CN111297087B

CN111297087B - Smart mobile phone shielding cabinet

Info

Publication number: CN111297087B
Application number: CN202010309575.7A
Authority: CN
Inventors: 石天; 周春香; 石仕江; 季益民; 田龙雷; 李传栋
Original assignee: Jiangxi Bailian Intelligent Technology Group Co ltd
Current assignee: Jiangxi Bailian Intelligent Technology Group Co ltd
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2024-03-22
Anticipated expiration: 2040-04-20
Also published as: CN111297087A

Abstract

The invention provides a smart phone shielding cabinet which comprises a cabinet body, a storage box, a box door, an electric control lock and an electric control lock catch, wherein the storage box is arranged on the cabinet body; the cabinet body is sequentially provided with a display screen, a card reader, a touch keyboard and a deposit button from top to bottom; an inner shielding cabinet is arranged in the storage compartment, and one side edge of the inner shielding door and a door-absorbing magnet arranged on the end face of a cabinet opening of the inner shielding cabinet form a strong magnetic door-absorbing structure; the end face of the cabinet opening of the inner shielding door is provided with a shielding strip, shielding cloth is arranged in the inner shielding strip, and flannelette is paved on the inner side of the shielding cloth; the outer side wall of the box door is provided with a box door identification code, a box door switch damping buffer cushion is further arranged at the port of the storage box, and the box door is connected with the cabinet body in a rotating shaft mode through a door pin. The intelligent mobile phone shielding cabinet has various modes of fingerprint access, card reading access, bar code access, number input and taking and the like, has various functions of shielding signals, illumination, charging and the like when the mobile phone is taken, and has strong practicability and wide application range.

Description

Smart mobile phone shielding cabinet

Technical Field

The invention relates to the technical field of mobile phone shielding cabinets, in particular to a smart mobile phone shielding cabinet.

Background

With the development of the information age, the popularization of smart mobile phone use, the diversification of mobile phone functions and mobile phone software, and the occurrence of a secret leakage event through the mobile phone. The mobile phone shielding cabinet is suitable for mobile electricity centralized management of confidential places such as party authorities, army office buildings, meeting rooms, examination places and the like, can be used for blocking communication between all types of mobile phones placed in the shielding cabinet and base stations, effectively inhibits leakage of mobile phone signals, and prevents mobile phones from being stolen by remote control in active and passive secret leakage and standby states. The mobile phone shielding cabinet can realize complete shielding even under the condition of no power supply by physically shielding mobile phone signals, is not influenced by various mobile communication systems, does not generate electromagnetic radiation, and does not influence personnel and surrounding environments. However, in the use process of the mobile phone shielding cabinet, if the cabinet door is not tightly closed, the effect of completely shielding mobile phone signals cannot be achieved, the existing mobile phone storage shielding cabinet with a key switch is inconvenient to take mobile phones, if the mobile phones are placed in the mobile phone signal shielding cabinet for a long time, the mobile phones can be shut down due to overlong standby time, the mobile phones can not be charged again, when the mobile phones are taken out again, the mobile phones are not used with electric effects, the follow-up use is affected, if the mobile phones are used at night, the mobile phones are very inconvenient to take when the mobile phones are opened, and therefore the multifunctional smart mobile phone shielding cabinet is necessary to be developed.

Disclosure of Invention

The invention provides a smart phone shielding cabinet, which aims to solve the technical problems of incapability of lighting, incapability of charging, poor shielding effect and the like in the prior art.

The technical scheme of the invention is as follows: the intelligent mobile phone shielding cabinet comprises a cabinet body, a plurality of storage boxes arranged on the cabinet body and a cabinet door arranged on the outer side of the storage boxes, wherein one end of the cabinet door is hinged with the cabinet body, an electric control lock is arranged on the inner side wall of the other end of the cabinet door, and an electric control lock catch corresponding to the electric control lock is arranged on the outer side of an opening of the storage boxes; the front wall of the cabinet body is provided with a display screen, a card reader, a touch keyboard and a deposit button; an inner shielding cabinet is arranged in the storage compartment, the side edge of a cabinet opening of the inner shielding cabinet is hinged with one side edge of an inner shielding door, and the other side edge of the inner shielding door and a door-absorbing magnet arranged on the end face of the cabinet opening of the inner shielding cabinet form a strong magnetic door-absorbing structure; a shielding strip is arranged on the end face of the cabinet opening of the inner shielding door; a shielding cloth is arranged in the inner shielding cabinet, and flannelette is paved on the inner side of the shielding cloth; the outer side wall of the box door is provided with a box door identification code, a box door switch damping buffer cushion is further arranged at the port of the storage box, and the box door is connected with the cabinet body in a rotating shaft mode through a door pin.

Furthermore, an emergency box opening mechanical lock is arranged on the cabinet body, so that the cabinet door can be conveniently opened by adopting a mechanical lock mode when the cabinet door is opened and fails; the card reader is used for reading a storage certificate, and the storage certificate is an electronic induction card or a temporarily generated bar code or a two-dimensional code; the touch keyboard is used for inputting a bar code and a picking code on a two-dimensional code; the deposit button is connected with an electronic lock control system for opening the box door; the display screen is used for displaying the stored door identification codes; and a fingerprint reading device is arranged below the registering button and is connected with an electronic lock control system for opening the box door.

Further, the shielding strip is of a rectangular structure, a rectangular clamping groove is formed in the end face of the cabinet opening of the inner shielding cabinet, and the shielding strip is inlaid in the rectangular clamping groove; the shielding cloth is silver-plated fiber knitted cloth or silver-plated fiber non-woven cloth.

Further, a lighting device is arranged in the inner shielding cabinet, and a trigger switch for controlling the lighting device is arranged at a cabinet opening below the door-sucking magnet; the trigger switch controls the lighting device to be lightened when the inner shielding door is opened, and controls the lighting device to be turned off when the inner shielding door is closed, so that energy is saved conveniently.

Further, the trigger switch comprises a touch head positioned outside the counter and a touch rod with the outer end connected with the touch head, wherein the inner end of the touch rod is fixedly connected with a copper bowl contact, the touch rod is fixedly connected to the outer bottom of the bowl of the copper bowl contact, and the touch rod is an insulating rod; a copper pipe contact is sleeved on a contact pressure rod at the inner side of the copper bowl contact, an insulating material is coated outside the copper pipe contact, and the copper pipe contact is fixedly connected inside the inner shielding cabinet; the touch rod is fixedly connected with the cabinet body at the cabinet opening through a first sliding sleeve, and a second sliding sleeve is arranged on the inner side of the copper pipe contact at the inner end of the touch rod; a pressing spring is arranged between the pressing head and the first sliding sleeve, a lubricant is arranged between the pressing rod and the first sliding sleeve and between the pressing rod and the second sliding sleeve, and the pressing rod can reciprocate along the first sliding sleeve and the second sliding sleeve under the action of external force and the pressing spring; one circuit of the lighting device is communicated with the copper bowl contact, and then is communicated with the copper pipe contact: when the inner shielding door is closed, the contact pressure head is pressed, the bowl cambered surface of the copper bowl contact is separated from contact with the copper pipe contact, the circuit is disconnected, and the lighting device is turned off; when the inner shielding door is opened, under the action of the elastic force of the touch spring, the touch rod is stretched outwards, so that the bowl cambered surface of the copper bowl contact is tightly contacted with the copper pipe contact, a circuit is connected, and the lighting device is lighted.

Further, interior shielding cabinet internally mounted has the cell phone stand, the cell phone stand includes the base, and perpendicular fixed connection is in stabilizer blade, first pivot, second pivot, movable support board, the cell-phone cardboard of base, upper end and the first pivot connection on the stabilizer blade, first pivot and second pivot are connected to the movable support board, the second pivot still with cell-phone cardboard fixed connection, the terminal both sides of cell-phone cardboard have the ascending cell-phone supporting leg of bending, the centre at the terminal of cell-phone cardboard has the bayonet socket.

Further, charging device is installed to cell phone stand's bayonet socket department, charging device includes circular shape rotary disk, the side of rotary disk is provided with three each other and is 120 charging connector, and three charging connector is respectively: micro USB interface, USB Type C interface, lightning interface.

Further, the rotating disc of the charging device comprises an upper rotating disc and a lower rotating disc, the lower rotating disc is fixedly arranged on the mobile phone support, the upper rotating disc and the lower rotating disc are made of plastic materials, the center of the upper rotating disc is fixedly connected with a central shaft, the lower rotating disc is provided with a central hole, and the central shaft penetrates through the central hole of the lower rotating disc and is in rotary connection with the lower rotating disc; an annular boss is arranged on a central shaft below the lower rotating disk, a pressure spring with the inner diameter smaller than the outer diameter of the annular boss is arranged between the annular boss and the lower rotating disk, the pressure spring is sleeved on the central shaft, the upper end of the pressure spring is propped against the lower rotating disk, and the lower end of the pressure spring is propped against the annular boss; the lower end of the central shaft is sleeved with a copper sleeve, the central shaft is a copper column, and the central shaft is in sliding connection with the copper sleeve; the charging connector is fixedly arranged on the upper rotating disc, one conductive line of the charging connector is fixedly connected with the upper rotating disc, and the other conductive line of the charging connector is connected with the central shaft and is in sliding connection with the copper sleeve.

Further, an upper contact copper pipe is embedded below a charging connector in the upper rotating disk, a lower contact copper pipe is embedded in the lower rotating disk at a position corresponding to the upper contact copper pipe, one conductive line of the charging connector is fixedly connected with the upper contact copper pipe through an upper connecting arc line, and the other conductive line of the charging connector is fixedly connected with the upper contact copper pipe, so that the upper contact copper pipe is fixedly connected with the central shaft through a lower connecting arc line; the upper contact copper pipe is connected with the lower contact copper pipe through copper rolling balls, and the sphere diameter of each copper rolling ball is larger than the inner diameters of the upper contact copper pipe and the lower contact copper pipe; the lower contact copper pipes are connected through arc-shaped rail grooves, and the upper contact copper pipes buckle copper rolling balls to conduct arc-shaped rolling along the arc-shaped rail grooves, so that relative rotation of the upper rotating disk and the lower rotating disk is achieved.

Further, the upper rotating disc drives the central shaft and the lower rotating disc to rotate relatively, and three charging connectors are driven to realize adjustment of different positions; the charging connector above the charging device at the bayonet is in charging connection with the mobile phone; the mobile phone support comprises a first rotating shaft, a movable supporting plate, a second rotating shaft and a movable degree of freedom, wherein the first rotating shaft, the movable supporting plate and the second rotating shaft form the movable degrees of freedom in the front-back direction and the up-down direction, and therefore accurate positioning of the mobile phone and a charging connector is achieved.

Further, the shielding strip comprises an elastic sealing core and a shielding copper net pipe sleeved on the elastic sealing core, and the elastic sealing core is of a rubber pipe structure; the shielding copper mesh tube elastically contracts and expands along with the elastic sealing core.

Further, the shielding copper net is a red copper net pipe with the aperture of 100 meshes.

Compared with the prior art, the invention has the beneficial effects that:

(1) The intelligent mobile phone shielding cabinet has the functions of shielding mobile phone signals, lighting, charging and the like when the mobile phone is taken, three charging interfaces can be suitable for most intelligent mobile phones in the current market, the mobile phones can be charged while being stored, the continuous use time of the mobile phones is prolonged, the practicability is high, and the application range is wide.

(2) The intelligent mobile phone shielding cabinet has various modes of fingerprint access, card reading access, bar code access, number input and access and the like, and is high in safety, complete in function and convenient for people to use.

(3) According to the intelligent mobile phone shielding cabinet, the galvanized steel plate is adopted on the inner wall of the inner shielding cabinet, so that the shielding effect of the cabinet body is improved, shielding cloth and flannelette are paved on the inner wall of the cabinet body, the shielding effect is improved, and a protection effect on mobile phones stored in the cabinet can be achieved.

(4) According to the intelligent mobile phone shielding cabinet, when the inner shielding cabinet is opened, the lighting device is lightened, so that the mobile phone is convenient to take; the end face of the cabinet opening of the inner shielding cabinet is provided with the rectangular clamping groove, and the shielding strip is embedded in the groove, so that the sealing performance is improved, and a good shielding effect is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a smart phone shielding cabinet of the present invention;

FIG. 2 is a schematic view of the structure of the inner shielding cabinet in the invention;

FIG. 3 is a schematic view of the structure of the inner shielding cabinet with lint in the present invention;

FIG. 4 is a schematic view of the lighting device of the present invention with the door open;

FIG. 5 is a schematic view of the lighting device of the present invention with the door closed;

FIG. 6 is a schematic diagram of a mobile phone holder according to the present invention;

fig. 7 is a schematic structural view of a charging device in the present invention;

FIG. 8 is a top plan view of the upper rotating disk of the charging device of the present invention;

fig. 9 is a structural plan view of a lower rotating disc of the charging device in the present invention;

FIG. 10 is a schematic diagram showing the front view of the charging device according to the present invention;

FIG. 11 is a schematic view of the structure of a shield strip of the present invention;

FIG. 12 is a schematic cross-sectional structural view of a shield strip of the present invention;

reference numerals in the drawings are as follows: 1. a cabinet body; 2. an emergency unpacking mechanical lock; 3. a display screen; 4. a card reader; 5. touching the keyboard; 6. a register button; 7. a fingerprint reading head; 8. an electric control lock; 9. locking of the electric control lock; 10. an inner shield door; 11. a storage cell; 12. a door-sucking magnet; 13. a shielding strip; 131. an elastic sealing core; 132. shielding copper net pipes; 14. a shielding cloth; 15. flannelette; 16. a door identification number; 17. damping buffer cushion for door switch; 18. an inner shielding cabinet; 19. a door pin; 20. a door; 21. triggering a switch; 211. a touch head; 212. a touch lever; 213. a first sliding sleeve; 214. a touch spring; 215. copper pipe contact; 216. copper bowl contact; 217. the second sliding sleeve; 22. a lighting device; 23. a mobile phone bracket; 231. a base; 232. a first rotating shaft; 233. a movable support plate; 234. a second rotating shaft; 235. a mobile phone clamping plate; 236. a mobile phone supporting leg; 237. a bayonet; 24. a charging device; 241. an upper rotating disc; 242. a lower rotating disc; 243. a central shaft; 2431. an annular boss; 244. a charging connector; 245. a pressure spring; 246. a copper sleeve; 247. copper rolling balls; 248. arc rail grooves; 2491. the copper pipe is pressed up; 2492. the copper pipe is pressed down.

Detailed Description

The invention will be described in further detail below with reference to the drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1, 2 and 3, a smart phone shielding cabinet comprises a cabinet body 1, a plurality of storage boxes 11 arranged on the cabinet body 1, and a box door 20 arranged outside the storage boxes 11, wherein one end of the box door 20 is hinged with the cabinet body 1, an electric control lock 8 is arranged on the inner side wall of the other end, and an electric control lock catch 9 corresponding to the electric control lock 8 is arranged outside an opening of the storage boxes 11; a display screen 3, a card reader 4, a touch keyboard 5 and a deposit button 6 are sequentially arranged in the middle of the front wall of the cabinet body 1 from top to bottom; an inner shielding cabinet 18 is arranged in the storage compartment 11, the side edge of a cabinet opening of the inner shielding cabinet 18 is hinged with one side edge of the inner shielding door 10, and the other side edge of the inner shielding door 10 and a door-absorbing magnet 12 arranged on the end face of the cabinet opening of the inner shielding cabinet 18 form a strong magnetic door-absorbing structure; a shielding strip 13 is arranged on the end face of the cabinet opening of the inner shielding door 10; the inner shielding cabinet 18 is internally provided with shielding cloth 14, and flannelette 15 is laid on the inner side of the shielding cloth 14; the outer side wall of the box door 20 is provided with a box door identification code 16, a box door switch shock-absorbing buffer cushion 17 is further arranged at the port of the storage box 11, and the box door 20 is connected with the cabinet body 1 in a rotating shaft mode through a door pin 19.

In addition, the cabinet body 1 is provided with an emergency box opening mechanical lock 2, so that the cabinet door can be conveniently opened by adopting a mechanical lock mode when the cabinet door is opened and fails; the card reader 4 is used for reading a storage certificate, wherein the storage certificate is an electronic induction card or a temporarily generated bar code or a two-dimensional code; the touch keyboard 5 is used for inputting bar codes and picking codes on two-dimensional codes; the deposit button 6 is connected with an electronic lock control system for opening the box door 20; the display screen 3 is used for displaying the stored door identification code 16; a fingerprint reading device 7 is arranged below the register button 6, and the fingerprint reading device 7 is connected with an electronic lock control system for opening the box door 20.

The shielding strip 13 is of a rectangular structure, a rectangular clamping groove is formed in the end face of a cabinet opening of the inner shielding cabinet 18, and the shielding strip 13 is embedded in the rectangular clamping groove; the shielding cloth 14 is silver-plated fiber knitted fabric or silver-plated fiber non-woven fabric.

As shown in fig. 4 and 5, a lighting device 22 is installed in the inner shielding cabinet 18, and a trigger switch 21 for controlling the lighting device 22 is arranged at the cabinet opening below the door-absorbing magnet 12; the trigger switch 21 controls the lighting device 22 to be turned on when the inner shielding door 10 is opened, and controls the lighting device 22 to be turned off when the inner shielding door 10 is closed, so that energy is conveniently saved.

The trigger switch 21 comprises a touch head 211 positioned outside the counter and a touch rod 212 with the outer end connected with the touch head 211, wherein the inner end of the touch rod 212 is fixedly connected with a copper bowl contact 216, the touch rod 212 is fixedly connected to the bowl outer bottom of the copper bowl contact 216, and the touch rod 212 is an insulating rod; copper pipe contacts 215 are sleeved on the contact rods 212 on the inner sides of the copper bowl contacts 216, insulating materials are coated outside the copper pipe contacts 215, and the copper pipe contacts 215 are fixedly connected inside the inner shielding cabinet 18; the touch rod 212 is fixedly connected with the cabinet body at the cabinet opening through a first sliding sleeve 213, and a second sliding sleeve 217 is arranged on the inner side of a copper pipe contact 215 at the inner end of the touch rod 212; a touch spring 214 is arranged between the touch head 211 and the first sliding sleeve 213, a lubricant is arranged between the touch rod 212 and the first sliding sleeve 213 and the second sliding sleeve 217, and under the action of an external force and the touch spring 214, the touch rod 212 can reciprocate along the first sliding sleeve 213 and the second sliding sleeve 217; one of the circuits of the lighting device 22 communicates with the copper bowl contact 216 and, in turn, with the copper tube contact 215: when the inner shielding door 10 is closed, the contact pressure head 211 is pressed, the bowl cambered surface of the copper bowl contact 216 is separated from contact with the copper pipe contact 215, the circuit is disconnected, and the lighting device 22 is turned off; when the inner shield door 10 is opened, the pressing rod 212 is stretched outwards under the action of the elastic force of the pressing spring 214, so that the bowl arc surface of the copper bowl contact 216 is tightly pressed against the copper tube contact 215, the circuit is completed, and the lighting device 22 is lighted.

The mobile phone support 23 is arranged in the inner shielding cabinet 18, the mobile phone support 23 comprises a base 231, support legs, a first rotating shaft 232, a second rotating shaft 234, a movable support plate 233 and a mobile phone clamping plate 235 which are vertically and fixedly connected to the base 231, the upper ends of the support legs are connected with the first rotating shaft 232, the movable support plate 233 is connected with the first rotating shaft 232 and the second rotating shaft 234, the second rotating shaft 234 is fixedly connected with the mobile phone clamping plate 235, mobile phone supporting legs 236 which are upwards bent are arranged on two sides of the tail end of the mobile phone clamping plate 235, and a bayonet 237 is arranged in the middle of the tail end of the mobile phone clamping plate 235.

As shown in fig. 6 and 7, a charging device 24 is installed at a bayonet 237 of the mobile phone support 23, the charging device 24 includes a circular rotating disc, three charging connectors 244 with 120 ° angles are disposed on the side of the rotating disc, and the three charging connectors 244 are respectively: micro USB interface, USB Type C interface, lightning interface.

As shown in fig. 7, 8, 9 and 10, the rotating disc of the charging device 24 comprises an upper rotating disc 241 and a lower rotating disc 242, the lower rotating disc 242 is fixedly installed on the mobile phone support 23, the upper rotating disc 241 and the lower rotating disc 242 are made of plastic materials, a central shaft 243 is fixedly connected to the center of the upper rotating disc 241, the lower rotating disc 242 is provided with a central hole, and the central shaft 243 passes through the central hole of the lower rotating disc 242 and is in rotary connection with the lower rotating disc 242; an annular boss 2431 is arranged on a central shaft 243 below the lower rotary disk 242, a pressure spring 245 with the inner diameter smaller than the outer diameter of the annular boss 2431 is arranged between the annular boss 2431 and the lower rotary disk 242, the pressure spring 245 is sleeved on the central shaft 243, the upper end of the pressure spring is propped against the lower rotary disk 242, and the lower end of the pressure spring is propped against the annular boss 2431; the lower end of the central shaft 243 is sleeved with a copper sleeve 246, the central shaft 243 is a copper column, and the central shaft 243 is in sliding connection with the copper sleeve 246; the charging connector 244 is fixedly installed on the upper rotating disc 241, one conductive line of the charging connector 244 is fixedly connected with the upper rotating disc 241, and the other conductive line of the charging connector 244 is connected with the central shaft 243 and forms sliding connection with the copper sleeve 246.

As shown in fig. 10, an upper contact copper pipe 2491 is inlaid below a charging connector 244 inside an upper rotary disk 241, a lower contact copper pipe 2492 is inlaid inside a lower rotary disk 242 at a position corresponding to the upper contact copper pipe 2491, one conductive line of the charging connector 244 is fixedly connected with the upper contact copper pipe 2491 through an upper connecting arc 2441, and the other conductive line of the charging connector 244 is fixedly connected with the upper contact copper pipe 2491, so that the upper contact copper pipe 2491 is fixedly connected with a central shaft 243 through a lower connecting arc 2442; the upper contact copper pipe 2491 is connected with the lower contact copper pipe 2492 through copper rolling balls 247, and the sphere diameter of the copper rolling balls 247 is larger than the inner diameters of the upper contact copper pipe 2491 and the lower contact copper pipe 2492; the lower contact copper pipes 2492 are connected through the arc-shaped rail grooves 248, and the upper contact copper pipes 2491 buckle the copper rolling balls 247 to roll in an arc shape along the arc-shaped rail grooves 248, so that the upper rotary disc 241 and the lower rotary disc 242 relatively rotate.

The upper rotary disk 241 drives the central shaft 243 to rotate relatively with the lower rotary disk 242, and drives the three charging connectors 244 to realize adjustment of different positions; a charging connector 244 above the charging device 24 at the bayonet 237 is in charging connection with the cell phone; the first rotating shaft 232, the movable supporting plate 233 and the second rotating shaft 234 of the mobile phone support 23 are connected to form a movable degree of freedom in the front-back direction and the up-down direction, so that the mobile phone and the charging connector 244 can be accurately positioned.

As shown in fig. 11 and 12, the shielding strip 13 includes an elastic sealing core 131 and a shielding copper net tube 132 sleeved on the elastic sealing core 131, and the elastic sealing core 131 has a rubber tube structure; the shielding copper mesh tube 132 elastically contracts and expands with the elastic sealing core 131. The shielding copper net 132 is a red copper net pipe with the aperture of 100 meshes.

The intelligent mobile phone shielding cabinet has various modes of fingerprint access, card reading access, bar code access, number input and taking and the like, has various functions of shielding signals, illumination, charging and the like when the mobile phone is taken, and has strong practicability and wide application range.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as noted above, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims

1. A smart mobile phone shielding cabinet which characterized in that: the novel intelligent cabinet comprises a cabinet body (1), a plurality of storage boxes (11) arranged on the cabinet body (1) and a cabinet door (20) arranged on the outer side of the storage boxes (11), wherein one end of the cabinet door (20) is hinged with the cabinet body (1), an electric control lock (8) is arranged on the inner side wall of the other end of the cabinet door, and an electric control lock catch (9) corresponding to the electric control lock (8) is arranged on the outer side of an opening of the storage boxes (11); the front wall of the cabinet body (1) is provided with a display screen (3), a card reader (4), a touch keyboard (5) and a deposit button (6); an inner shielding cabinet (18) is arranged in the storage compartment (11), the side edge of a cabinet opening of the inner shielding cabinet (18) is hinged with one side edge of the inner shielding door (10), and the other side edge of the inner shielding door (10) and a door-absorbing magnet (12) arranged on the end face of the cabinet opening of the inner shielding cabinet (18) form a strong magnetic door-absorbing structure; a shielding strip (13) is arranged on the end face of the cabinet opening of the inner shielding door (10); a shielding cloth (14) is arranged in the inner shielding cabinet (18), and flannelette (15) is paved on the inner side of the shielding cloth (14); the outer side wall of the box door (20) is provided with a box door identification code (16), a box door opening and closing shock-absorbing buffer pad (17) is further arranged at the port of the storage box (11), and the box door (20) is connected with the box body (1) in a rotating shaft manner through a door pin (19);

the shielding strip (13) is of a rectangular structure, a rectangular clamping groove is formed in the end face of a cabinet opening of the inner shielding cabinet (18), and the shielding strip (13) is inlaid in the rectangular clamping groove; the shielding strip (13) comprises an elastic sealing core (131) and a shielding copper net pipe (132) sleeved on the elastic sealing core (131), and the elastic sealing core (131) is of a rubber pipe structure; the shielding copper net pipe (132) elastically contracts and expands along with the elastic sealing core (131);

a lighting device (22) is arranged in the inner shielding cabinet (18), and a trigger switch (21) for controlling the lighting device (22) is arranged at a cabinet opening below the door-absorbing magnet (12); the trigger switch (21) controls the lighting device (22) to be turned on when the inner shielding door (10) is opened, and controls the lighting device (22) to be turned off when the inner shielding door (10) is closed;

the trigger switch (21) comprises a touch head (211) positioned outside the counter, and a touch rod (212) with the outer end connected with the touch head (211), wherein the inner end of the touch rod (212) is fixedly connected with a copper bowl contact (216), the touch rod (212) is fixedly connected to the bottom of the bowl outside the copper bowl contact (216), and the touch rod (212) is an insulating rod; a copper pipe contact (215) is sleeved on a contact rod (212) at the inner side of the copper bowl contact (216), an insulating material is coated outside the copper pipe contact (215), and the copper pipe contact (215) is fixedly connected inside the inner shielding cabinet (18); the touch rod (212) is fixedly connected with the cabinet body at the cabinet opening through a first sliding sleeve (213), and a second sliding sleeve (217) is arranged on the inner side of a copper pipe contact (215) at the inner end of the touch rod (212); a touch spring (214) is arranged between the touch head (211) and the first sliding sleeve (213), a lubricant is arranged between the touch rod (212) and the first sliding sleeve (213) and the second sliding sleeve (217), and under the action of external force and the touch spring (214), the touch rod (212) can reciprocate along the first sliding sleeve (213) and the second sliding sleeve (217); one circuit of the lighting device (22) is communicated with the copper bowl contact (216) and then communicated with the copper pipe contact (215): when the inner shielding door (10) is closed, the contact pressure head (211) is pressed, the bowl cambered surface of the copper bowl contact (216) is separated from contact with the copper pipe contact (215), the circuit is disconnected, and the lighting device (22) is turned off; when the inner shielding door (10) is opened, under the action of the elastic force of the pressing spring (214), the pressing rod (212) is stretched outwards, so that the bowl cambered surface of the copper bowl contact (216) is tightly contacted with the copper pipe contact (215), a circuit is completed, and the lighting device (22) is lighted.

2. The smart phone shielding cabinet according to claim 1, wherein: an emergency box opening mechanical lock (2) is arranged on the cabinet body (1); the card reader (4) is used for reading a storage certificate, and the storage certificate is an electronic induction card or a temporarily generated bar code or a two-dimensional code; the touch keyboard (5) is used for inputting a bar code and a picking code on a two-dimensional code; the registering button (6) is connected with an electronic lock control system for opening the box door (20); the display screen (3) is used for displaying a stored door identification code (16); the lower part of the registering button (6) is also provided with a fingerprint reading device (7), and the fingerprint reading device (7) is connected with an electronic lock control system for opening the box door (20).

3. The smart phone shielding cabinet according to claim 1, wherein: the shielding cloth (14) is silver-plated fiber knitted cloth or silver-plated fiber non-woven cloth.

4. The smart phone shielding cabinet according to claim 1, wherein: the utility model provides an interior shielding cabinet (18) internally mounted has cell phone stand (23), cell phone stand (23) include base (231), perpendicular fixed connection is in stabilizer blade, first pivot (232), second pivot (234), movable support board (233), cell-phone cardboard (235) of base (231), upper end and first pivot (232) on the stabilizer blade are connected, first pivot (232) and second pivot (234) are connected to movable support board (233), second pivot (234) still with cell-phone cardboard (235) fixed connection, cell-phone cardboard (235)'s terminal both sides have crooked ascending cell-phone supporting leg (236), the centre of cell-phone cardboard (235) terminal has bayonet socket (237).

5. The smart phone shielding cabinet according to claim 4, wherein: the bayonet (237) of cell phone stand (23) department installs charging device (24), charging device (24) are including circular shape rotary disk, the side of rotary disk is provided with three each other and is 120 charging connector (244), and three charging connector (244) are respectively: micro USB interface, USBType C interface, lightning interface.

6. The smart phone shielding cabinet according to claim 5, wherein: the rotary disc of the charging device (24) comprises an upper rotary disc (241) and a lower rotary disc (242), the lower rotary disc (242) is fixedly arranged on the mobile phone support (23), the upper rotary disc (241) and the lower rotary disc (242) are made of plastic materials, the center of the upper rotary disc (241) is fixedly connected with a central shaft (243), the lower rotary disc (242) is provided with a central hole, and the central shaft (243) penetrates through the central hole of the lower rotary disc (242) and is in rotary connection with the lower rotary disc (242); an annular boss (2431) is arranged on a central shaft (243) below the lower rotating disc (242), a pressure spring (245) with the inner diameter smaller than the outer diameter of the annular boss (2431) is arranged between the annular boss (2431) and the lower rotating disc (242), the pressure spring (245) is sleeved on the central shaft (243), the upper end of the pressure spring is propped against the lower rotating disc (242), and the lower end of the pressure spring is propped against the annular boss (2431); the lower end of the central shaft (243) is sleeved with a copper sleeve (246), the central shaft (243) is a copper column, and the central shaft (243) is in sliding connection with the copper sleeve (246); the charging connector (244) is fixedly arranged on the upper rotating disc (241), one conductive line of the charging connector (244) is fixedly connected with the upper rotating disc (241), and the other conductive line of the charging connector (244) is connected with the central shaft (243) and is in sliding connection with the copper sleeve (246).

7. The smart phone shielding cabinet of claim 6, wherein: an upper contact copper pipe (2491) is inlaid below a charging connector (244) in the upper rotary disk (241), a lower contact copper pipe (2492) is inlaid in the lower rotary disk (242) at a position corresponding to the upper contact copper pipe (2491), one conductive line of the charging connector (244) is fixedly connected through an upper connecting arc line (2441), the other conductive line of the charging connector (244) is fixedly connected with the upper contact copper pipe (2491), and then the upper contact copper pipe (2491) is fixedly connected with the central shaft (243) through a lower connecting arc line (2442); the upper contact copper pipe (2491) is connected with the lower contact copper pipe (2492) through copper rolling balls (247), and the sphere diameter of each copper rolling ball (247) is larger than the inner diameters of the upper contact copper pipe (2491) and the lower contact copper pipe (2492); the lower contact copper pipes (2492) are connected through arc-shaped rail grooves (248), and the upper contact copper pipes (2491) buckle copper rolling balls (247) to roll in an arc shape along the arc-shaped rail grooves (248), so that relative rotation of the upper rotary disk (241) and the lower rotary disk (242) is realized.

8. The smart phone shielding cabinet of claim 7, wherein: the upper rotary disk (241) drives a central shaft (243) and the lower rotary disk (242) to rotate relatively, and drives three charging connectors (244) to realize adjustment of different positions; a charging connector (244) above the charging device (24) at the bayonet (237) is in charging connection with the mobile phone; the mobile phone support (23) comprises a first rotating shaft (232), a movable supporting plate (233) and a second rotating shaft (234), which are connected to form a front-back direction and an up-down direction of freedom, so that accurate positioning of the mobile phone and a charging connector (244) is realized.