the microprocessor MCU closes the second switch unit, the mains supply is powered by the power supply module to the lighting source, and the mains supply is automatically switched to the mains supply; the solar daylighting panel charges for the battery, and when the electric quantity of battery was higher than another setting value, microprocessor MCU disconnected second switch unit, closed first switch unit, switches over the mode to the battery power supply again.

Preferably, the power module comprises a rectifying-filtering module and a DC-DC voltage-reducing module, the rectifying-filtering module is electrically connected with the DC-DC voltage-reducing module, the commercial power sequentially passes through the rectifying-filtering module and the DC-DC voltage-reducing module and then outputs low-voltage direct current to supply power to the lighting source powered by direct current, and the lighting source powered by direct current is an LED lamp tube.

A solar lamp box comprises a box body, a solar lighting board is arranged on the surface of the box body, an AC powered lighting source, a control circuit board and a storage battery are arranged in the box body,

the control circuit board is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module, a communication module and an inverter circuit;

the solar daylighting panel converts solar energy into electric energy through the electric energy conversion module to charge the storage battery;

the electric quantity detection module is used for detecting the current electric quantity of the storage battery and transmitting a detection signal to the microprocessor MCU;

the storage battery is electrically connected with the inverter circuit, the inverter circuit is electrically connected with the lighting source powered by alternating current, and when the inverter circuit is switched on, the storage battery provides a power supply for the lighting source powered by alternating current;

the commercial power is connected to the power module through an external power line to provide power for the control circuit board; the mains supply is also connected to the second switch unit, and when the second switch unit is closed, the mains supply provides a power supply for the electric connection of the lighting source powered by alternating current;

the microprocessor MCU controls the on-off of the inverter circuit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the lighting source powered by alternating current is realized;

the memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box;

the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment.

Preferably, a photosensitive detection unit is further arranged on the surface of the box body and electrically connected with the microprocessor MCU, the photosensitive detection unit is used for detecting the brightness of the current environment and transmitting a detection signal to the microprocessor MCU, and the microprocessor MCU makes a judgment according to the received detection signal and whether the lamp box needs to be immediately turned on or turned off.

Preferably, the microprocessor MCU is provided with an electric quantity control software unit, the electric quantity detection module sends detected signals to the microprocessor MCU at regular intervals, if the electric quantity of the storage battery is lower than a certain set value, the microprocessor MCU disconnects the inverter circuit, the storage battery and the lighting source powered by alternating current are disconnected, the power supply of the storage battery is automatically disconnected, and meanwhile, the microprocessor MCU closes the second switch unit, so that the mains supply utilizes the power supply module to supply power for the lighting source and is automatically switched to the mains supply; the solar daylighting panel charges for the battery, and when the electric quantity of battery was higher than another setting value, microprocessor MCU disconnected second switch unit, closed inverter circuit switched over to the mode of battery power supply again.

Preferably, the power module comprises a rectification-filtering module and a DC-DC voltage reduction module, the rectification-filtering module is electrically connected with the DC-DC voltage reduction module, and the mains supply outputs low-voltage direct current to supply power for the control circuit board after sequentially passing through the rectification-filtering module and the DC-DC voltage reduction module; the lighting source powered by alternating current is a fluorescent lamp tube; the inverter circuit is an IGBT module and is used for converting low-voltage direct current output by the storage battery into 220V alternating current.

A multipoint distributed light box cluster remote control system comprises a plurality of solar light boxes and terminal devices, wherein the solar light boxes are distributed in different places, the solar light boxes are connected to a network through communication modules and are connected with the terminal devices, each solar light box is provided with an identification code, and the terminal devices are communicated with the solar light boxes through the network, so that the terminal devices can remotely control the starting and stopping of the solar light boxes and exchange information.

Preferably, the network is a mobile communications network; the terminal equipment is a mobile phone, a solar lamp box control APP software control unit is arranged in the mobile phone, and the solar lamp box control APP software control unit can remotely control a plurality of solar lamp boxes distributed in different places and read related data of the solar lamp boxes distributed in the different places.

Compared with the prior art, the utility model, there is following advantage:

1. a solar lamp box comprises a box body, wherein a solar lighting board is arranged on the surface of the box body, a lighting source, a control circuit board and a storage battery are arranged in the box body, and the control circuit board is integrated with an electric energy conversion module, a microprocessor MCU (microprogrammed control unit), a memory, an electric quantity detection module, a power supply module and a communication module; the solar lighting panel charges the storage battery; the electric quantity detection module detects the electric quantity of the storage battery; the storage battery provides power for the illumination light source; the mains supply is connected to the power supply module to provide power supply for the control circuit board and the illumination light source; the microprocessor MCU controls the switching of the power supply mode of the illumination light source; the memory is used for storing the information of the lamp box; the communication module transmits information in the memory, and the lamp box realizes information and data communication with the terminal equipment through the communication module, so that the terminal equipment can monitor the real-time condition of the lamp box and remotely control the lamp box, thereby avoiding unnecessary resource waste and solving the problem that the service life of the lamp box is greatly shortened due to long-time opening caused by forgetting to close the lamp box; in addition, a photosensitive detection unit for monitoring the external brightness in real time is further arranged on the lamp box, when the brightness is darker than a set value, the controller automatically opens the lamp box, unnecessary waste of electric energy caused by premature opening of the lamp box before darkness is prevented, and therefore the energy-saving and environment-friendly effects are achieved.

2. The utility model provides a lamp house cluster remote control system of multiple spot distribution, including a plurality of solar lamp casees and the terminal equipment that distributes in different places, the solar lamp case be the aforesaid solar lamp case, the solar lamp case inserts through communication module and is connected with terminal equipment establishment on the network, every solar lamp case all has identification code, terminal equipment passes through the network and realizes UNICOM with this solar lamp case, make opening and stopping and exchange information of terminal equipment ability remote control solar lamp case, the lamp house realizes through network communication module with terminal equipment's information and data interchange, make the terminal equipment can monitor the real-time condition and the remote control lamp house of lamp house to avoid unnecessary wasting of resources and solve the lamp house and open the problem that leads to the life to shorten greatly for a long time because of forgetting to close.

3. Other advantages of the present invention are described in detail in the examples section of this specification.

Drawings

Fig. 1 is a perspective view of a light box provided in the first embodiment;

fig. 2 is a schematic view of an internal structure of a light box according to a first embodiment;

FIG. 3 is a block diagram of the circuit connection of the light box according to the first embodiment;

fig. 4 is a perspective view of the light box provided in the second embodiment;

fig. 5 is a schematic view of the internal structure of the light box provided in the second embodiment;

fig. 6 is a circuit connection block diagram of the light box provided in the second embodiment;

fig. 7 is a block diagram schematically illustrating a remote control system according to a third embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1 to 3, the present embodiment provides a solar light box, which includes a box body 1, a solar lighting panel 2 is disposed on the surface of the box body 1, a direct current lighting source 3A, a control circuit board 4 and a storage battery 5 are disposed in the box body 1, and the control circuit board 4 is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module, a communication module and a driving circuit.

The solar daylighting panel 2 converts solar energy into electric energy through the electric energy conversion module to charge the storage battery 5; the electric quantity detection module is used for detecting the current electric quantity of the storage battery 5 and transmitting a detection signal to the microprocessor MCU; the output of the storage battery 5 is 12V or 24V direct current.

A first switch unit is arranged between the storage battery 5 and the DC-powered illumination light source 3A, and when the first switch unit is closed, the storage battery 5 supplies power to the DC-powered illumination light source 3A; the mains supply is connected to the power supply module through an external power line 7 to provide power for the control circuit board 4, a second switch unit is arranged between the power supply module and the direct-current-powered illumination light source 3A, and when the second switch unit is closed, the mains supply provides power for the direct-current-powered illumination light source 3A; adopt two kinds of power supply modes, can prevent when cloudy day, rainy day, solar energy plane skylight 2 can not normally work or battery 5 electric quantity cross when low excessively, but the control scheme board 4 of lamp house is automatic to be inserted to the commercial power, is the lamp house power supply through the commercial power, ensures that lamp house work is normal.

The microprocessor MCU controls the on-off of the first switch unit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the direct-current power supply illumination light source 3A is realized; the circuit design is simple, and the control is convenient.

The memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box; the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment; the real-time condition of the lamp box can be monitored and the lamp box can be remotely controlled by accessing the network, so that unnecessary resource waste is avoided, and the problem that the service life is greatly shortened due to the fact that the lamp box is opened for a long time because of forgetting to close the lamp box is solved.

Still be provided with sensitization detecting element 6 on the surface at box 1, sensitization detecting element 6 is connected with microprocessor MCU electricity, sensitization detecting element 6 is used for detecting the luminance of current environment, and transmit detected signal to microprocessor MCU, microprocessor MCU makes the judgement according to received detected signal, whether need light or close the lamp house immediately, the external luminance of sensitization detecting element real-time supervision who sets up on the lamp house feeds back to the controller, when luminance is darker than the setting value, the lamp house is opened automatically to the controller, prevent to open the lamp house because of early before dark, lead to the electric energy unnecessary extravagant, thereby play an energy-conservation, the effect of environmental protection, sensitization detecting element can be photo resistance, automatic start or close, make the lamp house more intelligent, and can practice thrift the electric energy better, accord with energy-conservation's theory.

The microprocessor MCU is provided with an electric quantity control software unit, the electric quantity detection module sends detected signals to the microprocessor MCU at regular intervals, if the electric quantity of the storage battery 5 is found to be lower than 20%, the microprocessor MCU disconnects the first switch unit, so that the storage battery 5 is disconnected with the direct-current power supply illumination light source 3A, the power supply of the storage battery 5 is automatically disconnected, meanwhile, the microprocessor MCU closes the second switch unit, so that the commercial power and the direct-current power supply illumination light source 3A are switched on, and the commercial power supply is automatically switched to the commercial power supply; the solar daylighting panel 2 charges for battery 5, and when the electric quantity of battery 5 was higher than 90%, microprocessor MCU disconnection second switch unit closed first switch unit, switched over the mode of battery 5 power supply again, and the switching of power supply mode is simple, accurate.

The direct-current-powered lighting source 3A is an LED lamp tube, the power module arranged on the control circuit board comprises a rectification-filtering module and a DC-DC voltage reduction module, the rectification-filtering module is electrically connected with the DC-DC voltage reduction module, and the commercial power outputs low-voltage direct current after sequentially passing through the rectification-filtering module and the DC-DC voltage reduction module, namely 12V or 24V direct current supplies power for the LED lamp tube and 5V direct current supplies power for the control circuit board 4.

The network communication module is a WIFI module or a 4G module; the terminal equipment is a mobile phone or a computer, and the mobile phone or the computer can read the data of the memory through an access network; the data in the memory comprises the code of the lamp box, the record of the power consumption, the power supply mode and the switching condition.

Example two:

as shown in fig. 4 to 6, the present embodiment provides a solar light box, which includes a box body 1, a solar lighting panel 2 is disposed on the surface of the box body 1, an ac-powered lighting source 3B, a control circuit board 4 and a storage battery 5 are disposed in the box body 1, and the control circuit board 4 is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module, a communication module, an inverter circuit and a driving circuit.

The solar daylighting panel 2 converts solar energy into electric energy through the electric energy conversion module to charge the storage battery 5; the electric quantity detection module is used for detecting the current electric quantity of the storage battery 5 and transmitting a detection signal to the microprocessor MCU.

The storage battery 5 is electrically connected with an inverter circuit, the inverter circuit is electrically connected with an illumination light source 3B supplied with alternating current, when the inverter circuit is conducted, the storage battery 5 provides a power supply for the illumination light source 3B supplied with alternating current, the storage battery 5 outputs direct current of 12V or 24V, the inverter circuit is an IGBT module and is used for converting the direct current of 12V or 24V output by the storage battery into alternating current of 220V to provide the power supply for the illumination light source 3B supplied with alternating current, and the illumination light source 3B supplied with alternating current is a fluorescent lamp tube; the commercial power is connected to the power module through an external power line 7 to provide power for the control circuit board 4; the mains supply is also connected to the second switch unit, and when the second switch unit is closed, the mains supply is electrically connected with the lighting source 3B powered by alternating current to provide a power supply; adopt two kinds of power supply modes, can prevent when cloudy day, rainy day, solar energy plane skylight 2 can not normally work or battery 5 electric quantity cross when low excessively, but the control scheme board 4 of lamp house is automatic to be inserted to the commercial power, is the lamp house power supply through the commercial power, ensures that lamp house work is normal.

The microprocessor MCU controls the on-off of the inverter circuit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the lighting source 3B powered by alternating current is realized; the storage battery 5 outputs 12V or 24V direct current, the inverter circuit is an IGBT module and is used for converting the 12V or 24V direct current output by the storage battery 5 into 220V alternating current and providing a power supply for the illumination light source 3, the structure is simple, and the alternating current and direct current are convenient to convert.

The memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box; the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment; the real-time condition of the lamp box can be monitored and the lamp box can be remotely controlled by accessing the network, so that unnecessary resource waste is avoided, and the problem that the service life is greatly shortened due to the fact that the lamp box is opened for a long time because of forgetting to close the lamp box is solved.

Still be provided with sensitization detecting element 6 on the surface at box 1, sensitization detecting element 6 is connected with microprocessor MCU electricity, sensitization detecting element 6 is used for detecting the luminance of current environment, and transmit detected signal to microprocessor MCU, microprocessor MCU makes the judgement according to received detected signal, whether need light or close the lamp house immediately, the external luminance of sensitization detecting element real-time supervision who sets up on the lamp house feeds back to the controller, when luminance is darker than the setting value, the lamp house is opened automatically to the controller, prevent to open the lamp house because of early before dark, lead to the electric energy unnecessary extravagant, thereby play an energy-conservation, the effect of environmental protection, sensitization detecting element can be photo resistance, automatic start or close, make the lamp house more intelligent, and can practice thrift the electric energy better, accord with energy-conservation's theory.

The microprocessor MCU is provided with an electric quantity control software unit, the electric quantity detection module sends detected signals to the microprocessor MCU at regular intervals, if the electric quantity of the storage battery 5 is found to be lower than 20%, the microprocessor MCU disconnects the inverter circuit, the storage battery 5 and the lighting source 3B powered by alternating current are disconnected, the power supply of the storage battery 5 is automatically disconnected, and meanwhile, the microprocessor MCU closes the second switch unit, so that the passage of the commercial power and the lighting source 3B powered by alternating current is automatically switched to the commercial power supply; the solar daylighting panel 2 charges for battery 5, and when the electric quantity of battery 5 was higher than 90%, microprocessor MCU disconnected second switch unit, closed inverter circuit switched over to the mode of battery 5 power supply again, and the switching of power supply mode is simple, accurate.

The power module comprises a rectification-filtering module and a DC-DC voltage reduction module, the rectification-filtering module is electrically connected with the DC-DC voltage reduction module, and the commercial power outputs low-voltage direct current to supply power for the control circuit board 4 after sequentially passing through the rectification-filtering module and the DC-DC voltage reduction module.

The network communication module is a WIFI module or a 4G module; the terminal equipment is a mobile phone or a computer, and the mobile phone or the computer can read the data of the memory through an access network; the data in the memory comprises the code of the lamp box, the record of the power consumption, the power supply mode and the switching condition.

Example three:

as shown in fig. 7, the present embodiment provides a multipoint-distributed light box cluster remote control system, including a plurality of solar light boxes 100 and terminal devices distributed at different locations, where the solar light boxes 100 are the solar light boxes described in the first embodiment or the second embodiment, the solar light boxes 100 are connected to a network through a communication module to establish connection with the terminal devices, each solar light box 100 has an identification code, and the terminal devices are communicated with the solar light boxes 100 through the network, so that the terminal devices can remotely control the start and stop of the solar light boxes 100 and exchange information; the network is a mobile communications network; the terminal equipment is a mobile phone, a solar lamp box control APP software control unit is arranged in the mobile phone, and the solar lamp box control APP software control unit can remotely control a plurality of solar lamp boxes 100 distributed in different places and read related data of the solar lamp boxes 100 distributed in different places. The data in the memory comprises the code of the lamp box, the record of the power consumption, the power supply mode and the switching condition, the data in the memory can be uploaded to a computer terminal server through a signal receiver, the solar lamp box is used for controlling an APP software control unit to log in the computer terminal server, the identification code of the corresponding lamp box is searched, the related information of the lamp box can be looked up, besides the related information of the lamp box, a user can also send a starting or closing signal instruction to the lamp box through the APP, thereby realizing remote control of the lamp box, in addition, a user can also control a plurality of lamp boxes through APP, and can clearly know the relevant information of the plurality of lamp boxes as long as the user knows the identification codes of the lamp boxes, even if the user does not arrive at the scene, the user can know the condition of the lamp box and can operate the lamp box, and the user can conveniently manage the lamp box.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited thereto, and any other changes, modifications, substitutions, combinations, and simplifications made without departing from the spirit and principle of the present invention are equivalent replacement modes, and are all included in the scope of the present invention.

Claims (7)

1. The utility model provides a solar lamp box, it includes box (1), its characterized in that: the surface of the box body (1) is provided with a solar daylighting panel (2), the box body (1) is internally provided with a direct-current-powered lighting source (3A), a control circuit board (4) and a storage battery (5),

the control circuit board (4) is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module and a communication module;

the solar daylighting panel (2) converts solar energy into electric energy through the electric energy conversion module to charge the storage battery (5);

the electric quantity detection module is used for detecting the current electric quantity of the storage battery (5) and transmitting a detection signal to the microprocessor MCU;

a first switch unit is arranged between the storage battery (5) and the direct-current power supply illumination light source (3A), and when the first switch unit is closed, the storage battery (5) provides power for the direct-current power supply illumination light source (3A);

the mains supply is connected to the power supply module through an external power line (7) to provide power for the control circuit board (4), a second switch unit is arranged between the power supply module and the direct-current-powered illumination light source (3A), and when the second switch unit is closed, the mains supply provides power for the direct-current-powered illumination light source (3A);

the microprocessor MCU controls the on-off of the first switch unit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the direct-current power supply illumination light source (3A) is realized;

the memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box;

the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment.

2. A solar energy light box as claimed in claim 1, wherein: still be provided with sensitization detecting element (6) on box (1) surface, sensitization detecting element (6) are connected with microprocessor MCU electricity, and sensitization detecting element (6) are used for detecting the luminance of current environment to transmit detected signal to microprocessor MCU, microprocessor MCU makes the judgement according to received detected signal, whether need light on immediately or close the lamp house.

3. A solar energy light box as claimed in claim 2, wherein: the power supply module comprises a rectification-filtering module and a DC-DC voltage reduction module, the rectification-filtering module is electrically connected with the DC-DC voltage reduction module, commercial power outputs low-voltage direct current to supply power for a lighting source (3A) powered by direct current after sequentially passing through the rectification-filtering module and the DC-DC voltage reduction module, and the lighting source (3A) powered by the direct current is an LED lamp tube.

4. The utility model provides a solar lamp box, it includes box (1), its characterized in that: the surface of the box body (1) is provided with a solar daylighting panel (2), the box body (1) is internally provided with an AC-powered lighting source (3B), a control circuit board (4) and a storage battery (5),

the control circuit board (4) is integrated with an electric energy conversion module, a microprocessor MCU, a memory, an electric quantity detection module, a power supply module, a communication module and an inverter circuit;

the solar daylighting panel (2) converts solar energy into electric energy through the electric energy conversion module to charge the storage battery (5);

the electric quantity detection module is used for detecting the current electric quantity of the storage battery (5) and transmitting a detection signal to the microprocessor MCU;

the storage battery (5) is electrically connected with the inverter circuit, the inverter circuit is electrically connected with the lighting source (3B) powered by alternating current, and when the inverter circuit is switched on, the storage battery (5) provides power for the lighting source (3B) powered by alternating current;

the commercial power is connected to the power module through an external power line (7) to provide power for the control circuit board (4); the mains supply is also connected to the second switch unit, and when the second switch unit is closed, the mains supply is electrically connected with an illumination light source (3B) powered by alternating current to provide a power supply;

the microprocessor MCU controls the on-off of the inverter circuit and the second switch unit through the driving circuit, so that the switching control of the power supply mode of the lighting source (3B) powered by alternating current is realized;

the memory is electrically connected with the microprocessor MCU and used for storing the information of the lamp box;

the communication module is electrically connected with the microprocessor MCU, and the microprocessor MCU transmits information in the memory out through the communication module, so that the lamp box can communicate information and data with the terminal equipment.

5. A solar energy light box as claimed in claim 4, wherein: still be provided with sensitization detecting element (6) on box (1) surface, sensitization detecting element (6) are connected with microprocessor MCU electricity, and sensitization detecting element (6) are used for detecting the luminance of current environment to transmit detected signal to microprocessor MCU, microprocessor MCU makes the judgement according to received detected signal, whether need light on immediately or close the lamp house.

6. A solar energy light box as claimed in claim 5, wherein: the power supply module comprises a rectification-filtering module and a DC-DC voltage reduction module, the rectification-filtering module is electrically connected with the DC-DC voltage reduction module, and the commercial power outputs low-voltage direct current to supply power for the control circuit board (4) after sequentially passing through the rectification-filtering module and the DC-DC voltage reduction module; the lighting source (3B) powered by alternating current is a fluorescent tube; the inverter circuit is an IGBT module and is used for converting low-voltage direct current output by the storage battery into 220V alternating current.

7. The utility model provides a lamp house cluster remote control system of multiple spot distribution, includes a plurality of solar lamp houses (100) and the terminal equipment who distributes in different places, its characterized in that: the solar light box (100) is the solar light box of any one of claims 1 to 6, the solar light box (100) is connected to a network through a communication module to establish connection with a terminal device, each solar light box (100) has an identification code, and the terminal device is communicated with the solar light box (100) through the network, so that the terminal device can remotely control the start and stop of the solar light box (100) and exchange information.

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