CN111725877A - Charging box capable of loading and automatically popping mobile phone - Google Patents

Abstract

The charging box capable of loading and automatically popping up the mobile phone is used, so that a user can load and lock the mobile phone in the charging box, wired and wireless charging functions are automatically provided, the charging box can be unlocked through tools such as fingerprints, and the mobile phone can be popped up from the charging box to be partially taken by the user conveniently.

Description

Charging box capable of loading and automatically popping mobile phone

Technical Field

The invention relates to a charging box capable of loading and automatically popping up a mobile phone, in particular to a charging box capable of loading and locking the mobile phone, automatically charging the mobile phone after loading and automatically popping up the mobile phone after unlocking.

Background

At present, electronic equipment such as a mobile phone and the like become indispensable articles for people, a mobile phone wireless charging technology is gradually popularized, mobile phone products relate to most of using scenes along with users, when the mobile phone is charged in some scenes such as offices and public places, the mobile phone is not protective, loss accidents are easy to happen, loss of privacy of the user is possible, and the mobile phone user cannot leave the mobile phone during charging, so that inconvenience is caused to the user; when a user wants to put the mobile phone in a case for charging, the user cannot use a common wireless charging device and faces the risk of theft; if provide a charging box that has nimble locking unblock function, can pop out the cell-phone of putting inside again after the user unblock, the box that charges simultaneously also can lock on other article, such charging box can set up in public occasion, provides individual use, and individual installs the use on article, provides safe, swift use experience of charging for the user, does not have such charging box at present.

Disclosure of Invention

The invention aims to overcome the defects of the existing product, and provides a charging box which is loaded and can automatically pop up a mobile phone, so that a user can load the mobile phone in the charging box, a wired or wireless charging function is automatically provided, the charging box can be unlocked through tools such as passwords or fingerprints, a lifting and locking system is added, the mobile phone can be popped up from the charging box to be partially convenient for the user to take, and the charging box can be installed and locked on other articles through various means.

To achieve the above object, the present invention provides a charging box for loading and automatically ejecting a mobile phone, which is characterized by comprising, but not limited to: cell-phone storehouse, lift and locking structure, drain pan, switch lock structure, wired charging structure, wireless charging module constitute.

A charging box for loading and automatically ejecting a cell phone as described above, further characterized in that said cell phone compartment includes but is not limited to a compartment defined by: the mobile phone comprises a mobile phone cabin body, a sliding cabin, a ball, a lifting spring frame, a locking spring frame, a thickness control piece, a width control piece and a front and back sliding column, wherein the mobile phone cabin body is a frame-type structure body and is used for loading and installing the sliding cabin, the ball, the lifting spring frame, the locking spring frame, the thickness control piece, the width control piece and the front and back sliding column, and a space for acting the components is reserved; the four lifting spring frames are respectively installed or directly processed on the cell phone cabin body and the sliding cabin and are used for installing lifting springs; the sliding bin is of a box-shaped structure, a ball groove is formed in the sliding bin and used for placing balls to ensure the smoothness of position change between the sliding bin and the mobile phone bin body, a slope is formed in the sliding bin and used for enabling the sliding bin to be movably placed in the mobile phone bin body from top to bottom through a locking elastic sheet, and the sliding bin is limited by the mobile phone bin body in other directions except an upper opening and cannot be taken out; the locking spring piece rack is arranged on or directly processed on the mobile phone cabin body and used for installing a locking spring piece; the thickness control part is arranged in the mobile phone cabin body and is used for controlling the position of the mobile phone of the user with different inserted thicknesses, and the thickness control part can be an elastic roller device or an elastic sheet according to the application; the width control parts are arranged on two sides in the cell phone cabin body and are used for controlling the positions of mobile phones of users with different inserted widths, and the width control parts can be elastic roller devices or elastic sheets according to the purposes; the front and back sliding columns are installed or directly processed on the left side and the right side of the outer side of the mobile phone cabin body, and are totally 4, so that the front and back sliding columns are inserted into the front and back sliding grooves, the front and back position between the mobile phone cabin and the bottom shell is allowed to be changed, and the change of other positions except the front and back position between the mobile phone cabin and the bottom shell is limited.

A charging box for loading and automatically ejecting a mobile phone as described above, further characterized in that said lifting and locking structure includes but is not limited to the structure consisting of: the lifting spring is arranged on a lifting spring frame of the cell phone cabin body and the sliding cabin, is a tension spring or other structural bodies capable of finishing the function of the tension spring and is used for pulling the sliding cabin by utilizing the pull-back force to change the position of the sliding cabin; the locking elastic sheet is a sheet object with a clamping position at one end and an inclined elastic sheet at the other end, a shaft is arranged in the middle of the sheet object, a torsion spring is arranged on the shaft and used for changing the axial direction of the locking elastic sheet, the locking elastic sheet is arranged on a locking elastic sheet frame through the shaft and used for locking the edge of the sliding bin when a user inserts a mobile phone of the user from the upper opening and presses the mobile phone to further cause the sliding bin to descend to a certain position, the clamping position of the locking elastic sheet locks the edge of the sliding bin, the sliding bin cannot move upwards through the tension of a lifting spring, when the user presses the mobile phone bin to move backwards to a certain position, at the moment, the locking elastic sheet is locked with the locking position, the inclined elastic sheet of the locking elastic sheet is designed to touch the bottom shell at the position and cause axial rotation, so that the locking with the clamping position is opened, the sliding bin moves upwards together through.

A charging box for loading and automatically ejecting a mobile phone as described above, further characterized in that said bottom case includes but is not limited to a case formed by: the electric charging device comprises a bottom shell, a wired charging frame and a front and back sliding groove, wherein the bottom shell is a shell-shaped object, the inside of the bottom shell is provided with a position for installing and fixing a locking position, a power supply battery, a motor with a cam and a spring, and the bottom shell is provided with an installation hole; the wired charging frame is of a box-shaped structure with an opening, is arranged or directly processed above the inner part of the bottom shell and is used for placing the magnetic USB female head to enable the magnetic USB female head to be exposed and limit the whole body to move only in the wired charging frame; the front and back sliding grooves are 4 strip-shaped pieces with grooves in the middle, are installed or directly processed on two sides in the bottom shell and are used for inserting the front and back sliding columns.

A charging box for loading and automatically ejecting a mobile phone as described above, further characterized in that said switch lock structure includes but is not limited to the structure consisting of: the fingerprint identification function integrated circuit board, circuit, power supply battery, take cam motor, switch lock shell fragment, lock position, spring make up; the fingerprint identification function integrated circuit board is an integrated circuit board with complete fingerprint storage and scanning identification functions, a power supply battery provides power through a circuit and is connected with a cam motor through the circuit, and a program can be set to realize that when a user scans the stored fingerprint, the fingerprint identification function integrated circuit board identifies the fingerprint of the user successfully, starts the cam motor to rotate 180 degrees anticlockwise and then rotates 180 degrees clockwise; the cam motor includes: the motor is a direct current motor which can realize anticlockwise and clockwise rotation of the motor by changing the current direction; the cam is used for overcoming the elasticity of the switch lock elastic sheet by utilizing the eccentric raised height to change the position of the switch lock elastic sheet when the motor rotates to the direction of the switch lock elastic sheet; the switch lock elastic sheet is a sheet object with elasticity and is arranged on a mobile phone cabin body, the switch lock elastic sheet is provided with an inclined position and a stop position, the inclined position is used for overcoming the elasticity of the switch lock elastic sheet to scratch the lock position by utilizing the inclination when the inclined position meets the lock position after a user presses the mobile phone cabin to a certain position, and the stop position is used for interlocking with the lock position when the switch lock elastic sheet returns to the original position by utilizing the resilience force to stop and lock the resilience force of the spring; the motor is used for receiving an instruction of the integrated circuit board with the fingerprint identification function, rotating and changing the position of the switch lock elastic sheet by using the cam so as to open the interlocking of the switch lock elastic sheet and the lock position; the spring is used for pushing the mobile phone cabin to change the position between the mobile phone cabin and the bottom shell, and the spring can also be an elastic sheet or other devices with the same function and can be a plurality of springs arranged on the bottom shell.

A charging box for loading and automatically ejecting a mobile phone according to the above, further characterized in that said wired charging structure includes but is not limited to a structure consisting of: the magnetic USB male head is a USB joint with a magnetic coil, is wrapped by an inverted trapezoidal plastic block, is connected with the charging line and is connected with a power supply through the charging line, and the power supply can be a direct current charging head or a charging battery; the magnetic USB female head is a circuit connector with a magnet ring and can be connected with the magnetic USB male head through magnetic force so as to switch on a circuit, and the magnetic USB female head is arranged on a charging port of a mobile phone of a user; the inverted trapezoidal plastic block is used for pushing the mobile phone cabin 1 to move forwards through the spring, the upper oblique angle of the inverted trapezoidal plastic block firstly touches the inner wall of the wired charging rack to bear force so as to enable the magnetic attraction USB male head and the magnetic attraction USB female head to be separated obliquely, the magnetic influence is reduced, and the magnetic attraction USB male head and the magnetic attraction USB female head are separated from each other easily.

According to foretell a charging box that loads and can pop out cell-phone automatically, further characterized in that, wireless charging module is for having the wireless charging coil combination of the wireless functional module that charges, installs on the cell-phone storehouse, connects the power through the charging line, loads the cell-phone that has the user of wireless function of charging in the cell-phone storehouse and is locked by the switch lock structure and be close to the wireless module of charging, can charge for it.

The charging box capable of loading and automatically popping up the mobile phone is used, so that a user can load and lock the mobile phone in the charging box, wired and wireless charging functions are automatically provided, the charging box can be unlocked through tools such as fingerprints, and the mobile phone can be popped up from the charging box to be partially taken by the user conveniently.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a mobile phone cabin and installation of other components.

Fig. 2 is a schematic view of the installation and operation of the lifting and locking structure.

Fig. 3 is a schematic perspective view of the bottom case and a part of components thereof for mounting and fixing.

Fig. 4 is an exploded view of the installation of the switch lock structure.

Fig. 5 is a schematic diagram of a wired charging structure.

Fig. 6 is a perspective illustration of the structure of a charging box for loading and automatically ejecting a mobile phone.

In the figure, a mobile phone cabin 1, a lifting and locking structure 2, a bottom shell 3, a switch locking structure 4, a wired charging structure 5, a wireless charging module 6, a mobile phone cabin 7, a sliding cabin 8, a ball 9, a lifting spring frame 10, a locking spring frame 11, a thickness control member 12, a width control member 13, a front and back sliding column 14, an upper opening 15, a ball groove 16, a slope 17, a bottom shell 18, a wired charging frame 19, a front and back sliding groove 20, a mounting hole 21 and a lifting spring 22, the device comprises a locking elastic sheet 23, a torsion spring 24, a clamping position 25, an inclined elastic sheet 26, a shaft 27, a fingerprint identification function integrated circuit board 28, a circuit 29, a power supply battery 30, a motor 31 with a cam, a switch locking elastic sheet 32, a locking position 33, a spring 34, a motor 35, a cam 36, an inclined position 37, a stop position 38, a magnetic USB male head 39, a magnetic USB female head 40, a charging circuit 41, a power supply 42, an inverted trapezoidal plastic block 43 and a mobile phone 44 of a user.

Detailed Description

Fig. 1 is a schematic diagram of a three-dimensional structure of a mobile phone cabin 1 and installation of other components, and according to the illustration, the mobile phone cabin comprises: the mobile phone comprises a mobile phone cabin body 7, a sliding cabin 8, balls 9, a lifting spring frame 10, a locking spring frame 11, a thickness control piece 12, a width control piece 13 and a front and back sliding column 14, wherein the mobile phone cabin body 7 is a frame-type structural body and is used for loading and installing the sliding cabin 8, the balls 9, the lifting spring frame 10, the locking spring frame 11, the thickness control piece 12, the width control piece 13 and the front and back sliding column 14, and spaces for acting the components are reserved; the four lifting spring frames 10 are respectively installed or directly processed on the cell phone cabin body 7 and the sliding cabin 8 and are used for installing lifting springs 22; the sliding bin 8 is of a box-shaped structure, a ball groove 16 is formed in the sliding bin 8 and used for placing balls 9 to ensure the smoothness of position change between the sliding bin 8 and the mobile phone bin body 7, a slope 17 is formed in the sliding bin and used for enabling the sliding bin 8 to be movably placed in the mobile phone bin body 7 through a locking elastic sheet 23 from top to bottom, and the sliding bin 8 is limited by the mobile phone bin body 7 in other directions except an upper opening 15 and cannot be taken out; the locking spring piece rack 11 is arranged on the mobile phone bin body 7 or directly processed on the mobile phone bin body 7 and used for installing a locking spring piece 23; the thickness control part 12 is arranged in the cell phone cabin body 7 and is used for controlling the position of the inserted cell phone of the user with different thicknesses, and can be an elastic roller device or an elastic sheet according to the purpose; the width control parts 13 are arranged on two sides in the cell phone cabin body 7 and are used for controlling the positions of the inserted cell phones 44 of users with different widths, and can be elastic roller devices or elastic sheets according to the purposes; the front and rear sliding columns 14 are installed or directly processed on the left and right sides of the outer side of the mobile phone cabin body 7, and are totally 4, and are used for being inserted into the front and rear sliding grooves 20, so that the front and rear positions between the mobile phone cabin 1 and the bottom shell 3 are allowed to be changed, and the positions between the mobile phone cabin 1 and the bottom shell 3 except the front and rear positions are limited to be changed.

Fig. 2 is a schematic view of the installation and operation of the lifting and locking structure 2, according to the illustration, the lifting and locking structure 2 comprising: the lifting spring 22 is arranged on the lifting spring frame 10 of the cell phone cabin body 7 and the sliding cabin 8, is a tension spring or other structural bodies capable of completing the function of the tension spring, and is used for pulling the sliding cabin 8 by utilizing the pull-back force to change the position of the sliding cabin 8; the locking elastic sheet 23 is a sheet-shaped object with one end provided with a clamping position 25 and the other end provided with an inclined elastic sheet 26, a shaft 27 is arranged in the middle of the locking elastic sheet 23, a torsion spring 24 is arranged on the shaft 27, the torsion spring 24 is used for changing the axial direction of the locking elastic sheet 23, the locking elastic sheet 23 is arranged on the locking elastic sheet frame 11 by using the shaft 27, when a user inserts a mobile phone 44 of the user from an upper opening 15 and presses the mobile phone to further cause the sliding bin 8 to descend to a certain position, the clamping position 25 of the locking elastic sheet 11 locks the edge of the sliding bin 8, and the sliding bin 8 cannot move upwards; according to the arrow-down diagram in the figure, which is an operation diagram, the front and back sliding columns 14 are inserted into the front and back sliding grooves 20, the front and back position between the mobile phone bin 1 and the bottom shell 3 can be changed and can be limited from changing other positions except the front and back position, when the user presses the mobile phone bin 1 backwards to a certain position, at this time, the switch lock elastic sheet 32 and the lock 33 are interlocked, the inclined elastic sheet 26 of the lock elastic sheet 23 is designed to touch the bottom shell 3 at the position and cause axial rotation so as to open the lock of the sliding bin 8 and the blocking position 25, according to the diagram, the sliding bin 8 drives the mobile phone 44 of the user to move upwards together through the pulling force of the lifting spring 22, and is blocked by the wired charging rack 19 of the bottom shell 3 and stays at a certain position.

Fig. 3 is a schematic perspective view of the bottom shell 3 and its fixed parts, according to which the bottom shell 3 comprises: the device comprises a bottom shell 18, a wired charging frame 19 and a front and back sliding groove 20, wherein the bottom shell 18 is shown as a shell, and the inside of the bottom shell is provided with a mounting and fixing lock 33, a power supply battery 30, a motor 31 with a cam and a spring 34, and the parts are demonstrably mounted and fixed; the bottom shell is provided with a mounting hole 21, the invention can be fixed on a plate-shaped or sheet-shaped object through the mounting hole 21 by using a suitable connecting piece such as a screw or a rivet, and the invention can also be connected with other objects by using fixing materials such as a steel wire; the wired charging frame 19 is of a box-shaped structure with an opening, is arranged or directly processed above the inner part of the bottom shell 3 and is used for placing the magnetic USB female head 40 to enable the magnetic USB female head 40 to be exposed and limit the whole body to move only in the frame of the wired charging frame 19; the illustrated front and rear sliding grooves 20 are 4 bar-shaped members having a groove in the middle, and are installed or directly processed on both sides of the inside of the bottom case 3 for inserting the front and rear sliding posts 14.

Fig. 4 is an exploded view of the installation of the switch lock structure, and fig. 4 is an exploded view of the installation of the housing 7 and the bottom case 18 for the convenience of demonstration, and the front and rear sliding posts 14 are substantially installed to be inserted into the front and rear sliding grooves 20, according to the illustration, the switch lock structure 4 includes: the fingerprint identification function integrated circuit board 28, a circuit 29, a power supply battery 30, a motor 31 with a cam, a switch lock elastic sheet 32, a lock 33 and a spring 34; according to the demonstration surface of the exploded schematic diagram shown in the figure, the front surface of the mobile phone cabin body 7 is provided with a fingerprint identification function integrated circuit board 28, a power supply battery 30 provides power through a line 29 and is connected with a cam motor 31 through the line 29; the cam motor 31 includes: a motor 35, a cam 36; the cam 36 can change the position of the switch lock spring piece 32 by overcoming the elastic force of the switch lock spring piece 32 through the eccentric protrusion height when the motor 35 rotates to the direction of the switch lock spring piece 32; the switch locking elastic sheet 32 is a sheet object with elasticity, according to the exploded demonstration surface shown in the figure, the switch locking elastic sheet 32 is arranged on the back surface of the mobile phone cabin body 7, the switch locking elastic sheet 32 is provided with an inclined position 37 and a stop position 38, the inclined position 37 is used for overcoming the elasticity of the switch locking elastic sheet 32 by utilizing the inclination to scratch the lock position 33 when the inclined position 37 meets the lock position 33 after a user presses the mobile phone cabin 1 to a certain position, and the stop position 38 is used for interlocking the switch locking elastic sheet 32 with the lock position 33 when the switch locking elastic sheet 32 returns to the original position by utilizing the resilience force to stop and lock the resilience force of the spring 34; the motor is used for receiving an instruction of the fingerprint identification function integrated circuit board 28, rotating and changing the position of the switch lock elastic sheet 32 by using the cam 36 so as to open the interlocking of the switch lock elastic sheet 32 and the lock position 33; the spring 34 is used for pushing the mobile phone cabin 1 to change the position between the mobile phone cabin 1 and the bottom case 3, and the spring 34 may also be a spring plate or other device with the same function, and may be a plurality of springs mounted on the bottom case 3.

Fig. 5 is a schematic diagram of a wired charging structure 5, according to which the wired charging structure 5 comprises: the magnetic USB male head 39, the magnetic USB female head 40, the charging line 41 and the power supply 42 are connected, the magnetic USB male head 39 is a USB connector with a magnet ring, is wrapped by an inverted trapezoidal plastic block 43, is connected with the charging line 41 and is connected with the power supply 42 through the charging line 41, and the power supply 42 can be a direct current charging head or a charging battery; the magnetic USB female head 40 is a circuit connector with a magnet ring and can be connected with the magnetic USB male head 39 through magnetic force so as to switch on a circuit, and the magnetic USB female head 40 is arranged on a charging port of a mobile phone 44 of a user; the inverted trapezoidal plastic block 43 is used for when the spring 34 pushes the mobile phone cabin 1 to move forward, the upper oblique angle of the inverted trapezoidal plastic block 43 firstly touches the inner wall of the wired charging rack 19 to be stressed, so that the magnetic attraction USB male head 39 and the magnetic attraction USB female head 40 are obliquely separated, the magnetic influence is reduced, and the magnetic attraction USB male head 39 and the magnetic attraction USB female head 40 are easily separated from each other.

According to fig. 6, a perspective illustration of the structure of the implementation steps of the charging box for loading and automatically ejecting the mobile phone is provided, which is combined with fig. 1-5: the front and rear sliding columns 14 are inserted into the front and rear sliding grooves 20, when a user inserts a mobile phone 44 of the user from the upper opening 15 and presses down to a certain position by overcoming the pulling force of the lifting spring 22, the slope 17 of the sliding chamber 8 passes through the locking spring 23 from top to bottom, and then the clamping position 25 of the locking spring 11 locks the edge of the sliding chamber 8, the sliding chamber 8 can not move upwards by the pulling force of the lifting spring 22, the thickness control piece 12 controls the positions of the mobile phones 44 of the inserted users with different thicknesses, the width control piece 13 controls the positions of the mobile phones 44 of the inserted users with different widths, the wireless charging module 6 is a wireless charging coil assembly with a wireless charging module, is installed on the mobile phone chamber 1 and is connected with the power supply 42 through the charging line 41, in this figure, the power supply 42 is a charging battery, at this time, the mobile phone 44 of the user with the wireless charging function loaded in the mobile phone chamber 1 is, the wireless charging module 6 can charge the battery; according to fig. 6, a next step diagram of arrow pointing of perspective illustration of the structure of implementation steps of a charging box for loading and automatically ejecting a mobile phone is provided, and the following steps are combined with fig. 1-5: when a user presses the mobile phone cabin 1 to a certain position backwards, at this time, the switch lock elastic sheet 32 and the lock position 33 are interlocked, the inclined elastic sheet 26 of the lock elastic sheet 23 is designed to touch the bottom shell 3 at the position and cause axial rotation so as to open the locking of the sliding cabin 8 and the lock position 25, according to the illustration, the sliding cabin 8 drives the mobile phone 44 of the user to move upwards together through the pulling force of the lifting spring 22 and is blocked by the wired charging rack 19 of the bottom shell 3 to stay at a certain position, at this time, the magnetic USB female head 40 installed on the charging port of the mobile phone 44 of the user is connected with the magnetic USB male head 39 through magnetic force, a circuit is switched on, the magnetic USB male head 39 is connected with the power supply 42 through the charging line 41, the wired charging structure 5 can charge the mobile phone 44 of the user, and the mobile phone 44 of the user is locked between the bottom shell 3 and; according to fig. 6, a step structure of a charging box for loading and automatically ejecting a mobile phone is shown in perspective view, and the arrow points to the next step, in conjunction with fig. 1 to 5: when a user scans the stored fingerprint, the fingerprint identification function integrated circuit board 28 identifies the fingerprint of the user successfully, starts the motor 31 with the cam to rotate 180 degrees anticlockwise and then rotates 180 degrees clockwise, the cam 36 overcomes the elastic force of the switch lock elastic sheet 32 by utilizing the eccentric protrusion height to change the position of the switch lock elastic sheet 32, thereby unlocking the interlocking of the switch lock elastic sheet 32 and the lock 33, the spring 34 pushes the mobile phone bin 1 to change the position between the mobile phone bin 1 and the bottom shell 3, when the spring 34 pushes the mobile phone bin 1 to move forwards, the upper oblique angle of the inverted trapezoid plastic block 43 firstly touches the inner wall of the wired charging rack 19 to be stressed, so that the magnetic USB male head 39 and the magnetic USB female head 40 are obliquely separated, the magnetic influence is reduced, the magnetic USB male head 39 and the magnetic USB female head 40 are separated from each other, at the moment, the spring 34 pushes the mobile phone bin 1 to reach the set position, the sliding bin 8 drives the mobile phone 44 of the user to move upwards to the set tension spring 22 end together through the tension of, the user's cell phone 44 pops out a certain height and the user can take out the cell phone conveniently.

Claims (7)

1. A charging box for loading and automatically ejecting a mobile phone, comprising but not limited to a battery pack consisting of: the mobile phone comprises a mobile phone cabin (1), a lifting and locking structure (2), a bottom shell (3), a switch lock structure (4), a wired charging structure (5) and a wireless charging module (6).

2. A charging box for loading and automatically ejecting a cell phone as claimed in claim 1, further characterized in that said cell phone compartment (1) includes but is not limited to a compartment defined by: the mobile phone comprises a mobile phone cabin body (7), a sliding cabin (8), balls (9), a lifting spring frame (10), a locking spring rack (11), a thickness control piece (12), a width control piece (13) and a front and rear sliding column (14), wherein the mobile phone cabin body (7) is a frame-type structure body, used for loading and installing a sliding bin (8), a ball (9), a lifting spring frame (10), a locking spring frame (11), a thickness control piece (12), a width control piece (13) and a front and back sliding column (14), a space for acting the components is reserved, a position for installing an integrated circuit board (28) with a fingerprint identification function is arranged on the mobile phone cabin body (7), a position for pushing a spring (34) to lift the whole position of the mobile phone cabin (1), a position for placing a wireless charging module (6), a position for installing a switch lock elastic sheet (32), and an upper opening (15) for inserting a mobile phone (44) of a user; the lifting spring frame (10) is used for installing a lifting spring (22); the sliding bin (8) is of a box-shaped structure, a ball groove (16) is formed in the sliding bin (8) and used for placing balls (9), and the sliding bin (8) is movably placed in the mobile phone bin body (7); the locking spring plate rack (11) is arranged on or directly processed on the mobile phone cabin body (7) and is used for installing a locking spring plate (23); the thickness control part (12) is arranged in the mobile phone cabin body, the width control part (13) is arranged on two sides in the mobile phone cabin body (7), and the width control part can also be an elastic roller device or an elastic sheet; the front and rear sliding columns (14) are arranged or directly processed at the left and right sides of the outer side of the mobile phone cabin body (7) and are used for being inserted into the front and rear sliding grooves (20).

3. A charging box for carrying and automatically ejecting a mobile phone as claimed in claim 1, further characterized in that said lifting and locking structure (2) includes but is not limited to the structure consisting of: the mobile phone lifting spring comprises a lifting spring (22), a locking elastic sheet (23) and a torsion spring (24), wherein the lifting spring (22) is arranged on a lifting spring frame (10) of the mobile phone cabin body (7) and the sliding cabin (8) and is a tension spring or other structural bodies capable of completing the function of the tension spring; the locking elastic sheet (23) is a sheet-shaped object with a clamping position (25) at one end and an inclined elastic sheet (26) at the other end, a shaft (27) is arranged in the middle of the locking elastic sheet, and a torsion spring (24) is arranged on the shaft (27).

4. A charging box for loading and automatically ejecting a mobile phone as claimed in claim 1, further characterized in that said bottom case (3) includes but is not limited to the case consisting of: the device comprises a bottom shell (18), a wired charging frame (19) and a front-back sliding groove (20), wherein the bottom shell (18) is a shell-shaped object, the inside of the bottom shell is provided with a mounting and fixing locking position (33), a power supply battery (30), a motor (31) with a cam and a spring (34), the bottom shell (18) is provided with a mounting hole (21), the device can be fixed on a plate-shaped or sheet-shaped object through the mounting hole (21) by using suitable connecting pieces such as screws or rivets, and can also be connected with other objects by using fixing materials such as steel wires and the like; the wired charging rack (19) is of a box-shaped structure with an opening, is arranged or directly processed above the inner part of the bottom shell (3) and is used for placing the magnetic USB female head (40) to enable the magnetic USB female head (40) to be exposed and limit the whole body to move only in the wired charging rack frame (19); the front and rear sliding grooves (20) are strip-shaped pieces with grooves in the middle, are arranged on two sides inside the bottom shell (3) or are directly machined on the two sides inside the bottom shell and are used for being inserted with the front and rear sliding columns (14).

5. A charging box for carrying and automatically ejecting a mobile phone as claimed in claim 1, further characterized in that said switch lock structure (4) includes but is not limited to the structure consisting of: the fingerprint identification function integrated circuit board (28), a circuit (29), a power supply battery (30), a motor (31) with a cam, a switch lock spring sheet (32), a lock position (33) and a spring (34); the fingerprint identification function integrated circuit board (28) is an integrated circuit board with complete fingerprint storage and scanning identification functions; the cam motor (31) includes: the motor (35) and the cam (36), wherein the cam (36) is used for changing the position of the switch lock elastic sheet (32) by overcoming the elastic force of the switch lock elastic sheet (32) through the eccentric protrusion height when the motor (35) rotates to the direction of the switch lock elastic sheet (32); the switch lock elastic sheet (32) is a sheet-shaped object with elasticity and is arranged on the mobile phone cabin body (7), and the switch lock elastic sheet (32) is provided with an inclined position (37) and a stop position (38); the motor (35) is used for receiving an instruction of the integrated circuit board (28) with the fingerprint identification function, rotating and changing the position of the switch lock elastic sheet (32) by utilizing the cam (36) so as to open the interlocking of the switch lock elastic sheet (32) and the lock position (33); the spring (34) is used for pushing the mobile phone cabin (1) to change the position between the mobile phone cabin (1) and the bottom shell (3), can also be an elastic sheet or other devices with the same function, and can be a plurality of elastic sheets or other devices arranged on the bottom shell (3).

6. A charging box for carrying and automatically ejecting a mobile phone as claimed in claim 1, further characterized in that said wired charging structure (5) includes but is not limited to a structure formed by: the magnetic USB male head (39), the magnetic USB female head (40), a charging circuit (41) and a power supply (42) are combined, the magnetic USB male head (39) is a USB connector with a magnetic ring, is wrapped by an inverted trapezoidal plastic block (43), is connected with the charging circuit (41), and is connected with the power supply (42) through the charging circuit (41), and the power supply (42) can be a direct current charging head or a rechargeable battery; the magnetic USB female head (40) is a circuit connector with a magnet ring, can be connected with the magnetic USB male head (39) through magnetic force so as to be connected with a circuit, and is installed on a charging port of a mobile phone (44) of a user; reverse trapezoidal plastic piece (43) are used for when spring (34) push cell-phone storehouse (1) when moving forward, thereby the last oblique angle of reverse trapezoidal plastic piece (43) at first touches the inner wall atress of wired charging frame (19) and causes magnetism to inhale public head (39) of USB and magnetism to inhale female head (40) slant of USB and part, reduce the magnetic influence, and public head (39) of USB and magnetism are inhaled female head (40) of USB and are broken away from each other easily.

7. The charging box as claimed in claim 1, further characterized in that the wireless charging module (6) is a wireless charging coil assembly with a wireless charging function module, and is connected to a power supply (42) through a charging line (41), and when the mobile phone (44) loaded with the wireless charging function in the mobile phone compartment (1) is locked by the switch lock structure (4) and approaches the wireless charging module (6), the mobile phone can be charged.

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