CN213637099U - Light energy treasured that charges - Google Patents

Abstract

The utility model provides a light energy treasured that charges, include: a photoelectric conversion device; the storage battery assembly comprises a shell for accommodating a storage battery and the storage battery arranged in the shell, and the storage battery is connected with the photoelectric conversion device; the shell is provided with a charging interface for connecting external electronic equipment, and the charging interface is connected with the storage battery through a charging circuit board; the photoelectric conversion device comprises N blocks, wherein N is equal to or larger than 1, and the N blocks of the photoelectric conversion device are flexibly connected or detachably connected. In the utility model, the N photoelectric conversion devices are flexibly connected or detachably connected, when the storage battery is not needed to be charged, the plurality of photoelectric conversion devices can be folded and finally folded together with the storage battery component, so that the volume is small and the carrying is convenient; when the storage battery needs to be charged, the photoelectric conversion devices can be unfolded, and the charging speed of the storage battery is higher due to the photoelectric conversion devices, so that the storage battery is convenient to charge.

Description

Light energy treasured that charges

Technical Field

The utility model relates to a technical field that charges, in particular to light energy treasured that charges.

Background

With the continuous progress of the human economic society, the consumption of the traditional energy sources is increased, and the pollution caused by the use of the traditional energy sources is also serious, so that the human beings are promoted to continuously develop and utilize new energy sources.

The treasured that charges is based on the battery and saves the electric energy, and when user's electronic equipment need charge, through with electronic equipment and the precious electric connection that charges, the realization is to electronic equipment's charging. The existing light energy charger has the defects of large volume and inconvenience in carrying when a plurality of light energy conversion devices are used, and the charging speed is low when the number of the used light energy conversion devices is small, so that the charging is inconvenient.

In order to solve the above problem, the utility model provides a light energy treasured that charges.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a light energy treasured that charges for a convenient to carry, the convenient treasured that charges are provided.

The embodiment of the utility model provides an in provide a light energy treasured that charges, include:

a photoelectric conversion device;

the storage battery assembly comprises a shell for accommodating a storage battery and the storage battery arranged in the shell, and the storage battery is connected with the photoelectric conversion device; the shell is provided with a charging interface for connecting external electronic equipment, and the charging interface is connected with the storage battery through a charging circuit board;

the photoelectric conversion device comprises N blocks, wherein N is equal to or larger than 1, and the N blocks of the photoelectric conversion device are flexibly connected or detachably connected.

The utility model provides a light energy charger, and further,

the shell is provided with a human-computer interaction device and a sensor; a processor is also arranged in the shell; the processor is electrically connected with the sensor and the human-computer interaction equipment respectively; wherein the sensor comprises any one or more of an infrared sensor, a light sensor and an acceleration sensor.

The utility model provides a light energy charger, and further,

the human-computer interaction equipment comprises any one or more of a display screen, a loudspeaker and a flashing light;

be provided with wireless charging coil on the surface of casing, wireless charging coil with the battery is connected.

The utility model provides a light energy charger, and further,

the light energy power bank also comprises a fixing planar substrate for fixing the shell;

the fixing planar substrate is provided with a fixing component for fixing the shell, and the shell is fixed on the fixing planar substrate through the fixing component;

the fixed part comprises a first magnet, and a second magnet matched with the first magnet is arranged on the shell.

The utility model provides a light energy charger, and further,

the charging interface comprises a mobile phone power supply connecting device; the mobile phone power supply connecting device is arranged on the shell, and one end of a data wire of the mobile phone power supply connecting device is arranged in the shell and is connected with the storage battery through the charging circuit board;

the mobile phone power supply connecting device comprises a base, a data line hole, a connecting groove, a first connecting device, a data line, a bolt, a second connecting device, a connecting port and a power supply connector, wherein the data line hole is formed in the center of two sides of the base; wherein the first connecting means is embodied as a base arm; the second connection means is embodied as a port arm.

The utility model provides a light energy charger, and further,

still be provided with in the casing:

a detection circuit and a voltage adjustment circuit; the voltage adjusting circuit is connected with the detection circuit and the wireless charging coil; the voltage adjusting circuit is electrically connected with the storage battery;

the detection circuit is used for detecting a charging limit voltage value and a charging threshold current value of a device to be charged; acquiring a charging voltage value of the device to be charged according to the charging limiting voltage value and the charging threshold current value of the device to be charged;

the voltage adjusting circuit is used for adjusting the charging voltage of the wireless charging coil according to the charging voltage value determined by the detection circuit;

the wireless charging coil is used for charging the device to be charged and comprises a charging magnet and a magnetic device; the wireless charging coil material adopts metal coil, there is the coating film in the magnet surface that charges of wireless charging coil for improve the electric conductive property of wireless charging coil.

The utility model provides a light energy charger, and further,

a positioning module and a remote communication module are also arranged in the shell, and the processor is connected with the positioning module and the remote communication module; or

The shell is also provided with an illuminating lamp and an illuminating lamp switch, the illuminating lamp is electrically connected with the storage battery, and the illuminating lamp switch is arranged on an electric wire between the storage battery and the illuminating lamp; or

The surface of the shell is provided with a loudspeaker and a loudspeaker switch; the loudspeaker is electrically connected with the storage battery, and the loudspeaker switch is arranged on an electric circuit between the storage battery and the loudspeaker.

The utility model provides a light energy charger, and further,

the human-computer interaction device is a human-computer interaction display screen which is arranged on the outer surface of the shell and is connected with the storage battery through a monitoring circuit;

the monitoring circuit comprises a battery electric quantity monitoring circuit and a battery state monitoring circuit; the battery electric quantity monitoring circuit and the battery state monitoring circuit are electrically connected with the storage battery; the battery electric quantity monitoring circuit is used for monitoring the residual electric quantity value of the storage battery; the battery state monitoring circuit is used for monitoring whether the storage battery is in a use state; the service state of the storage battery comprises a storage battery charging state and a storage battery power supply state;

an electric quantity indicator light and a reminding device are arranged on the outer surface of the shell and are connected with the processor and the storage battery;

the processor is used for comparing the residual electric quantity of the storage battery detected by the battery electric quantity monitoring circuit with a preset charging reminding threshold value in the processor, and when the residual electric quantity of the storage battery is equal to or larger than the preset charging reminding threshold value in the processor, the reminding device is controlled to remind.

The utility model provides a light energy charger, and further,

the electric quantity indicator lamp comprises at least two lamp bodies;

the processor is pre-stored with the corresponding relation between each preset residual electric quantity range and the number of the corresponding illuminable lamp bodies;

the processor is used for lighting the lamp bodies with the number corresponding to the preset residual electric quantity range according to the corresponding relation when the battery electric quantity monitoring circuit detects that the residual electric quantity of the storage battery is within the preset residual electric quantity range;

the human-computer interaction display screen comprises a touch display screen;

the touch display screen sequentially comprises from outside to inside: the backlight module comprises a first back plate, a first metal layer, a first reflection polarizer, a second metal layer, a second back plate, a bottom plate and a second reflection polarizer; the first metal layer is arranged on the first reflective polarized light sheet, and the second metal layer is arranged on the second back plate; a liquid crystal layer is arranged between the second back plate and the bottom plate; the first back plate is made of glass or plastic.

The utility model provides a light energy charger, and further,

the solar energy power bank also comprises N planar substrates, wherein the N planar substrates are sequentially connected by adopting a connecting piece, and one planar substrate positioned at the edge position is connected with the shell through the connecting piece;

the N planar substrates and the N photoelectric conversion devices have one-to-one correspondence, and each photoelectric conversion device is fixed on the corresponding planar substrate; the photoelectric conversion devices on the adjacent planar substrates are connected, and the photoelectric conversion device on one planar substrate at the edge position is connected with the storage battery;

the N planar substrates are connected in sequence by adopting connecting pieces, and the implementation is as follows:

two adjacent plane type substrates are connected in a magnetic attraction mode; the edge of one side of one of the two adjacent planar substrates is provided with a first conductive magnet, the edge of the other planar substrate adjacent to the edge of the one side is provided with a second conductive magnet matched with the first conductive magnet, and the first conductive magnet and the second conductive magnet are opposite in position and opposite in magnetism.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural view of a light energy charger provided by the present invention;

fig. 2 is a schematic connection diagram of an infrared sensor and an optical sensor of a light energy charger according to the present invention;

fig. 3 is a schematic connection diagram of an acceleration sensor and an optical sensor of a light energy charger according to the present invention;

fig. 4 is a schematic view of the light energy charger of the present invention after being folded;

fig. 5 is a schematic structural view of a mobile phone power supply connector of a light energy charger provided by the present invention;

fig. 6 is a schematic view of a base structure of a mobile phone power supply connector of a light energy charger provided by the present invention;

fig. 7 is a schematic structural view of the touch display screen of the optical energy charger baby according to the present invention.

Fig. 8 is a side view of a housing of a light energy charger according to the present invention;

fig. 9 is a schematic structural view of the light energy charger baby case body when the light energy charger baby case body is unfolded.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

The embodiment of the utility model provides a light energy treasured that charges, as shown in fig. 1, 4, include:

a photoelectric conversion device 11; can be implemented as a thin film solar cell or a crystalline silicon solar cell;

a battery pack 12 including a case 121 for accommodating a battery and a battery provided in the case, the battery being connected to the photoelectric conversion device 11; a charging interface 122 for connecting external electronic equipment is arranged on the shell 121, and the charging interface 122 is connected with the storage battery through a charging circuit board; solar cell and battery are connected and are converted the principle prior art of electric energy storage in the battery with light energy (preferred, can be connected solar cell and solar controller electricity, solar controller and battery electricity), and the precious structure of precious all can adopting current light energy to charge of other structures of light energy charging, and it is no longer repeated here.

The photoelectric conversion device 11 comprises N blocks, wherein N is equal to or more than 1, and the N blocks of the photoelectric conversion device are flexibly connected or detachably connected; the flexible connection may be achieved by a flexible connection member (i.e., the flexible connection member connects adjacent photoelectric conversion devices), and the flexible connection member may be a flexible connection band or the like. Preferably, the flexible connecting member may be one or more of a rubber tape, a flexible plastic tape, and a cloth tape. The flexible connecting piece is made of various flexible materials, so that the plurality of photoelectric conversion devices can be folded and unfolded conveniently. The detachable connection may be a magnetic attachment as described below.

The working principle of the light energy charger baby is as follows: the N photoelectric conversion devices are flexibly connected or detachably connected; when the flexible connection is carried out, the flexible connection piece can be bent, so that when the storage battery does not need to be charged, the plurality of photoelectric conversion devices can be folded and finally folded together with the storage battery assembly 12, the size is small, and the carrying is convenient; when the charger baby is detachably connected and needs to be carried, the photoelectric conversion devices can be folded after being detached, so that the charger baby is convenient to carry; thereby avoiding the defects that a plurality of photoelectric conversion devices are large in volume and inconvenient to carry after being tiled and unfolded;

when needs are to the battery charging, can expand polylith photoelectric conversion device 11, have polylith photoelectric conversion device 11 to convert light energy into electric energy to with electric energy transmission income battery, light energy obtains more easily, consequently makes the charging to the battery comparatively convenient, and realized utilizing clean energy source to charge the battery, polylith photoelectric conversion device 11 also makes the charging speed of battery also comparatively fast, thereby is convenient for charge. When the user needs to charge the electronic device, the charging interface 122 of the light energy charger is connected with the electronic device of the user, so that the electronic device of the user is charged.

In one embodiment of the present invention,

a man-machine interaction device and a sensor are arranged on the shell 121; a processor is also arranged in the shell 121; the processor is electrically connected with the sensor and the human-computer interaction equipment respectively; wherein the sensor comprises any one or more of an infrared sensor, a light sensor and an acceleration sensor. The sensor is used for sensing optical energy signals around the optical energy charger and transmitting the sensed optical energy signals to the processor; the processor is used for transmitting charging information to the human-computer interaction equipment when receiving the optical energy signal transmitted by the sensor, and the human-computer interaction equipment displays the charging information; and the charging information comprises the residual capacity of the current storage battery.

The method comprises the steps that a sensor senses optical energy signals, and a processor (such as a processor with the model of SPEAr 600) transmits charging information to the man-machine interaction device according to the optical energy signals transmitted by the sensor; the light energy charger baby is also provided with a man-machine interaction device which can transmit charging information to a user during charging; the man-machine interaction function of the light energy charger is realized.

The infrared sensor or the optical sensor is arranged on the outer surface of the light energy charger baby shell 121; the acceleration sensor is arranged inside the light energy charger baby shell 121;

in this embodiment, the infrared sensor, the optical sensor, and the acceleration sensor may be divided into 3 combination modes, that is: a light sensor; alternatively, the optical sensor and the infrared sensor; or, the optical sensor and the acceleration sensor.

Wherein, when only light sensor sets up on the surface of precious casing 121 is charged to light energy, its theory of operation: the optical sensor sends the monitored optical energy signal to the processor, the processor judges whether the intensity of the optical energy signal is equal to or greater than the preset optical energy intensity, and if so, the human-computer interaction equipment is controlled to start working. Wherein the preset light energy intensity can be preset. In the technical scheme, when the optical sensor senses the optical energy signal with the preset intensity, the optical energy power bank is charged, and at the moment, the man-machine interaction device can be controlled to start working so as to prompt a user that the optical energy power bank is currently charged.

When the sensor includes optical sensor and infrared sensor, its theory of operation does: the optical sensor sends the monitored optical energy signal to the processor, and the infrared sensor sends the detected infrared signal to the processor; the processor judges whether the intensity of the light energy signal is equal to or greater than the preset light energy intensity and judges whether the intensity of the infrared signal is equal to or greater than the preset infrared signal intensity; and if the two judgment results are both yes, controlling the human-computer interaction equipment to start working. Wherein, the infrared signal intensity can be preset. Among this technical scheme, when light sensor senses the light energy signal of predetermineeing intensity, explain that light energy treasured that charges is charging, and, when infrared sensor senses the infrared signal of predetermineeing intensity, explain that light energy treasured that charges probably is being used by the people, at this moment, can control man-machine interaction equipment and begin working, in order to indicate that user light energy treasured that charges is charging at present, the aforesaid mode that only sets up light sensor is compared to this kind of mode, can use light energy to charge when precious just suggestion, save light energy more and charge precious electric quantity.

In this embodiment, the infrared sensor includes but is not limited to: S16-L221D, AS412, LBCETC1-100, etc.; light sensors include, but are not limited to: d57 series, 3 series, 10 series, 20 series, etc.

When the sensor comprises a light sensor and an acceleration sensor, the working principle is as follows: the optical sensor sends the monitored optical energy signal to the processor, and the acceleration sensor sends the detected acceleration signal to the processor; the processor judges whether the intensity of the light energy signal is equal to or greater than the preset light energy intensity and judges whether the acceleration is equal to or greater than the preset acceleration; and if the two judgment results are both yes, controlling the human-computer interaction equipment to start working. Wherein the preset acceleration may be preset. Among this technical scheme, when light sensor senses the light energy signal of predetermineeing intensity, explain that light energy treasured that charges is charging, and, when acceleration sensor sensed the acceleration of predetermineeing the size, explain that light energy treasured that charges probably is being used by the people, at this moment, can control man-machine interaction equipment and begin working, in order to indicate that user light energy treasured that charges is charging at present, the aforesaid mode that only sets up light sensor is compared to this kind of mode, can use light energy to charge when precious just suggestion, save light energy more and charge precious electric quantity.

Acceleration sensors include, but are not limited to: piezoelectric acceleration sensors, piezoresistive acceleration sensors, capacitive acceleration sensors, and the like.

To sum up, the embodiment of the utility model provides a precious is charged to light energy charges through light energy, reduces the cost of charging, responds to through the sensor simultaneously, reaches the precious demonstration charged state of automatic control light energy charge, has improved the precious intellectuality that charges of light energy, has reduced user's operation.

In one embodiment, the human-computer interaction device comprises any one or more of a display screen, a loudspeaker and a flashing light;

a wireless charging coil is arranged on the outer surface of the shell and is connected with the storage battery; above-mentioned technical scheme can realize charging the electronic equipment that has wireless function of charging, has realized that the precious multimode of light energy charging charges to electronic equipment.

In one embodiment, the light energy power bank further comprises a fixing planar substrate for fixing the shell;

the fixing flat substrate is provided with a fixing component for fixing the shell, and the shell is fixed on the fixing flat substrate through the fixing component; the fixed part comprises a first magnet, and a second magnet matched with the first magnet is arranged on the shell. According to the technical scheme, the shell is installed and fixed through the fixing planar substrate and the fixing part. Through the cooperation of the first magnetism on the fixed part and the second magnetism on the casing, make the casing can be in the same place with fixed planar substrate attraction.

In one embodiment, the charging interface comprises a mobile phone power supply connecting device; the mobile phone power supply connecting device is arranged on the shell, and one end of a data wire 25 of the mobile phone power supply connecting device is arranged in the shell and is connected with the storage battery through the charging circuit board; as shown in fig. 5 to 6, the power supply connector for a mobile phone includes a base 21, a data line hole 22, a connecting groove 23, a first connecting device 24, a data line 25, a bolt 26, a second connecting device 27, a connecting port 28 and a power supply connector 29, wherein the data line hole 22 is disposed at a central position of two sides of the base 21, the first connecting device 24 is fixedly connected to one end of the base 21, the connecting groove 23 is mounted on the first connecting device 24, the second connecting device 27 is connected to one end of the first connecting device 24, the bolt 26 is mounted on the second connecting device 27, the connecting groove 23 is fastened to the bolt 26, the second connecting device 27 is fixedly connected to the connecting port 28, the power supply connector 29 is disposed at the other end of the connecting port 28, and the other end of the data line 25 passes through the data line hole 22. Wherein the first connecting means 24 are embodied as a base arm; the second connection means 27 is embodied as a port arm.

The working principle of the technical scheme is as follows: through being connected of connecting groove 23 and bolt 26, simultaneously with the rotation of base 21 for when the user charges the cell-phone, rotate base 21, make and have certain angle between base 21 and the connection port 28, can realize that the user's cell-phone can place the cell-phone slope when charging, faces the user.

The beneficial effects of the above technical scheme are that: the mobile phone power supply connecting device not only can realize the basic function of charging the charging mobile phone, but also can play a role in obliquely supporting the mobile phone of a user. The function of the mobile phone power supply connecting device is not limited to the basic function of charging, and the mobile phone power supply connecting device has the function of a mobile phone support, so that the functional diversity of the mobile phone power supply connecting device is improved.

In one embodiment, the power connector 29 includes one or more of a Type-C charging interface, a Micro USB charging interface, and a Lightning charging interface. The technical scheme is used for charging the electronic equipment with different charging connector models.

Still be provided with in the casing:

a detection circuit and a voltage adjustment circuit; the voltage adjusting circuit is connected with the detection circuit and the wireless charging coil; the voltage adjusting circuit is electrically connected with the storage battery;

the detection circuit is used for detecting a charging limit voltage value and a charging threshold current value of a device to be charged; acquiring a charging voltage value of the device to be charged according to the charging limiting voltage value and the charging threshold current value of the device to be charged;

the voltage adjusting circuit is used for adjusting the charging voltage of the wireless charging coil according to the charging voltage value determined by the detection circuit;

the wireless charging coil is used for charging the device to be charged and comprises a charging magnet and a magnetic device; the wireless charging coil material adopts metal coil, there is the coating film in the magnet surface that charges of wireless charging coil for improve the electric conductive property of wireless charging coil.

The working principle of the technical scheme is as follows: the user will treat the charging device and place in the casing surface, and detection circuitry detects the charge restriction voltage value and the threshold value current value of charging of treating the charging device to obtain the charging voltage value of treating the charging device, and voltage adjustment circuit adjusts the charging voltage of wireless charging coil according to the charging voltage value of charging device, and the battery passes through voltage adjustment circuit and is connected with wireless charging coil, realizes treating the charging of charging device to the user.

The beneficial effects of the above technical scheme are that: the charging voltage value of the device to be charged is determined through the detection circuit, and the charging voltage value is adjusted through the voltage circuit, so that the light energy charging device is adaptive to the devices to be charged of different models, the charging efficiency of the device to be charged can be greatly improved through the technical scheme, and the charging safety and efficiency are improved.

In one embodiment, a positioning module, a processor (e.g., a processor model SPEAr 600) and a telecommunications module are also disposed within the housing 121, the processor being connected to the positioning module and the telecommunications module; the positioning module comprises a GPS positioning module or a Beidou positioning module; the remote communication module comprises a 4G communication module or a GSM communication module; the positioning module is used for acquiring the current position information of the optical energy charger and transmitting the information to the processor; the processor transmits the data to a user terminal through the remote communication module; thereby realized that the user charges precious positional information's acquisition to light energy. And the user terminal comprises a smart phone or a personal computer of the user. Or

As shown in fig. 8, an illumination lamp 40 is arranged on one side of the housing, an illumination lamp switch 401 is arranged below the illumination lamp 40, and the illumination lamp switch 401 is fixedly arranged on the housing; the illuminating lamp is electrically connected with the storage battery, and an illuminating lamp switch is arranged on an electric wire between the storage battery and the illuminating lamp; when the ambient light of the user is dark, the user controls the illuminating lamp to emit light by turning on the illuminating lamp switch, so that the illuminating function of the light energy charger is realized; or

A loudspeaker and a loudspeaker switch are arranged on the surface of the shell 121; the loudspeaker is electrically connected with the storage battery, and a loudspeaker switch is arranged on an electric circuit between the storage battery and the loudspeaker. When the user is in a dangerous environment, the user controls the loudspeaker to play distress sound by turning on the loudspeaker switch; the distress sounds comprise siren sounds; thereby realized the precious SOS function of light energy treasured that charges.

In one embodiment, the human-computer interaction device is a human-computer interaction display screen which is arranged on the outer surface of the shell and is connected with the storage battery through a monitoring circuit. The monitoring circuit is used for monitoring the residual electric quantity value of the storage battery and the service state information of the storage battery; and transmitting the acquired residual electric quantity value and the acquired use state information of the storage battery to a man-machine interaction display screen for displaying.

In one embodiment, the monitoring circuit comprises a battery capacity monitoring circuit and a battery state monitoring circuit; the battery electric quantity monitoring circuit and the battery state monitoring circuit are electrically connected with the storage battery; the battery electric quantity monitoring circuit is used for monitoring the residual electric quantity value of the storage battery; the battery state monitoring circuit is used for monitoring whether the storage battery is in a use state; the using state of the storage battery comprises a storage battery charging state and a storage battery power supply state. According to the technical scheme, the residual electric quantity of the storage battery is monitored through the battery electric quantity monitoring circuit; the battery state monitoring circuit realizes the monitoring of the charging state and the power supply state of the storage battery; the charging state of the storage battery is specifically that when the light energy charger charges through the photoelectric conversion device, electric energy is transmitted into the storage battery; the storage battery power supply state is specifically that the user is connected with electronic equipment through the precious interface that charges that light energy charges, and the battery is to electronic equipment's power supply.

An electric quantity indicator light and a reminding device are arranged on the outer surface of the shell and are connected with the processor (such as the processor with the model of SPEAr 600) and the storage battery;

the processor is used for comparing the residual electric quantity of the storage battery detected by the battery electric quantity monitoring circuit with a preset charging reminding threshold value in the processor, and when the residual electric quantity of the storage battery is equal to or larger than the preset charging reminding threshold value in the processor, the reminding device is controlled to remind. In the technical scheme, the processor acquires the residual electric quantity information of the storage battery through the electric quantity detection device and transmits the residual electric quantity information to the electric quantity indicator lamp, and the electric quantity indicator lamp transmits the residual electric quantity information of the storage battery to a user; the reminding device in the technical scheme is used for sending a reminding signal to a user when the residual electric quantity in the storage battery is larger than or equal to a preset charging reminding threshold value.

In one embodiment of the present invention,

the electric quantity indicator lamp comprises at least two lamp bodies;

the processor (for example, a processor with a model number of SPEAr 600) is pre-stored with a corresponding relationship between each preset remaining power range and the number of corresponding illuminable lamp bodies;

the processor is used for lighting the lamp bodies with the number corresponding to the preset residual electric quantity range according to the corresponding relation when the battery electric quantity monitoring circuit detects that the residual electric quantity of the storage battery is within the preset residual electric quantity range; the technical scheme is convenient for a user to visually observe the residual electric quantity of the storage battery. For example, the electric quantity indicating lamp comprises two lamp bodies, and when the residual electric quantity of the storage battery is 50% -100%, the two lamp bodies are lightened; when the residual electric quantity of the storage battery is 10% -50%, one lamp body is lightened, and the other lamp body is extinguished; when the residual electric quantity of the storage battery is 0% -10%, the two lamp bodies are extinguished.

The man-machine interaction display screen comprises a touch display screen;

the touch display screen, as shown in fig. 7, sequentially includes from outside to inside: a first back plate 31, a first metal layer 32, a first reflective polarizer 33, a second metal layer 34, a second back plate 35, a bottom plate 36 and a second reflective polarizer 37; the first metal layer 32 is disposed on the first reflective polarizer 33, and the second metal layer 34 is disposed on the second back plate 35; a liquid crystal layer 38 is arranged between the second back plate 35 and the bottom plate 36; the first back plate 31 is made of glass or plastic.

According to the technical scheme, the first metal layer 32 is arranged on the first reflection polarizing sheet 33, and the second metal layer 34 is arranged on the second back plate 35, so that the defect that the display performance of the touch display screen is reduced due to the high reflection phenomenon of the metal layers in the prior art is greatly improved. By adopting the arrangement, the manufacturing cost of the touch display screen can be effectively reduced, and the reflection polarizing plate is arranged, so that the display brightness of the touch display screen is greatly improved, and meanwhile, the display performance of the touch display screen is effectively improved.

In a specific embodiment, a user touches the touch display screen through a finger, the touch display screen lights up the display screen, and the residual capacity information and the charging state information of the storage battery are displayed; when the touch display screen does not receive the touch signal of the user within a period of time (for example, 5 minutes), the touch display screen automatically extinguishes the display screen.

In one embodiment, a battery, comprising a lithium battery;

a biphenyl polyimide film is arranged above the lithium battery, and a SiC ceramic layer is arranged outside the biphenyl polyimide film; the thickness of biphenyl type polyimide film is 5-80um, and the thickness of SiC ceramic layer is 2-10 um. Above-mentioned technical scheme adopts biphenyl type polyimide film, compares with the polyethylene diaphragm that adopts in the conventional art, has better high temperature resistance to be provided with the SiC ceramic layer, can effectively improve battery case's intensity, avoid using carelessly because of the user, lead to the battery to break unable normal work.

In one embodiment, the optical energy charger further includes N planar substrates 10 (plastic substrates or other hard substrates may be used), the N planar substrates 10 are sequentially connected by a connector 101, and one planar substrate 10 located at an edge position is connected to the housing 121 by the connector 101;

the N planar substrates 10 and the N photoelectric conversion devices 11 have a one-to-one correspondence, and each photoelectric conversion device 11 is fixed on a corresponding planar substrate 10; the photoelectric conversion devices on the adjacent planar substrates are connected, and the photoelectric conversion device on one planar substrate at the edge position is connected with the storage battery;

n piece planar substrate adopts the connecting piece to connect in proper order, implements to be:

two adjacent plane type substrates are connected in a magnetic attraction mode; the edge of one side of one of the two adjacent planar substrates is provided with a first conductive magnet, the edge of the other planar substrate adjacent to the edge of the one side is provided with a second conductive magnet matched with the first conductive magnet, and the first conductive magnet and the second conductive magnet are opposite in position and opposite in magnetism. The first and second conductive magnets may be implemented as permanent magnet alloy or magnetic steel. The detachable connection between the planar substrates is realized through the technical scheme, and the substrates are conveniently increased or reduced by a user according to the requirements.

When the battery is charged by needs, the multiple plane type substrates 10 can be unfolded, the photoelectric conversion devices 11 are arranged on each substrate, the multiple photoelectric conversion devices 11 convert light energy into electric energy, the electric energy is transmitted into the battery, the light energy is easy to obtain, the battery is convenient to charge, the cleaning energy is utilized to charge the battery, the charging speed of the battery is high due to the multiple photoelectric conversion devices 11, and the charging is convenient.

In one embodiment, as shown in figures 8-9,

the casing comprises a first main body 41, a second main body 42 is movably connected to the lower end of the first main body 41, and the bottom end of the first main body 41 is connected with the second main body 42 through a first rotating shaft 410;

the first main body 41 includes a first straight plate 411, a first mounting device 412 is mounted on the surface of the first straight plate 411, a detachable first photoelectric conversion device 413 is arranged on the first mounting device 412, and a fixing groove 414 is further arranged on the first straight plate 411 and arranged above the first mounting device 412;

the second body 42 includes a second straight plate 421, a second mounting device 422 is mounted on the surface of the second straight plate 421, a detachable second photoelectric conversion device 423 is disposed on the second mounting device 422, and a first hole 424 is further disposed on the second straight plate 422 and disposed below the second mounting device 422;

the lower end of the second main body 42 is movably connected with a third main body 43, and the bottom end of the second main body 42 is connected with the third main body 43 through a second rotating shaft 440;

the third body 43 comprises a third straight plate 431, a third mounting device 432 is mounted on the surface of the third straight plate 431, a third detachable photoelectric conversion device 433 is arranged on the third mounting device 432, and a second hole 434 is further formed in the third straight plate 431 and is arranged above the third mounting device 432;

the lower end of the third main body 43 is movably connected with a fourth main body 44, and the bottom end of the third main body 43 is connected with the fourth main body 44 through a third rotating shaft 230;

the fourth body 44 includes a fourth straight plate 441, a fourth mounting device 442 is mounted on a surface of the fourth straight plate 441, a detachable fourth photoelectric conversion device 243 is disposed on the fourth mounting device 442, and a fixing bolt 444 is further disposed on the fourth straight plate 441 and disposed below the fourth mounting device 442. The first main body and the third main body are correspondingly provided with side plates 415, so that after the first main body, the second main body, the third main body and the fourth main body are folded (if the first main body is used as a front side surface, the second main body is used as a bottom surface, the third main body is used as a rear side surface and the fourth main body is used as a top surface, the side plates are used as side surfaces (left and right side surfaces) to form a sealed shell, and preferably, the two side plates are detachably connected.

The working principle of the technical scheme is as follows: during the use, expand the light energy treasured that charges completely, with first straight board 411, second straight board 421, third straight board 431 and fourth straight board 441 towards the light source, increase the receiving area of photoelectric conversion device to the light source, make the light energy treasured that charges reach the biggest charge efficiency, after charging, fold the light energy treasured that charges to pass second hole 434, first hole 424 lock joint in fixed recess 414 in proper order through fixing bolt 444, accomplish the closure of light energy treasured that charges.

The beneficial effects of the above technical scheme are that: through the rotation of first pivot 410, second pivot 440 and third pivot 230, with first main part 41, second main part 42, third main part 43 and fourth main part 44 expand the closure, above-mentioned technical scheme can increase photoelectric conversion device's quantity according to the actual demand, make first straight board 411, second straight board 421, third straight board 431 and fourth straight board 441 face the light source completely, not only effectively improved the precious charging efficiency of light energy charging, and this light energy charging is precious carries out folding closure after the completion of charging, not only make the precious shared space area that light energy charging reduces, also made things convenient for the user to carry simultaneously.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A light energy power bank, comprising:

a photoelectric conversion device;

the storage battery assembly comprises a shell for accommodating a storage battery and the storage battery arranged in the shell, and the storage battery is connected with the photoelectric conversion device; the shell is provided with a charging interface for connecting external electronic equipment, and the charging interface is connected with the storage battery through a charging circuit board;

the photoelectric conversion device comprises N blocks, wherein N is equal to or larger than 1, and the N blocks of the photoelectric conversion device are flexibly connected or detachably connected.

2. The light energy charger according to claim 1,

the shell is provided with a human-computer interaction device and a sensor; a processor is also arranged in the shell; the processor is electrically connected with the sensor and the human-computer interaction equipment respectively; wherein the sensor comprises any one or more of an infrared sensor, a light sensor and an acceleration sensor.

3. The light energy charger according to claim 2,

the human-computer interaction equipment comprises any one or more of a display screen, a loudspeaker and a flashing light;

be provided with wireless charging coil on the surface of casing, wireless charging coil with the battery is connected.

4. The light energy charger according to claim 1,

the light energy power bank also comprises a fixing planar substrate for fixing the shell;

the fixing planar substrate is provided with a fixing component for fixing the shell, and the shell is fixed on the fixing planar substrate through the fixing component; the fixed part comprises a first magnet, and a second magnet matched with the first magnet is arranged on the shell.

5. The light energy charger according to claim 1,

the charging interface comprises a mobile phone power supply connecting device; the mobile phone power supply connecting device is arranged on the shell, and one end of a data wire (25) of the mobile phone power supply connecting device is arranged in the shell and is connected with the storage battery through the charging circuit board;

the mobile phone power supply connecting device comprises a base (21), a data line hole (22), a connecting groove (23), a first connecting device (24), a data line (25), a bolt (26), a second connecting device (27), a connecting port (28) and a power supply connector (29), wherein the data line hole (22) is formed in the center of the two sides of the base (21), the first connecting device (24) is fixedly connected to one end of the base (21), the connecting groove (23) is installed on the first connecting device (24), the second connecting device (27) is connected to one end of the first connecting device (24), the bolt (26) is installed on the second connecting device (27), the connecting groove (23) is buckled on the bolt (26), the second connecting device (27) is fixedly connected to the connecting port (28), the power supply connector (29) is arranged at the other end of the connecting port (28), the other end of the data line (25) passes through the data line hole (22) and is connected with the connecting port (28); wherein the first connecting device (24) is embodied as a base arm; the second connecting device (27) is embodied as a port arm.

6. The light energy charger according to claim 1,

still be provided with in the casing:

a detection circuit and a voltage adjustment circuit; the voltage adjusting circuit is connected with the detection circuit and the wireless charging coil; the voltage adjusting circuit is electrically connected with the storage battery;

the detection circuit is used for detecting a charging limit voltage value and a charging threshold current value of a device to be charged; acquiring a charging voltage value of the device to be charged according to the charging limiting voltage value and the charging threshold current value of the device to be charged;

the voltage adjusting circuit is used for adjusting the charging voltage of the wireless charging coil according to the charging voltage value determined by the detection circuit;

the wireless charging coil is used for charging the device to be charged and comprises a charging magnet and a magnetic device; the wireless charging coil material adopts metal coil, there is the coating film in the magnet surface that charges of wireless charging coil for improve the electric conductive property of wireless charging coil.

7. The light energy charger according to claim 1,

a positioning module and a remote communication module are also arranged in the shell, and the processor is connected with the positioning module and the remote communication module; or

The shell is also provided with an illuminating lamp and an illuminating lamp switch, the illuminating lamp is electrically connected with the storage battery, and the illuminating lamp switch is arranged on an electric wire between the storage battery and the illuminating lamp; or

The surface of the shell is provided with a loudspeaker and a loudspeaker switch; the loudspeaker is electrically connected with the storage battery, and the loudspeaker switch is arranged on an electric circuit between the storage battery and the loudspeaker.

8. The light energy charger according to claim 2,

the human-computer interaction device is a human-computer interaction display screen which is arranged on the outer surface of the shell and is connected with the storage battery through a monitoring circuit;

the monitoring circuit comprises a battery electric quantity monitoring circuit and a battery state monitoring circuit; the battery electric quantity monitoring circuit and the battery state monitoring circuit are electrically connected with the storage battery; the battery electric quantity monitoring circuit is used for monitoring the residual electric quantity value of the storage battery; the battery state monitoring circuit is used for monitoring whether the storage battery is in a use state; the service state of the storage battery comprises a storage battery charging state and a storage battery power supply state;

an electric quantity indicator light and a reminding device are arranged on the outer surface of the shell and are connected with the processor and the storage battery;

the processor is used for comparing the residual electric quantity of the storage battery detected by the battery electric quantity monitoring circuit with a preset charging reminding threshold value in the processor, and when the residual electric quantity of the storage battery is equal to or larger than the preset charging reminding threshold value in the processor, the reminding device is controlled to remind.

9. The light energy charger of claim 8,

the electric quantity indicator lamp comprises at least two lamp bodies;

the processor is pre-stored with the corresponding relation between each preset residual electric quantity range and the number of the corresponding illuminable lamp bodies;

the processor is used for lighting the lamp bodies with the number corresponding to the preset residual electric quantity range according to the corresponding relation when the battery electric quantity monitoring circuit detects that the residual electric quantity of the storage battery is within the preset residual electric quantity range;

the human-computer interaction display screen comprises a touch display screen;

the touch display screen sequentially comprises from outside to inside: the backlight module comprises a first back plate (31), a first metal layer (32), a first reflection polarizer (33), a second metal layer (34), a second back plate (35), a bottom plate (36) and a second reflection polarizer (37); the first metal layer (32) is disposed on the first reflective polarizer (33), and the second metal layer (34) is disposed on the second backplane (35); a liquid crystal layer (38) is arranged between the second back plate (35) and the bottom plate (36); the first back plate (31) is made of glass or plastic.

10. The light energy charger according to claim 1,

the solar energy power bank also comprises N planar substrates, wherein the N planar substrates are sequentially connected by adopting a connecting piece, and one planar substrate positioned at the edge position is connected with the shell through the connecting piece;

the N planar substrates and the N photoelectric conversion devices have one-to-one correspondence, and each photoelectric conversion device is fixed on the corresponding planar substrate; the photoelectric conversion devices on the adjacent planar substrates are connected, and the photoelectric conversion device on one planar substrate at the edge position is connected with the storage battery;

the N planar substrates are connected in sequence by adopting connecting pieces, and the implementation is as follows:

two adjacent plane type substrates are connected in a magnetic attraction mode; the edge of one side of one of the two adjacent planar substrates is provided with a first conductive magnet, the edge of the other planar substrate adjacent to the edge of the one side is provided with a second conductive magnet matched with the first conductive magnet, and the first conductive magnet and the second conductive magnet are opposite in position and opposite in magnetism.

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