CN212518473U - Mobile phone radiation-proof charging sharing device - Google Patents

Abstract

The utility model provides a mobile phone radiation-proof charging sharing device, which comprises a box body, a built-in drawer cabinet, a branching charger, a self-telescopic charger, a drawer built-in charging structure and a sharing module; the built-in drawer cabinet comprises a cabinet body, a drawer and a slide rail; the cabinet body is fixedly arranged inside the box body, and the drawer is arranged inside the cabinet body through a sliding rail; the inner side walls of the cabinet body and the drawer are respectively provided with an anti-radiation layer; the branching charger is fixedly arranged inside the box body; the self-telescopic charger is arranged in the box body and can be pulled out of the box body; the drawer is internally provided with a charging structure for charging the mobile phone placed in the drawer; the sharing module is connected with the branching charger and used for receiving an external instruction to control the on-off of a power supply of the branching charger. The utility model discloses an equipment is applicable to and installs in the guest room of hotel, and the customer can carry out multi-functional charging to the cell-phone after sweeping sign indicating number payment, can shield the cell-phone radiation, reduce the radiant quantity that gives out the box body, can realize the sharing economy.

Description

Mobile phone radiation-proof charging sharing device

Technical Field

The utility model belongs to the technical field of mobile phone charging equipment, concretely relates to cell-phone radiation protection shared device that charges.

Background

With the development of science and technology and the improvement of the living standard of materials, smart phones have become popular. Nowadays, people use smart phones to communicate, exchange, entertain, work, etc., and smart phones are attached to the left and right of people.

The convenience and entertainment of the smart phone enable people to have higher dependence on the smart phone, the use frequency of the smart phone is very high, and the smart phone has enough electric quantity and even brings a sense of safety to people. However, the battery life of a smartphone is limited; in general, people can place the smart phone at the bedside and/or charge the smart phone at the bedside when sleeping, and the influence of radiation generated by the smart phone on human health is not taken into consideration; in addition, the sharing economy mode is driven by the trend and is increasingly emphasized.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cell-phone radiation protection shared device that charges aims at being convenient for place the cell-phone and shielding mobile phone radiation, reducing the radiant quantity that gives out the box body, utilizes this equipment ability to charge to the cell-phone, is applicable to and installs in hotel guest room, and the customer scans the pay code and uses after paying, realizes sharing economy.

The utility model discloses a following technical scheme realizes:

a mobile phone radiation protection charging sharing device comprises a box body and a built-in drawer cabinet; the box body can be fixedly arranged on a wall surface, and particularly, the box body is arranged close to a bed head, so that a mobile phone can be placed and charged conveniently; specifically, the box body comprises a left side plate, a right side plate, a front side plate, a back plate, a top plate and a bottom plate, and the composition structure of the six plates of the box body is known in the art and is not described again; the built-in drawer cabinet comprises a cabinet body, a drawer and a slide rail; the cabinet body is fixedly arranged inside the box body, the drawer is arranged inside the cabinet body through a sliding rail, and the left side wall of the cabinet body and the left side wall of the box body are respectively provided with an opening facilitating the coming in and going out of the drawer; specifically, the front side wall and the rear side wall of the cabinet body are both provided with flanges along the bottom edges, the front side plate of the box body and the inner side wall of the back plate are both provided with flanges, the cabinet body is erected on the two flanges through the two flanges, and the flanges are fixedly connected through bolts or screws, so that the cabinet body is fixedly installed inside the box body, and it needs to be noted that the fixed installation structure of the cabinet body and the box body is not limited to the mode of connecting the flanges and the flanges; specifically, the sliding rail is fixedly arranged at the bottom in the cabinet body, and the bottom end of the drawer is arranged on the sliding rail, so that the drawer can be drawn out and pushed in; the inner side walls of the cabinet body and the drawer are respectively provided with a radiation-proof layer, and when the mobile phone is placed in the drawer, the radiation-proof layers can shield the radiation of the mobile phone and reduce the radiation emitted out of the box body;

the distribution charger is fixedly arranged inside the box body, and is matched with a power line and connected with an indoor commercial power socket through the power line; specifically, the right side plate of the box body is provided with a through hole for the power line to pass through, so that the power line can be stretched out of the box body and also can be fed into the box body for storage; the junction charger is provided with a plurality of USB interfaces, the front side plate of the box body is provided with jacks corresponding to the USB interfaces, and the USB end of the USB charging wire can be inserted into the USB interfaces from the jacks on the front side plate of the box body to realize power supply connection;

the mobile phone charging box is characterized by further comprising a self-telescopic charger, wherein the self-telescopic charger is arranged in the box body and electrically connected with the branching charger, and a charging wire of the self-telescopic charger can be extended out of the box body for long-distance charging of a mobile phone; when a user needs to use the self-telescopic charger to charge the mobile phone, the user can pull out a charging wire of the self-telescopic charger, and after the use is finished, the charging wire of the self-telescopic charger can automatically retract into the self-telescopic charger;

the mobile phone charging device is characterized by further comprising a drawer built-in charging structure, wherein the drawer built-in charging structure is electrically connected with the branching charger and is used for charging a mobile phone placed in the drawer;

the sharing module is connected with the branching charger and used for receiving an external instruction to control the on-off of a power supply of the branching charger; specifically, the sharing module is arranged between the power line and the branching charger, and the current on-off between the power line and the branching charger is controlled through the sharing module.

The sharing module comprises a charging equipment leasing system, a starting instruction receiving module, a communicating module, a timing module and a timing information sending module, wherein the starting instruction receiving module is used for receiving a charging equipment starting instruction sent by the charging equipment leasing system, the communicating module is used for receiving a charging equipment starting instruction sent by the starting instruction receiving module and then communicating current between a power line and a branching charger, so that the branching charger can output current, the timing module is used for calculating the communication time of the communicating module, and the timing information sending module is used for receiving the time calculated by the timing module and sending the time to the charging equipment leasing system.

Further limit, the lateral wall of box body is equipped with the collection code, and the customer of being convenient for scans collection code payment.

Further inject, still include radiator fan, the roof fretwork setting of the cabinet body, radiator fan installs in the fretwork department of the cabinet body roof, and radiator fan is connected with the branch charging electricity, all is equipped with the ventilation hole on the right side wall of the cabinet body and the right side board of box body, and the air of being convenient for flows, ensures the heat dissipation.

Further inject, the drawer is made of aluminium, can promote the cell-phone and cool down when charging.

Further limiting, notches for hanging accessories are formed in the left side plate and the right side plate of the box body; specifically, accessories such as a USB charging wire and an earphone can be hooked at the notch of the left side plate or the right side plate of the box body.

Further inject, the preceding curb plate and the bottom plate integrated into one piece of box body just are the curved surface shape, can improve the aesthetic feeling, reduce edges and corners.

Further inject, be equipped with a plurality of sunken draw-in grooves on the backplate of box body, correspond position fixed mounting on the wall and have a plurality of draw-in groove couples, a plurality of sunken draw-in grooves and a plurality of draw-in groove couple one-to-ones, go into a plurality of sunken draw-in grooves with a plurality of draw-in groove couple one-to-ones card to this fixed mounting box body.

Further limiting, a top plate of the box body is provided with a barrier, accessories of smart phones such as USB charging wires and earphones can be placed on the top plate of the box body, and the barrier can prevent the accessories from falling off; particularly, enclose the fender and can set up to trilateral or four sides, when setting up to the trilateral, enclose the roof that keeps off and wall and box body and form and hold the chamber, when setting up to the four sides, enclose the roof that keeps off and box body and form and hold the chamber.

Further defined, the enclosure is made of a transparent material to facilitate viewing of the accessories placed on the top plate of the box.

Further limiting, the left side wall and the right side wall of the enclosure are provided with corresponding clamping grooves for placing a tablet computer.

Further limiting, notches which are convenient for taking the mobile phone are arranged on the front side plate and the bottom plate of the drawer, and the fingers of a user can conveniently touch the bottom of the mobile phone through the notches, so that the mobile phone can be taken conveniently; the outer wall of the left side plate of the drawer is provided with a handle, so that the drawer can be conveniently pushed and pulled.

Further inject, the radiation protection layer is made by radiation protection surface fabric, can shield the cell-phone radiation, reduce the radiant quantity that gives out the box body, and this radiation protection surface fabric radiation protection is effectual.

The self-telescopic charger comprises an extended version charging wire, a wire body storage bin and a wire pressing device, wherein one end of the extended version charging wire is electrically connected with the wire distributing charger, the wire body storage bin and the wire pressing device are both arranged in the box body, the wire body storage bin is used for storing the extended version charging wire, and the wire pressing device is used for gathering the extended version charging wire into the wire body storage bin; specifically, a wire hole for facilitating the entry and exit of a charging wire of the lengthened plate is formed in the front side plate of the box body; when the user need use extension version charging wire to carry out the cell-phone and charge, the user can pull out extension version charging wire, uses the completion back, can gather in extension version charging wire toward the line body storage compartment through the line pressing device.

The wire pressing device comprises a motor, a roller, a nylon pulley and a self-resetting button switch, wherein the motor is fixedly mounted on a bottom plate of the box body, the roller and the nylon pulley are both rotatably mounted on the front side wall of the line body storage bin, the roller is fixedly connected with a rotating shaft of the motor, the rotating shaft of the motor can drive the roller to rotate, the lengthened plate charging wire is clamped between the roller and the nylon pulley, a guide channel convenient for the lengthened plate charging wire to move is respectively arranged on the front side wall of the line body storage bin and the inner side wall of the front side plate of the box body, the guide channel is connected with the roller and the nylon pulley, and the self-resetting button switch is fixedly mounted on the front side plate of the box body; the motor, the self-reset button switch and the branching charger are electrically connected and the self-reset button switch is used for controlling the circuit conduction of the motor, the motor can be electrified and operated by pressing the self-reset button switch, the motor drives the roller to rotate, the roller and the nylon pulley generate relative motion, and the lengthened charging wire can be gathered in the wire body storage bin under the action of friction force; the motor can rotate in the positive and negative directions, and when the lengthened version charging wire is pulled out, the roller and the nylon pulley can rotate relatively.

Further inject, the lateral wall of gyro wheel and nylon pulley all is equipped with anti-skidding dogtooth, and anti-skidding dogtooth is made by rubber, and the anti-skidding dogtooth that rubber was made can increase the frictional force between extension version charging wire and gyro wheel and the nylon pulley, and the rubber material can prevent to crush extension version charging wire.

Further, the drawer built-in charging structure comprises a wireless charger, the wireless charger is installed on the bottom plate of the drawer and electrically connected with the branching charger, and when the mobile phone is placed in the drawer, the mobile phone can be charged by the wireless charger.

Further limiting, the built-in charging structure of the drawer comprises at least one charging socket, the charging socket is mounted on the right side plate of the drawer and is electrically connected with the branching charger, and when the mobile phone is placed in the drawer, the charging socket can be used for charging; specifically, the charging socket may be a Micro USB interface, a USB Type C interface, and a Lightning interface of an IOS system mobile phone.

Further limiting, the drawer and the slide rail are obliquely arranged in the cabinet body, and the slide rail is a rebound guide rail; the rebound guide rail can enable the drawer to be freely popped out after being pressed, the drawer can freely slide out after being popped out under the action of the rebound guide rail and gravity, and when the drawer is pushed into the cabinet body, the drawer can slowly and automatically enter the cabinet body finally under the action of the rebound guide rail and manual thrust; it should be noted that the bounce guide rail is a prior art device, and the structure and principle of the drawer moving on the bounce guide rail will not be described in detail herein.

Further limiting, the inner wall of the right side plate of the drawer is fixedly provided with a magnet, and the inner wall of the left side plate of the cabinet body is fixedly provided with an iron plate or a magnet; when the drawer is popped up and slides out along the sliding rail under the action of the rebounding guide rail and gravity, the magnet on the drawer can attract the iron plate or the magnet on the cabinet body, so that the free sliding of the drawer can be accelerated; when the mobile phone is placed in the drawer and is charged, the mobile phone is manually pushed, a power socket of the mobile phone is abutted against a charging socket fixedly installed on the right side plate of the drawer, and under the adsorption action force of the magnet on the right side plate of the drawer and the iron plate or the magnet on the cabinet body, the drawer can not slide, and the charging socket can be inserted into the power socket of the mobile phone.

According to the above technical scheme, the utility model provides a pair of cell-phone radiation protection shared device that charges, beneficial effect lies in: the device can be used for placing a mobile phone, shielding the radiation of the mobile phone and reducing the radiation amount emitted out of the box body; the device can be used for connecting a USB charging wire for charging a mobile phone and/or other electronic equipment with a USB charging interface; the self-telescopic charger arranged on the device can meet the requirement of long-distance charging of the mobile phone, and can provide convenience for a user and increase the experience of the mobile phone if the user can play the mobile phone while charging on a bed; when the mobile phone is placed in the drawer in the box body, the mobile phone can be charged by using the charging structure arranged in the drawer, so that the endurance of a mobile phone battery is ensured; the equipment is provided with the sharing module, can be suitable for being installed in hotel guest rooms, and can realize sharing economy by scanning payment codes and charging a mobile phone after payment by a client.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a sectional view taken along a line a-a in fig. 3.

Fig. 5 is a schematic view of the internal structure of the case.

Fig. 6 is a schematic structural view of the drawer of the present invention.

In the drawings: 1-box, 2-cabinet, 3-drawer, 4-slide, 5-opening, 6-flanging, 7-scrap edge, 8-radiation protection layer, 9-branching charger, 10-power line, 11-USB interface, 12-extension charging wire, 13-line body storage bin, 14-notch, 15-baffle, 16-card slot, 17-notch, 18-handle, 19-motor, 20-roller, 21-nylon pulley, 22-self-reset button switch, 23-iron plate, 24-wireless charger, 25-charging socket, 26-magnet, 27-cooling fan, 28-ventilation hole, 29-collection code.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

In the description of the present application, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", "front", "rear", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1 to 6, a mobile phone radiation protection charging sharing device includes a box 1, a built-in drawer cabinet, a branching charger 9, a self-telescopic charger, a drawer built-in charging structure, a sharing module and a cooling fan 27;

the front side plate and the bottom plate of the box body 1 are integrally formed and are in a curved surface shape, so that the aesthetic feeling can be improved, and the edges and corners can be reduced; the back plate of the box body 1 is made of glass, a plurality of concave clamping grooves are formed in the back plate of the box body 1, a plurality of clamping groove hooks are fixedly installed at corresponding positions on a wall surface, the plurality of concave clamping grooves correspond to the plurality of clamping groove hooks one to one, the plurality of clamping groove hooks are clamped into the plurality of concave clamping grooves one to one, the box body 1 is fixedly installed, and the installation and connection mode of the clamping groove hooks and the concave clamping grooves is the prior art and is not described herein again; the box body 1 is arranged close to the bed head, so that a mobile phone can be placed and charged conveniently;

the built-in drawer cabinet comprises a cabinet body 2, a drawer 3 and a slide rail 4; the cabinet body 2 is fixedly arranged in the box body 1, the drawer 3 is arranged in the cabinet body 2 through a sliding rail 4, and the left side wall of the cabinet body 2 and the left side wall of the box body 1 are respectively provided with an opening 5 facilitating the access of the drawer 3; specifically, flanges 6 are arranged on the front side wall and the rear side wall of the cabinet body 2 along the bottom edge, lapping edges 7 are arranged on the front side plate of the box body 1 and the inner side wall of the back plate, the cabinet body 2 is lapped on the two lapping edges 7 through the two flanges 6, and the flanges 6 are fixedly connected with the lapping edges 7 through bolts or screws, so that the cabinet body 2 is fixedly arranged inside the box body 1; specifically, the sliding rail 4 is fixedly installed at the bottom in the cabinet body 2, and the bottom end of the drawer 3 is installed on the sliding rail 4, so that the drawer 3 can be drawn out and pushed in;

the inner side walls of the cabinet body 2 and the drawer 3 are respectively provided with an anti-radiation layer 8, the anti-radiation layer 8 is made of anti-radiation fabric, specifically, the anti-radiation fabric can be green Fiell brand anti-radiation fabric, and when a mobile phone is placed in the drawer 3, the anti-radiation layer 8 can shield the radiation of the mobile phone and reduce the radiation amount emitted out of the box body 1;

the branching charger 9 is fixedly installed inside the box body 1, and the branching charger 9 is matched with a power line 10 and is connected with an indoor commercial power socket through the power line 10; specifically, a through hole for the power cord 10 to pass through is formed in the left side plate of the box body 1, so that the power cord 10 can be stretched out of the box body 1, and the power cord 10 can also be fed into the box body 1 for storage; the junction charger 9 is provided with a plurality of USB interfaces 11, the front side plate of the box body 1 is provided with jacks corresponding to the USB interfaces 11, and the USB end of a USB charging wire can be inserted into the USB interfaces from the jacks on the front side plate of the box body to realize power supply connection; specifically, the branching charger 9 is the prior art, and a bull GN-U303U type magic cube USB charger socket can be selected;

the self-telescopic charger is arranged in the box body 1 and is electrically connected with the branching charger 9, and a charging wire of the self-telescopic charger can extend out of the box body 1; when a user needs to use the self-telescopic charger to charge the mobile phone, the user can pull out a charging wire of the self-telescopic charger, and after the use is finished, the charging wire of the self-telescopic charger can automatically retract into the self-telescopic charger;

the drawer built-in charging structure comprises a wireless charger 24 and a charging socket 25, wherein the wireless charger 24 is arranged on a bottom plate of the drawer 3, the charging socket 25 is arranged on a right side plate of the drawer 3, and the wireless charger 24 and the charging socket 25 are respectively and electrically connected with the branching charger 9; it should be noted that the wireless charger 24 and the charging socket 25 may be installed or configured at the same time; when the mobile phone is placed in the drawer 3, the mobile phone can be charged by using the wireless charger 24 or the charging socket 25; specifically, the wireless charger 24 is a device in the prior art, can select a green combined CD189 Type wireless charger 24, is suitable for various types such as an apple mobile phone, a samsung mobile phone, a Huawei mobile phone and a millet mobile phone, the wireless charger 24 and the branching charger 9 can be connected through a power line 10, wiring is arranged in the box body 1, the charging socket 25 is set to be a USB Type C interface, the charging socket 25 can select an existing USB charging wire, one end of the USB charging wire is connected with the branching charger 9, and one end of the Type C interface is fixed on a right side plate of the drawer 3;

the sharing module (not shown in the figure) is connected with the branching charger 9, and the sharing module is used for receiving an external instruction to control the on-off of the power supply of the branching charger 9; specifically, the sharing module 9 is arranged between the power line 10 and the branching charger 9, and the current on-off between the power line 10 and the branching charger 9 is controlled through the sharing module;

the roof fretwork setting of the cabinet body 2, radiator fan 27 install in the fretwork department of the cabinet body 2 roof, and radiator fan 27 is connected with separated time charger 9 electricity, all is equipped with ventilation hole 28 on the right side wall of the cabinet body 2 and the right side board of box body 1, and the air of being convenient for flows, ensures the heat dissipation.

In this embodiment, the sharing module includes a charging device leasing system, a starting instruction receiving module, a communicating module, a timing module and a timing information sending module, the starting instruction receiving module is configured to receive a charging device starting instruction sent by the charging device leasing system, the communicating module is configured to communicate a current between a power line and a branching charger after receiving the charging device starting instruction sent by the starting instruction receiving module, so that the branching charger can output the current, the timing module is configured to calculate a time for communicating the communicating module, and the timing information sending module is configured to receive the time calculated by the timing module and send the time to the charging device leasing system.

In this embodiment, the outer side wall of the box body 1 is provided with a collection code 29, so that a customer can scan the collection code 29 for payment.

In this embodiment, the drawer 3 is made of aluminum, and can promote the cooling of the mobile phone during charging.

In this embodiment, the left side plate and the right side plate of the box body 1 are both provided with notches 14 for hanging accessories; specifically, accessories such as a USB charging cord and an earphone can be hooked on the notch 14 of the left or right side plate of the case 1.

In the embodiment, the top plate of the box body 1 is provided with the enclosure 15, so that accessories of smart phones such as USB charging wires and earphones can be placed on the top plate of the box body 1, and the enclosure 15 can prevent the accessories from falling off; specifically, the enclosure 15 is of a three-side structure, and the enclosure 15, the wall surface and a top plate of the box body 1 form an accommodating cavity; the enclosure 15 is made of a transparent material, which facilitates the viewing of the accessories placed on the top plate of the box 1.

In this embodiment, the left side wall and the right side wall of the enclosure 15 are provided with corresponding slots 16 for placing a tablet computer.

In this embodiment, the front side plate and the bottom plate of the drawer 3 are provided with notches 17 for facilitating the taking of the mobile phone, and through the notches 17, the fingers of a user can conveniently touch the bottom of the mobile phone, so that the mobile phone can be taken conveniently; the outer wall of the left side plate of the drawer 3 is provided with a handle 18, so that the drawer 3 can be conveniently pushed and pulled.

In this embodiment, the self-telescopic charger includes a lengthened version charging wire 12, a wire body storage bin 13 and a wire presser; one end of the lengthened version charging wire 12 is electrically connected with the branching charger 9, a wire body storage bin 13 is arranged in the box body 1, and the wire body storage bin 13 is used for storing the lengthened version charging wire 12; the wire pressing device comprises a motor 19, a roller 20, a nylon pulley 21 and a self-resetting button switch 22, the motor 19 is fixedly mounted on a bottom plate of the box body 1, the roller 20 and the nylon pulley 21 are both rotatably mounted on a front side wall of the wire body storage bin 13, the roller 20 is fixedly connected with a rotating shaft of the motor 19, the rotating shaft of the motor 19 can drive the roller 20 to rotate, the lengthened plate charging wire 12 is clamped between the roller 20 and the nylon pulley 21, a guide channel (not shown in the figure, the guide channel is in a hollow column shape or a strip shape) convenient for the lengthened plate charging wire 12 to move is respectively arranged on the front side wall of the wire body storage bin 13 and the inner side wall of the front side plate of the box body 1, the guide channel is connected with the roller 20 and the nylon pulley 21, and the self-resetting button switch 22 is fixedly mounted; the motor 19, the self-reset button switch 22 and the distributing charger 9 are electrically connected, and the self-reset button switch 22 is used for controlling the circuit conduction of the motor 19; specifically, a wire hole for the charging wire 12 of the lengthened plate to come in and go out is arranged on the front side plate of the box body 1; the motor 19 is the prior art, the 795 motor 19 can be selected, the self-reset button switch 22 is the prior art, and a button switch with a Nordic brand can be selected; when a user needs to use the lengthened version charging wire 12 to charge a mobile phone, the user can pull the lengthened version charging wire 12 out, after the use is finished, the motor 19 can be powered on and operated by pressing the self-resetting button switch 22, the motor 19 drives the roller 20 to rotate, the roller 20 and the nylon pulley 21 generate relative motion, and the lengthened version charging wire 12 can be gathered in the wire body accommodating bin 13 under the action of friction force; the motor 19 can rotate positively and negatively, and when the extended version charging wire 12 is pulled out, the roller 20 and the nylon pulley 21 can rotate relatively.

In this embodiment, the lateral wall of gyro wheel 20 and nylon pulley 21 all is equipped with anti-skidding dogtooth (not seen in the figure), and anti-skidding dogtooth is made by rubber, and the anti-skidding dogtooth that rubber was made can increase the frictional force between extension version charging wire 12 and gyro wheel 20 and the nylon pulley 21, and rubber material can prevent to crush extension version charging wire 12.

In this embodiment, the drawer 3 and the slide rail 4 are both obliquely arranged in the cabinet body 2, and the slide rail 4 is a rebound guide rail; the rebound guide rail can enable the drawer 3 to be freely popped out after being pressed, the drawer 3 can freely slide out after being popped out under the action of the rebound guide rail and gravity, and when the drawer 3 is pushed into the cabinet body 2, the drawer 3 can finally slowly and automatically enter the cabinet body 2 under the action of the rebound guide rail and manual pushing force; it should be noted that the bounce guide rail is a prior art device, and may be a special bounce guide rail, and the structure and principle of the movement of the drawer 2 on the bounce guide rail will not be described herein again.

In this embodiment, a magnet 26 is fixedly arranged on the inner wall of the right side plate of the drawer 3, and an iron plate 23 is fixedly arranged on the inner wall of the left side plate of the cabinet 2; when the drawer is popped up and the drawer 3 slides out along the sliding rail 4 under the action of the rebounding guide rail and gravity, the magnet 26 on the drawer 3 can attract the iron plate 23 or the magnet 26 on the cabinet body 2, so that the free sliding out of the drawer 3 can be accelerated; when the mobile phone is placed in the drawer 3 and charged, the mobile phone is manually pushed, a power socket of the mobile phone is abutted against the charging socket 25 fixedly installed on the right side plate of the drawer 3, and under the adsorption action force of the magnet 26 on the right side plate of the drawer 3 and the iron plate 23 or the magnet 26 on the cabinet body 2, the drawer 3 can not slide, and the charging socket 25 can be inserted into the power socket of the mobile phone.

The working principle of the embodiment is as follows: the plurality of clamping groove hooks are correspondingly clamped into the plurality of concave clamping grooves on the back plate of the box body 1 of the device one by one, so that the box body 1 is fixedly installed, and the box body 1 is installed close to a bed head, so that a mobile phone can be placed and charged conveniently; the sharing module of the charging equipment renting system is an internet of things system, for example, a customer uses the charging equipment after scanning a code through a mobile phone APP, at the moment, the internet of things system receives a command of a background program after receiving the command sent by the mobile phone APP and sends the command to a starting command receiving module of the charging equipment, at the moment, the sharing module controls the current communication between a power line 10 and a branching charger 9, in addition, the charging sharing equipment is used for charging on time, the timing can be started when the customer scans a two-dimensional code and then stopped when the customer pays, and further, the benefit of the customer is maintained; when the current of the branching charger 9 is switched on and a user needs to charge, the branching charger 9 is connected with the charging wire by using a USB; when a user uses the mobile phone on a bed and needs to use the lengthened version charging wire 12, the user pulls the lengthened version charging wire 12 out of the wire body storage bin 13 for charging the mobile phone; after the lengthened version charging wire 12 is used up, the self-reset button switch 22 is pressed, so that the motor 19 is electrified and operates, the motor 19 drives the roller 20 to rotate, the roller 20 and the nylon pulley 21 generate relative motion, and the lengthened version charging wire 12 can be gathered in the wire body storage bin 13 under the action of friction force; when a user places the mobile phone in the drawer 3 in the box body 1, the rebound guide rail pops up by pressing the drawer 3; under the action of the rebound guide rail and gravity, the drawer 3 can freely slide out, and the magnet 26 on the drawer 3 is attracted with the iron plate 23 on the cabinet body 2 to assist the drawer 3 to freely slide out; the mobile phone is placed in the drawer 3, when the mobile phone is charged by the charging socket 25, the mobile phone is pushed by manual force continuously, the power socket of the mobile phone is abutted against the charging socket 25 fixedly installed on the right side plate of the drawer 3, and under the adsorption action force of the magnet 26 on the right side plate of the drawer 3 and the iron plate 23 or the magnet 26 on the cabinet body 2, the drawer 3 can not slide, and the charging socket 25 can be inserted into the power socket of the mobile phone; when the drawer 3 is pushed into the cabinet body 2, the drawer 3 can slowly enter the cabinet body 2 by itself at last under the action of the rebound guide rail and the manual pushing force.

Claims (10)

1. The utility model provides a cell-phone radiation protection shared device that charges which characterized in that:

comprises a box body (1) and a built-in drawer cabinet; the built-in drawer cabinet comprises a cabinet body (2), a drawer (3) and a sliding rail (4); the cabinet body (2) is fixedly arranged in the box body (1), the drawer (3) is arranged in the cabinet body (2) through a sliding rail (4), and the left side wall of the cabinet body (2) and the left side wall of the box body (1) are respectively provided with an opening (5) which is convenient for the drawer (3) to come in and go out; the inner side walls of the cabinet body (2) and the drawer (3) are respectively provided with a radiation-proof layer (8);

the distribution box is characterized by further comprising a distribution charger (9), wherein the distribution charger (9) is fixedly installed inside the box body (1), and the distribution charger (9) is provided with a power line (10) in a matched mode and is connected with an indoor commercial power socket through the power line (10); a plurality of USB interfaces (11) are arranged on the branching charger (9), and jacks corresponding to the USB interfaces (11) are arranged on the front side plate of the box body (1);

the mobile phone charging device is characterized by further comprising a self-telescopic charger, wherein the self-telescopic charger is arranged in the box body (1), the self-telescopic charger is electrically connected with the branching charger (9), and a charging wire of the self-telescopic charger can be extended to the box body (1) to be externally used for charging a mobile phone;

the mobile phone charger is characterized by further comprising a drawer built-in charging structure, wherein the drawer built-in charging structure is electrically connected with the branching charger (9) and is used for charging a mobile phone placed in the drawer (3);

the intelligent distribution system is characterized by further comprising a sharing module, wherein the sharing module is connected with the distribution charger (9) and used for receiving an external instruction to control the on-off of a power supply of the distribution charger (9).

2. The mobile phone radiation protection charging sharing device according to claim 1, characterized in that: the sharing module comprises a charging equipment leasing system, a starting instruction receiving module, a communicating module, a timing module and a timing information sending module, the starting instruction receiving module is used for receiving a charging equipment starting instruction sent by the charging equipment leasing system, the communicating module is used for receiving current between a communication power line (10) and a branching charger (9) after the charging equipment starting instruction sent by the starting instruction receiving module is sent, the timing module is used for calculating the communication time of the communicating module, and the timing information sending module is used for receiving the time calculated by the timing module and sending the time to the charging equipment leasing system.

3. The mobile phone radiation protection charging sharing device according to claim 1, characterized in that: still include radiator fan (27), the roof fretwork setting of the cabinet body (2), radiator fan (27) are installed in the fretwork department of the cabinet body (2) roof, and radiator fan (27) are connected with separated time charger (9) electricity, all are equipped with ventilation hole (28) on the right side wall of the cabinet body (2) and the right side board of box body (1).

4. The mobile phone radiation protection charging sharing device according to claim 1, characterized in that: the mobile phone taking device is characterized in that notches (17) convenient for taking the mobile phone are formed in the front side plate and the bottom plate of the drawer (3), and a handle (18) is arranged on the outer wall of the left side plate of the drawer (3).

5. The mobile phone radiation protection charging sharing device according to claim 1, characterized in that: the self-telescopic charger comprises an extended version charging wire (12), a line body storage bin (13) and a wire pressing device, one end of the extended version charging wire (12) is electrically connected with the wire distributing charger (9), the line body storage bin (13) and the wire pressing device are both installed in the box body (1), the line body storage bin (13) is used for storing the extended version charging wire (12), and the wire pressing device is used for gathering the extended version charging wire (12) into the line body storage bin (13).

6. The mobile phone radiation protection charging sharing device according to claim 5, characterized in that: the wire pressing device comprises a motor (19), a roller (20), a nylon pulley (21) and a self-reset button switch (22), the motor (19) is fixedly installed on a bottom plate of the box body (1), the roller (20) and the nylon pulley (21) are installed on the front side wall of the line body storage bin (13) in a rotatable mode, the roller (20) is fixedly connected with a rotating shaft of the motor (19), an elongated charging wire (12) is clamped between the roller (20) and the nylon pulley (21), the front side wall of the line body storage bin (13) and the inner side wall of the front side plate of the box body (1) are respectively provided with a guide channel convenient for the elongated charging wire (12) to move, the guide channel is connected with the roller (20) and the nylon pulley (21), the self-reset button switch (22) is fixedly installed on the front side plate of the box body (1), the motor (19), the self-reset button switch (22) is electrically connected with the branching charger (9) and the self-reset button switch (22) is used for controlling the motor ) The circuit of (2) is conducted.

7. The mobile phone radiation protection charging sharing device according to any one of claims 1 to 6, characterized in that: the drawer built-in charging structure comprises a wireless charger (24), the wireless charger (24) is installed on a bottom plate of the drawer (3), and the wireless charger (24) is electrically connected with the branching charger (9).

8. The mobile phone radiation protection charging sharing device according to any one of claims 1 to 6, characterized in that: the drawer built-in charging structure comprises at least one charging socket (25), the charging socket (25) is installed on the right side plate of the drawer (3), and the charging socket (25) is electrically connected with the branching charger (9).

9. The mobile phone radiation protection charging sharing device according to claim 8, wherein: the drawer (3) and the sliding rail (4) are arranged in the cabinet body (2) in an inclined mode, and the sliding rail (4) is a rebound guide rail.

10. The mobile phone radiation protection charging sharing device according to claim 9, characterized in that: the inner wall of the right side plate of the drawer (3) is fixedly provided with a magnet (26), and the inner wall of the left side plate of the cabinet body (2) is fixedly provided with an iron plate (23) or a magnet (26).

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