CN109066907B - Automatic butt-joint type intelligent charging equipment applied to sharing charging of smart phone - Google Patents

Abstract

The invention provides automatic butt-joint type intelligent charging equipment applied to sharing charging of an intelligent mobile phone, which comprises a charging pile for registering and charging the mobile phone, a transporting device for transporting the mobile phone from the outside of the charging pile to the inside of the charging pile for registering, a shielding device for plugging the mobile phone transported to the inside of the charging pile, a correcting device for automatically adjusting the mobile phone transported to the inside of the charging pile, a butt-joint device for driving the adjusted and corrected mobile phone to automatically butt-joint and charge with a charging output end of the charging pile and a controller, wherein the shielding device, the transporting device, the correcting device, the butt-joint device and the controller are all arranged in the charging pile, the transporting device comprises a transporting belt component for transporting the mobile phone from a registering port to the inside of a pile body, a transporting power source for providing power for the motion of the transporting belt component, and a transporting belt component, A transport transmission mechanism between the transport power sources and for transmitting power of the transport power sources to the transport belt member.

Description

Automatic butt-joint type intelligent charging equipment applied to sharing charging of smart phone

Technical Field

The invention relates to a mobile phone charging station, in particular to an automatic butt-joint type intelligent charging device applied to sharing charging of an intelligent mobile phone.

Background

At present, a mobile phone becomes a necessity in people's life, on one hand, the mobile phone facilitates remote communication and communication of a user when the mobile phone is going out on a public road, on the other hand, the mobile phone is used for daily entertainment of the user, if the mobile phone is not used, the user feels uncomfortable, and the mobile phone is embarrassed when the mobile phone is not powered, in order to solve the dilemma, charging interfaces are also provided in various public places at present, such as a bus station, a railway station, a large supermarket, a chain fast food store, entertainment places and the like, so that the user can replenish electric quantity at any time, the arrangement is really convenient for the life of the user, but the arrangement seems a common event hides a very large potential safety hazard, for example, the mobile phone is exposed during the charging process of the mobile phone by using the charging interface in the public place, the mobile phone is very easy to be stolen, therefore, in the process of charging the mobile phone by using the public charging interface, the user is prevented from being unable to leave the mobile phone due to theft of the mobile phone, which wastes a large amount of time of the user.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the automatic docking type intelligent charging equipment which is ingenious in structure, simple in principle, convenient to use, capable of hermetically storing the mobile phone and automatically completing the docking and charging of the mobile phone during the sealed storage and is applied to the sharing and charging of the smart phone.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

An automatic butt-joint type intelligent charging device applied to sharing charging of smart phones comprises a charging pile for registering and charging the phones, a transportation device for transporting the phones from the outside of the charging pile to the inside of the charging pile for registering, a shielding device for plugging the phones transported to the inside of the charging pile, a correction device for automatically adjusting the phones transported to the inside of the charging pile, a butt-joint device for driving the adjusted and corrected phones to automatically butt-joint and charge with the charging output end of the charging pile, and a controller for controlling and coordinating the operation processes of the shielding device, the transportation device, the correction device and the butt-joint device, wherein the shielding device, the transportation device, the correction device, the butt-joint device and the controller are all arranged inside the charging pile, the charging pile comprises a vertical pile body with a rectangular hollow opening arranged towards the back, and a back cover detachably connected and matched with the pile body is arranged at the opening of the pile body, the front side of the pile body, which is far away from the opening, is provided with a deposit opening communicated with the interior of the pile body, the deposit opening is horizontally arranged and matched with the size of a mobile phone, a charging plug which is arranged corresponding to the deposit opening is horizontally arranged on the inner wall of the rear cover, the charging plug is communicated with a main power supply, a shielding device is arranged on the inner wall of the pile body and used for shielding and plugging the deposit opening, a transportation device is arranged between the deposit opening and the charging plug, the top of the pile body is provided with a touch system, the touch system is used for self-service of a user, and signal connection is established among the touch system, the main power supply and a controller;

the transportation device comprises a transportation belt member used for transporting the mobile phone to the interior of the pile body from the storage opening, a transportation power source used for providing power for the movement of the transportation belt member, and a transportation transmission mechanism arranged between the transportation belt member and the transportation power source and used for transmitting the power of the transportation power source to the transportation belt member;

the conveyer belt component comprises a circular movable plate horizontally arranged in the pile body, a rotating shaft is coaxially arranged on the lower end face of the movable plate, a first roller shaft and a second roller shaft which are arranged to be far away from each other are horizontally arranged above the upper end face of the movable plate, the axial directions of the first roller shaft and the second roller shaft are both vertical to the opening direction of the deposit port, a first supporting frame for supporting the first roller shaft is arranged at each of two ends of the first roller shaft along the length direction of the first roller shaft, a second supporting frame for supporting the second roller shaft is arranged at each of two ends of the second roller shaft along the length direction of the second roller shaft, the first supporting frame and the second supporting frame are both fixedly arranged on the movable plate, a first roller is coaxially arranged outside the first roller shaft, a second roller is coaxially arranged outside the second roller shaft, a conveyer belt for connecting the first roller and the second roller is arranged between the deposit port and the charging plug, and the belt surface on, when the conveyer belt conveys the mobile phone into the pile body from the deposit opening, the conveyer belt automatically stops running, and therefore the conveyer belt component further comprises a first image sensor arranged on the inner wall of the pile body, signal connection is established between the first image sensor and the controller, and the first image sensor is positioned right above the first roller/the second roller close to the deposit opening;

the transportation power source is arranged at the middle position of the movable plate, the transportation power source comprises a transportation motor fixedly arranged on the upper end surface of the movable plate, the output end of the transportation motor is parallel to the opening direction of the deposit opening, the output end is connected with a worm, a third support frame is arranged between one end of the worm, which deviates from the transportation motor, and the movable plate, and the third support frame is fixedly arranged on the movable plate, the worm is rotatably arranged on the third support frame, a transportation main shaft which is arranged perpendicular to the axis direction of the worm is horizontally arranged above the worm, four support frames for supporting the transportation main shaft are arranged at the two ends of the transportation main shaft along the length direction, the four support frames are fixedly arranged on the movable plate, a turbine is coaxially sleeved at the middle position of the transportation main shaft along the length direction, the turbine is meshed with, one of the conveying transmission mechanisms is arranged between one of the power output ends and the first roller shaft/the second roller shaft, the other conveying transmission mechanism is arranged between the other power output end and the second roller shaft/the first roller shaft, and the two conveying transmission mechanisms are respectively arranged on one side of the conveying belt;

the conveying transmission mechanism comprises an input belt wheel arranged at one end of the conveying main shaft, an output belt wheel arranged at one end of the first roller shaft/the second roller shaft and a belt arranged between the input belt wheel and the output belt wheel and used for transmitting the power of the input belt wheel to the output belt wheel.

The shielding device comprises a shielding door component and a shielding driving mechanism, wherein the shielding door component is used for shielding and plugging the deposit opening, the shielding door component is arranged between two side walls of the pile body and corresponds to the deposit opening, the shielding driving mechanism is arranged on the inner wall of the pile body, the power output end of the shielding door component is connected with the shielding door component, the shielding door component is set into an open state, a clamping state and a plugging state which can be mutually switched, the plugging state is that the shielding door component plugs the deposit opening, the open state is that the shielding door component removes the plugging of the deposit opening, the clamping state is that the shielding door component is between the open state and the plugging state and is used for carrying out intermittent clamping correction on a mobile phone, and the shielding driving mechanism is used for driving the shielding door component to be mutually switched among the open state, the;

the shield door component include that the level sets up the guide bar between the wall of pile body both sides and the opening direction of the axis direction perpendicular to deposit port of guide bar, the guide bar is provided with two and upper and lower symmetrical arrangement, the cover is equipped with the shield door on the guide bar, the shield door constitutes the slip guide cooperation with the guide bar phase-match and along the axis direction of guide bar, the shield door is provided with two and along the opening direction bilateral symmetry of deposit port and arranges, the shield door that bilateral symmetry arranged mutually supports and is used for shielding the shutoff to the deposit port, the outside cover of guide bar is equipped with reset spring one, reset spring one's one end is contradicted with the shield door that is located left, the other end is contradicted with the shield door that is located the right side and the shield door that reset spring one promoted bilateral symmetry all the time.

The correcting device comprises a rotating mechanism for driving the conveying device to rotate and a detecting mechanism for identifying the azimuth information of the charging socket of the mobile phone, the rotating mechanism is arranged below the conveying device, the detecting mechanism is arranged on the butting device and extends to the upper end face of the conveying belt, the detecting end of the detecting mechanism is arranged corresponding to the charging plug, the rotating mechanism comprises a rectangular fixing plate which is arranged below the movable plate and is parallel to the movable plate, the controller is arranged on the lower end face of the fixing plate, a correcting stepping motor is arranged on the lower end face of the fixing plate, the output end of the correcting stepping motor is vertically arranged and extends to the upper side of the fixing plate, a driving gear II is coaxially arranged at the position of the output end of the correcting stepping motor, a driven gear II is coaxially arranged outside the rotating shaft and is meshed with the driven gear II, and the detecting, the sliding plate is provided with a first sliding sleeve and a second sliding sleeve which are sleeved outside the butt joint device in a sliding manner along the opening direction deviating from the deposit opening, the sliding plate is provided with two sliding grooves which are symmetrically arranged along the opening direction deviating from the deposit opening, each sliding groove comprises a horizontal section and an inclined section which are sequentially arranged along the opening direction deviating from the deposit opening and are communicated with each other, the distance between each inclined section and the deposit opening is gradually reduced from bottom to top along the vertical direction, a sliding rod is arranged between the two guiding grooves and forms sliding guide fit along the guiding direction of the guiding grooves, a hanging rod which is vertically and downwardly arranged is arranged at the middle position of the sliding rod along the length direction, the bottom end of the hanging rod is connected with a mounting plate which is horizontally arranged, the length direction of the mounting plate is vertical to the opening direction of the deposit opening, an image sensor II is connected and arranged at the, the image sensor II is connected with the controller through a signal, lower pressing blocks are arranged at two ends of the lower end face of the mounting plate along the length direction, guide assemblies along the vertical direction are arranged between the mounting plate and the butt joint device, the guide assemblies are arranged in two groups and are symmetrically arranged along the opening direction of the deposit opening, each guide assembly comprises a guide column I and a guide sleeve I, the guide column I is arranged on the upper end face of the mounting plate, the guide sleeve I is arranged on the butt joint device, and the guide column I is matched with the guide sleeve I and forms sliding guide matching along the vertical direction.

The docking device is arranged above the conveying device and comprises a pushing mechanism for pushing the mobile phone to enable the charging socket of the mobile phone to be automatically docked and charged with the charging plug, an avoiding member for pushing the detection mechanism to move upwards and a reset mechanism for driving the charging socket of the mobile phone and the charging plug to be separated and disengaged from each other;

the pushing mechanism comprises two guide rods horizontally arranged between the inner wall of the pile body and the inner wall of the rear cover, the two guide rods are symmetrically arranged along the opening direction of the deposit opening, a first guide sleeve is arranged outside the guide rods, a first sliding sleeve and a second sliding sleeve are sleeved outside the guide rods, the sliding sleeve is positioned between the first guide sleeve and the rear cover, a butt sliding plate is arranged between the two guide rods and is close to the deposit opening, the butt sliding plate is sleeved outside the guide rods and forms sliding guide fit along the axial direction of the guide rods, a pushing block for pushing the mobile phone to move towards the charging plug is arranged right below the butt sliding plate, the two pushing blocks are symmetrically arranged along the opening direction of the deposit opening, the two pushing blocks are arranged at intervals, the distance between the two pushing blocks is D, and one end face of the pushing block, which is far away from the deposit opening, is provided with a limiting plate which is horizontally arranged, the limiting plate and the mobile phone parked on the upper end face of the conveying belt are arranged at a distance, a lower pressing rod used for connecting the limiting plate and the butt-joint sliding plate is arranged between the limiting plate and the butt-joint sliding plate, the lower pressing rod is provided with two lower pressing rods which are symmetrically arranged along the opening direction of the deposit opening, one end face of the butt-joint sliding plate, which is far away from the deposit opening, is provided with a lug, the lower pressing rods are matched with the lug and form sliding guide fit along the vertical direction, the bottom end of each lower pressing rod is fixedly connected with the upper end face of the limiting plate, the top end of each lower pressing rod is provided with a limiting rod used for limiting the sliding of the lower pressing rod, a trigger spring is sleeved outside the lower pressing rod, one end of the trigger spring is abutted against the lug, the other end of the trigger spring is abutted against the limiting plate, the elasticity of the trigger spring is always directed to the limiting plate by, the distance between the second inclined plane and the deposit opening is gradually reduced from bottom to top along the vertical direction, the distance between the third inclined plane and the deposit opening is gradually increased from bottom to top along the vertical direction, the second inclined plane is matched with the three inclined planes, when the shielding door is mutually attached and closed, the distance between the third inclined plane is smaller than the distance D between the two pushing blocks, a butt joint motor is arranged on the inner wall of the pile body, signal connection is established between the butt joint motor and the controller, the output end of the butt joint motor deviates from the opening direction of the deposit opening and is arranged, the end position of the output end is coaxially provided with a lead screw, the lead screw is rotatably arranged between the two guide rods, and the lead screw is in threaded connection fit with the middle position.

Compared with the prior art, the mobile phone charging system has the advantages of ingenious structure, simple principle and convenience in use, can be used for hermetically storing the mobile phone, automatically corrects the position of the mobile phone in the storing process and enables the mobile phone charging socket to correspond to the charging plug of the charging station, and then the mobile phone charging socket is automatically butted with the charging plug of the charging station, so that the mobile phone is automatically charged while being hermetically stored.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive effort.

FIG. 1 is a schematic structural diagram of an initial state of the present invention.

Fig. 2 is a schematic structural diagram of the working state of the present invention.

Fig. 3 is a schematic view of the internal structure of the present invention.

Fig. 4 is a schematic view of the internal structure of the present invention.

Fig. 5 is a schematic structural diagram of a charging pile.

Fig. 6 is a schematic structural diagram of a charging pile.

Fig. 7 is an internal structure diagram of the charging pile.

Fig. 8 is a view of the connection of the shielding device to the transportation device.

Fig. 9 is a schematic structural view of the shielding device.

Fig. 10 is a schematic structural view of the shielding device.

Fig. 11 is a schematic view of a shield door member.

Fig. 12 is a connection diagram of the shield driving mechanism and the shield door member.

Fig. 13 is a partial structural view of the shield driving mechanism.

Fig. 14 is a partial structural view of the shield driving mechanism.

Fig. 15 is a partial structural view of the shield driving mechanism.

Fig. 16 is a partial structural view of the shield driving mechanism.

Fig. 17 is a schematic structural view of the transportation device.

Fig. 18 is a schematic view of a structure of a conveyor belt member.

Fig. 19 is a connection diagram of the transport transmission mechanism and the transport power source.

Fig. 20 is a connection diagram of the transport transmission mechanism and the transport power source.

Fig. 21 is a connection diagram of the correcting device and the transporting device.

Fig. 22 is a connection diagram of the rotating mechanism and the transport device.

Fig. 23 is an enlarged view at a in fig. 22.

Fig. 24 is a schematic structural view of the detection mechanism.

Fig. 25 is a partial structural view of the detection mechanism.

Fig. 26 is a view of the docking assembly in cooperation with the shielding assembly.

Fig. 27 is a view showing the mating of the docking unit and the shielding unit.

FIG. 28 is a view of the engagement between the pushing mechanism and the shield door member.

Fig. 29 is a partial structural schematic view of the pushing mechanism.

Fig. 30 is a partial structural schematic view of the pushing mechanism.

Fig. 31 is a partial structural schematic view of the pushing mechanism.

FIG. 32 is a view of the engagement between the pushing mechanism and the shield door member.

Fig. 33 is a partial structural schematic view of the pushing mechanism.

Fig. 34 is a view showing the cooperation of the bypass member and the detecting mechanism.

Fig. 35 is a view showing the cooperation of the reset mechanism and the detection mechanism.

Fig. 36 is a partial structural view of the return mechanism.

Fig. 37 is a partial structural view of the return mechanism.

Detailed Description

Referring to fig. 1 to 37, an adaptive automatic docking mobile phone charging station applied to public places includes a charging pile 100 for depositing and charging a mobile phone, a transportation device 300 for transporting the mobile phone from the outside of the charging pile 100 to the inside of the charging pile 100 for depositing, a shielding device 200 for plugging the mobile phone transported to the inside of the charging pile 100, a correction device 400 for automatically adjusting the mobile phone transported to the inside of the charging pile 100, a docking device 500 for driving the adjusted and corrected mobile phone to automatically dock and charge with a charging output end of the charging pile 100, and a controller 600 for controlling the running process of the coordination shielding device 200, the transportation device 300, the correction device 400, the docking device 500, and the controller 600, wherein the shielding device 200, the transportation device 300, the correction device 400, the docking device 500, and the controller 600 are all disposed inside the charging pile 100.

In the process of depositing and charging a mobile phone, a user starts the transportation device 300, the mobile phone is close to the transportation device 300 with the front face upward, the transportation device 300 transports and stores the mobile phone inside the charging pile 100 from the outside of the charging pile 100, the shielding device 200 and the charging pile 100 are matched with each other for plugging and storing the mobile phone, then the correction device 400 detects the orientation of the mobile phone and automatically adjusts and corrects the orientation of the mobile phone to enable a charging socket of the mobile phone to be arranged corresponding to the charging output end of the charging pile 100, the docking device 500 is started, the docking device 500 drives the charging socket of the mobile phone to be automatically docked with the charging output end of the charging pile 100, the mobile phone is in a charging and depositing state; when the mobile phone is fully charged with electric energy, the shielding device 200 and the charging pile 100 are used for removing the blockage of the mobile phone, the docking device 500 is started to enable the mobile phone charging socket and the charging output end of the charging pile 100 to be automatically disconnected and reset, then the transporting device 300 is started, and the mobile phone is transported to the outside of the charging pile 100 by the transporting device 300 from the inside of the charging pile 100.

Referring to fig. 5-7, the charging pile 100 includes a vertical pile 101 with a rectangular hollow opening arranged backward, a rear cover 102 detachably connected and matched with the opening of the pile 101 is disposed at the opening of the pile 101, a register 104 communicated with the inside of the pile 101 is disposed on the front side of the pile 101 away from the opening, the register 104 is horizontally arranged and matched with the size of the mobile phone, a charging plug 105 corresponding to the register 104 is horizontally disposed on the inner wall of the rear cover 102, the charging plug 105 is connected and communicated with the main power supply, a shielding device 200 is disposed on the inner wall of the pile 101 and used for shielding and sealing the register 104, a transportation device 300 is disposed between the register 104 and the charging plug 105, a touch system 103 is disposed on the top of the pile 101 and used for self-service of a user, the touch system 103 and the main power supply, the controllers 600 are all connected by signals.

Specifically, referring to fig. 6, in order to facilitate the user to overhaul and maintain the charging pile 100 and the device disposed inside the charging pile 100, an access opening 106 is formed in the side surface of the pile body 101, and an access cover 107 which is matched with the access opening 106 and is matched with the access opening is disposed on the access opening 106.

In the process of registering and charging, a user operates the touch system 103 to autonomously select a charging mode, the user can select a fixed-amount charging mode or a fixed-time charging mode according to the self requirement, the user pays after the mode selection is completed, at the moment, the touch system 103 sends a signal instruction to the main power supply and enables the main power supply to supply power to the charging plug 105, the user operates the touch system 103 to send an instruction to the controller 600, the controller 600 controls the shielding device 200 to be started to cancel shielding and plugging of the register port 104, the controller 600 controls the transportation device 300 to be started, the transportation device 300 enters a working state, the user inserts the screen of the mobile phone upwards and horizontally into the register port 104, the mobile phone inserted into the register port 104 is contacted with the transportation device 300, the transportation device 300 transports the mobile phone into the pile body 101 through the register port 104, and the transportation device 300 is automatically closed and stopped, the shielding device 200 shields and seals the deposit port 104, the correction device 400 detects the orientation of the mobile phone and automatically adjusts and corrects the orientation so that the mobile phone charging socket and the charging plug 105 are arranged correspondingly, the docking device 500 is started, the docking device 500 drives the mobile phone charging socket to be automatically docked with the charging plug 105, a user can set a password through the touch system 103 and lock the touch system 103, at the moment, the mobile phone is in a deposit charging state, and the user can leave to process private affairs without waiting in place; when the mobile phone is fully charged with electric energy, the user wakes up the touch system 103 by inputting a password, controls the docking device 500 to release the docking between the mobile phone charging jack and the charging plug 105, controls the shielding device 200 to release the shielding and plugging of the register 104, and transports the mobile phone from the register 104 to the outside of the pile body 101 by the transporting device 300.

Referring to fig. 8-16, the shielding apparatus 200 includes a shielding door member 210 for shielding and blocking the depositing port 104, and a shielding driving mechanism 220, the shielding door member 210 is disposed between two sidewalls of the pile body 101 and corresponds to the depositing port 104, the shielding driving mechanism 220 is disposed on an inner wall of the pile body 101 and a power output end is connected to the shielding door member 210, the shielding door member 210 is configured to be switchable between an open state, a clamping state and a blocking state, the blocking state is that the shielding door member 210 blocks the depositing port 104, the shielding door member 210 is in an open state to block the register port 104, the shielding door member 210 is in a clamped state between the open state and the blocked state to perform intermittent clamping correction on the mobile phone, and the shielding driving mechanism 220 is used for driving the shielding door member 210 to be switched among the open state, the clamped state and the blocked state.

Specifically, referring to fig. 11, the shield door member 210 includes two guide rods 211 horizontally disposed between two sidewalls of the pile body 101, and an axial direction of the guide rods 211 is perpendicular to an opening direction of the register port 104, the two guide rods 211 are disposed and vertically symmetrically disposed, a shield door 212 is sleeved on the guide rods 211, the shield door 212 is matched with the guide rods 211 and forms a sliding guiding fit along the axial direction of the guide rods 211, the shield doors 212 are disposed and laterally symmetrically disposed along the opening direction of the register port 104, the shield doors 212 symmetrically disposed on the left and right cooperate with each other to shield and seal the register port 104, a first return spring 213 is sleeved outside the guide rods 211, one end of the first return spring 213 butts against the shielding door 212 positioned on the left side, the other end butts against the shielding door 212 positioned on the right side, and the elastic force of the first return spring 213 always pushes the shielding doors 212 which are symmetrically arranged left and right to move away from each other.

Referring to fig. 12 to 16, in the depositing process, the shield door member 210 is initially in an open state, a user inserts a mobile phone into the depositing port 104 and between the shield doors 212 symmetrically arranged in the left and right directions, at this time, the shield driving mechanism 220 is started, the mobile phone limits the movement of the two shield doors 212, the shield driving mechanism 220 drives the shield door member 210 to reciprocate between the open state and the clamping state, in the reciprocating process, the mobile phone located between the two shield doors 212 is intermittently clamped and corrected, the charging jack of the mobile phone and the charging plug 105 are aligned along the opening direction of the depositing port 104, in order to avoid clamping damage to the mobile phone caused by the shield doors 212 in the correcting process, the output end of the shield driving mechanism 220 is elastically connected to the shield door member 210.

Specifically, the shielding driving mechanism 220 is provided with two sets and is arranged in bilateral symmetry along the opening direction of the register port 104, the shielding driving mechanism 220 located on the left side is used for driving the shielding door member 210 located on the left side, the shielding driving mechanism 220 located on the right side is used for driving the shielding door member 210 located on the right side, the shielding driving mechanism 220 includes a slider 221 sleeved on the guide rod 211, the slider 221 is located on the outer side of the shielding door 212, the slider 221 is matched with the guide rod 211, the axial direction of the guide rod 211 forms a sliding guide fit, a driving spring 222 is sleeved outside the guide rod 211, one end of the driving spring 222 is abutted against the slider 221, the other end is abutted against the shielding door 212 adjacent to the slider 221, and the elastic force of the driving spring 222 always pushes the slider 221 and the shielding, the movement of the shielding doors 212 toward/away from each other is controlled by the left and right sliding of the driving slider 221.

More specifically, in order to be able to drive the slider 221 to slide left and right, a shielding motor 223 is disposed on the inner wall of the pile body 101, the output end of the shielding motor 223 is parallel to the opening direction of the register opening 104 and the end position of the output end is coaxially disposed with a first driving gear 224, the first driving gear 224 is engaged with a first driven gear 225 rotatably disposed on the inner wall of the pile body 101 and the axial direction of the first driven gear 225 is parallel to the opening direction of the register opening 104, the first driven gear 225 is coaxially disposed with a rotating sleeve 226, a crank connecting rod assembly 227 for driving the slider 221 to slide left and right is disposed between the rotating sleeve 226 and the slider 221, the crank 227 comprises a crank shaft 228a and the axial direction of the crank shaft 228a is parallel to the opening direction of the register opening 104, the crank shaft 228a is disposed with two crank connecting rods 228b and is symmetrically disposed along the axial direction parallel to the guide rod 211, the crank connecting rod assemblies, a connecting rod 229 is arranged between the two cranks 228b, one end of the connecting rod 229 is hinged with one end of the crank 228b opposite to the crank shaft 228a, the axial direction of the hinged shaft is parallel to the opening direction of the deposit opening 104, the other end of the connecting rod 229 is hinged with the sliding block 221, the axial direction of the hinged shaft is parallel to the opening direction of the deposit opening 104, and the rotating sleeve 226 is coaxially and fixedly connected with one crank shaft 228 a.

In the working process of the shielding device 200, the shield door member 210 at the beginning is in an open state, when a user deposits a mobile phone, the mobile phone is inserted into the deposit port 104 and contacts with the transportation device 300, the transportation device 300 transports the mobile phone from the outside of the pile body 101 to the inside of the pile body 101, in the process, when the mobile phone is positioned between the two shield doors 212, the shield door member 210 is in a reciprocating switching between the open state and the clamping state, which is embodied in that the shield motor 223 is started, the output end of the shield motor 223 drives the driving gear one 224 to synchronously rotate, the driving gear one 224 drives the driven gear one 225 to rotate around the self axial direction, the driven gear one 225 drives the rotating sleeve 226 to rotate around the self axial direction, the rotating sleeve 226 drives the crank connecting rod assembly 227 to move, the crank connecting rod assembly 227 drives the sliding blocks 221 to mutually approach to slide along the guide rods 211, and the driving springs 222 are extruded when the sliding blocks, the driving spring 222 is gradually compressed and the elastic potential energy is increased, the driving spring 222 pushes the two shielding doors 212 to move close to each other, the first return spring 213 is gradually compressed and the elastic potential energy is increased, the shielding door members 210 move close to each other to switch to the clamping state and correct the mobile phone, then the crank connecting rod assembly 227 drives the sliding blocks 221 to slide away from each other along the guide rods 211, the sliding blocks 211 slide away from the shielding doors 212 and squeeze the driving spring 222, the elastic potential energy of the first return spring 213 is gradually released and pushes the shielding doors 212 to slide away from each other, the shielding door members 210 are switched from the clamping state to the opening state, the shielding door members 210 are switched between the opening state and the clamping state until the mobile phone is separated from the two shielding doors 212, at the moment, the shielding door members 210 are switched to the blocking state, specifically, the crank connecting rod assembly 227 drives the sliding blocks 221 to slide close to each other along, when the slider 211 slides close to the shield door 212, the driving spring 222 is pressed, the driving spring 222 is gradually compressed and the elastic potential energy is increased, the driving spring 222 pushes the two shield doors 212 to move close to each other and the two shield doors 212 are attached to each other, the first return spring 213 is gradually compressed and the elastic potential energy is increased, and the shield door member 210 is switched to the blocking state.

Referring to fig. 17 to 20, the transportation apparatus 300 includes a transportation belt member 310 for transporting the mobile phone from the storage opening 104 to the inside of the post 101, a transportation power source 330 for providing power to the transportation belt member 310, and a transportation transmission mechanism 320 disposed between the transportation belt member 310 and the transportation power source 330 and for transmitting the power of the transportation power source 330 to the transportation belt member 310.

Referring to fig. 18, the conveyer belt member 310 includes a circular movable plate 311 horizontally disposed inside the pile body 101, a rotating shaft 312 is coaxially disposed on a lower end surface of the movable plate 311, a first roller shaft 313 and a second roller shaft 315 disposed apart from each other are horizontally disposed above an upper end surface of the movable plate 311, and both axial directions of the first roller shaft 313 and the second roller shaft 315 are parallel to an axial direction of the guide rod 211, both ends of the first roller shaft 313 along a length direction thereof are respectively provided with a first supporting frame 313a for supporting the first roller shaft 313, both ends of the second roller shaft 315 along the length direction thereof are respectively provided with a second supporting frame 315a for supporting the second roller shaft 315, both the first supporting frame 313a and the second supporting frame 315a are fixedly mounted on the movable plate 311, a first roller 314 is coaxially disposed outside the first roller shaft 313, a second roller 316 is coaxially disposed outside the second roller shaft 325, a conveyer belt 317 for connecting the first roller 314 and the second roller 316 is, in order to avoid the slipping of the conveyer belt 317 during the transportation of the mobile phone, the surface of the conveyer belt 317 is provided with anti-slip threads, the conveyer belt 317 is arranged between the register 104 and the charging plug 105, the upper belt surface of the conveyer belt 317 is arranged flush with the lower edge of the register 104, when the conveyer belt 317 transports the mobile phone from the register 104 to the inner part of the pile body 101, the conveyer belt 317 stops automatically, for this purpose, the conveyer belt member 310 further comprises an image sensor one 318 arranged on the inner wall of the pile body 101, a signal connection is established between the image sensor one 318 and the controller 600, and the image sensor one 318 is positioned right above the first roller 314/the second roller 316 close to the register 104.

Referring to fig. 19 to 20, the transportation power source 330 is disposed at the middle position of the movable plate 311, the transportation power source 330 includes a transportation motor 331 fixedly disposed on the upper end surface of the movable plate 311, an output end of the transportation motor 331 is parallel to the opening direction of the register opening 104 and is provided with a worm 332 in a connected manner, a third support frame 333 is disposed between one end of the worm 332 facing away from the transportation motor 331 and the movable plate 311, the third support frame 333 is fixedly mounted on the movable plate 311, the worm 332 is rotatably disposed on the third support frame 333, a transportation spindle 334 disposed perpendicular to the axial direction of the worm 322 is horizontally disposed above the worm 332, four support frames 335 for supporting the transportation spindle 334 are disposed at both ends of the transportation spindle 334 along the length direction and are fixedly mounted on the movable plate 311, a turbine 336 is coaxially sleeved at the middle position of the, the worm gear 336 is engaged with the worm 332, two ends of the transportation main shaft 334 along the length direction are both power output ends, two groups of transportation transmission mechanisms 320 are arranged, one transportation transmission mechanism 320 is arranged between one power output end and the first roller shaft 313/the second roller shaft 315, the other transportation transmission mechanism 320 is arranged between the other power output end and the second roller shaft 315/the first roller shaft 313, and in order to reduce vibration generated when the transportation transmission mechanisms 320 operate, the two transportation transmission mechanisms 320 are respectively arranged on one side of the transportation belt 317.

Specifically, the transportation transmission mechanism 320 includes an input pulley 321 disposed at one end of the transportation main shaft 334, an output pulley 322 disposed at one end of the first roller shaft 313/the second roller shaft 325, and a belt 323 disposed between the input pulley 321 and the output pulley 322 and used for transmitting the power of the input pulley 321 to the output pulley 322.

During the operation of the transportation device 300, the mobile phone is transported from the outside of the pile body 101 to the inside of the pile body 101, which is specifically shown in that the controller 600 drives the transportation motor 331 to rotate forward, the transportation motor 331 drives the worm 332 to rotate forward around its own axis, the worm 332 drives the turbine 336 to rotate forward around its own axis, the turbine 336 drives the transportation main shaft 334 to rotate forward around its own axis, the transportation main shaft 334 drives the input belt pulley 321 to rotate synchronously around its own axis, the belt 323 transmits the power of the input belt pulley 321 to the output belt pulley 322 and drives the output belt pulley 322 to rotate forward around its own axis, the output belt pulley 322 drives the first roller 313/the second roller 316 to rotate forward around its own axis, the first roller 313 drives the first roller 314 to rotate forward around its own axis and the second roller 315 drives the second roller 316 to rotate forward around its own axis, the first roller 314 and the second roller 316 drive the upper end face of the transportation belt 317 to move from the register 104 toward the charging plug 105, at the moment, the mobile phone is inserted into the register 104 with the right side facing up horizontally, the mobile phone inserted into the register 104 is in contact with the upper end face of the conveying belt 317, the conveying belt 317 conveys the mobile phone into the pile 101, at the moment, the image sensor I318 detects that the mobile phone is actively conveyed into the pile 101 and generates a signal instruction to the controller 600, the controller 600 closes the conveying motor 331, the mobile phone is parked at the upper end face of the conveying belt 317, then the correcting device 400 corrects the mobile phone, the docking device 500 docks and charges the charging socket of the mobile phone with the charging plug 105, after the charging is finished, the mobile phone is conveyed from the interior of the pile 101 to the exterior of the pile 101, specifically, the controller 600 drives the conveying motor 331 to rotate reversely, the conveying motor 331 drives the worm 332 to rotate reversely around the axis of the worm 332, the worm 332 drives the turbine 336 to rotate reversely around the axis of the worm 336, and the turbine 336 drives the conveying main shaft 334 to rotate around, the transportation main shaft 334 drives the input belt wheel 321 to rotate around its own axis synchronously, the belt 323 transmits the power of the input belt wheel 321 to the output belt wheel 322 and drives the output belt wheel 322 to rotate around its own axis reversely, the output belt wheel 322 drives the first roller shaft 313/the second roller shaft 316 to rotate around its own axis reversely, the first roller shaft 313 drives the first roller 314 to rotate around its own axis reversely and the second roller shaft 315 drives the second roller 316 to rotate around its own axis reversely, the first roller 314 and the second roller 316 drive the upper end face of the transportation belt 317 to move towards the register opening 104 from the charging plug 105, and the mobile phone is transported to the outside of the pile body 101 from the register opening 104.

Referring to fig. 21-25, when the mobile phone is inserted into the storage opening 104 and transported to the inside of the post 101 by the transportation device 300, two situations are divided, one is that the charging socket end of the mobile phone is firstly inserted into the register port 104, the mobile phone charging socket transported into the pile body 101 corresponds to the charging plug 105, secondly, the mobile phone is firstly inserted into the register port 104 away from the charging socket end, the mobile phone charging socket transported to the pile body 101 needs to rotate 180 degrees and then corresponds to the charging plug 105, therefore, the calibration device 400 includes a rotating mechanism 410 for driving the transportation device 300 to rotate and a detecting mechanism 420 for identifying the orientation information of the charging socket of the mobile phone, the rotating mechanism 410 is disposed below the transportation device 300, the detecting mechanism 420 is disposed on the docking device 500 and extends to the upper end surface of the transportation belt 317, and the detecting end of the detecting mechanism 420 is disposed corresponding to the charging plug 105.

Referring to fig. 22 and 23, the rotating mechanism 410 includes a rectangular fixed plate 411 disposed below the movable plate 311 and parallel to the movable plate, the controller 600 is disposed on a lower end surface of the fixed plate 411, a correction stepping motor 412 is disposed on a lower end surface of the fixed plate 411, an output end of the correction stepping motor 412 is vertically disposed and extends above the fixed plate 411, a driving gear pair 413 is coaxially disposed at an end position of the output end of the correction stepping motor 412, a driven gear pair 414 is coaxially disposed outside the rotating shaft 312, and the driving gear pair 413 is engaged with the driven gear pair 414.

Specifically, in order to avoid the position deviation of the movable plate 311 during the rotation process, the rotating mechanism 410 further includes two limiting components for restricting the rotation of the movable plate 311, the two limiting components are symmetrically arranged along the opening direction of the register port 104, the limiting component comprises a mounting column 415 horizontally arranged between the inner wall of the pile body 101 and the movable plate 311, one end of the mounting column 415 is fixedly connected with the inner wall of the pile body 101, the other end of the mounting column 415 extends towards the movable plate 311 and is freely suspended, a pressure plate 416 is arranged at the end part of the suspended end of the mounting column 415, two pressure plates 416 are arranged symmetrically up and down, the pressure plate 416 positioned at the upper side extends to the upper end face of the movable plate 311, the pressure plate 416 positioned at the lower side extends to the lower end face of the movable plate 311, the pressure plate 416 is provided with a roller 417 which is in contact with the pressure plate 416 in a rotating manner, and the axial direction of the roller 417 is parallel to the axial direction of the mounting column 415.

Referring to fig. 24 and 25, the detecting mechanism 420 includes a sliding plate 421, a first sliding sleeve 422a and a second sliding sleeve 422b slidably sleeved outside the docking device 500 are sequentially disposed on the sliding plate 421 along a direction away from the opening of the register port 104, the sliding plate 421 is provided with two sliding sleeves and symmetrically disposed along the opening direction of the register port 104, the sliding plate 421 is provided with a guiding groove 423, the guiding groove 423 includes a horizontal section and an inclined section sequentially disposed along the opening direction away from the register port 104 and mutually communicated, a distance between the inclined section and the register port 104 gradually decreases from bottom to top along a vertical direction, a sliding rod 424 is disposed between the two guiding grooves 423 and the sliding rod 424 forms a sliding guiding fit along the guiding direction of the guiding groove 423, a hanging rod 425 vertically disposed downward is disposed at a middle position of the sliding rod 424 along a length direction, a mounting plate 426 horizontally disposed is connected to a bottom end of the hanging rod 425, and a length direction of the mounting plate 426, the middle position of the lower end face of the mounting plate 426 is provided with a second image sensor 427 in a connecting manner, the second image sensor 427 is arranged corresponding to the charging plug 105, a signal connection is established between the second image sensor 427 and the controller 600, both ends of the lower end face of the mounting plate 426 along the length direction are provided with a first lower pressing block 428a, one end face of the lower pressing block 428a close to the charging plug 105 is provided with a first inclined face 428b, and the distance between the first inclined face 428b and the register port 104 is gradually increased from bottom to top along the vertical direction.

Specifically, guide assemblies in the vertical direction are arranged between the mounting plate 426 and the docking device 500, the guide assemblies are arranged in two groups and are symmetrically arranged in the opening direction of the deposit port 104, each guide assembly comprises a first guide column 429a arranged on the upper end surface of the mounting plate 426 and a first guide sleeve 429b arranged on the docking device 500, and the first guide column 429a is matched with the first guide sleeve 429b and forms sliding guide fit in the vertical direction.

In the working process of the correction device 400, when the mobile phone is parked on the conveyor belt 317, the detection mechanism 420 starts to detect the position of the mobile phone charging socket, specifically, the image sensor II 427 performs identification scanning on the mobile phone charging socket, when the image sensor II 427 can scan and identify the position information of the mobile phone charging socket, at this time, the mobile phone charging socket and the charging plug 105 are close to and matched with each other, the rotation mechanism 410 does not need to perform rotation correction on the conveyor device 300, and the docking device 500 directly pushes the mobile phone charging socket and the charging plug 105 to realize automatic docking; when the second image sensor 427 cannot scan and identify the position information of the mobile phone charging jack, at this time, the mobile phone charging jack and the charging plug 105 are away from each other and are not matched, at this time, the rotating mechanism 410 is started and drives the transportation device 300 to rotate by 180 degrees, which is embodied in that the second image sensor 427 transmits the non-matching signal of the mobile phone charging jack and the charging plug 105 to the controller 600, the controller 600 controls and starts the correction stepping motor 412, the output end of the correction stepping motor 412 drives the second driving gear 413 to rotate around the self axis, the second driving gear 413 drives the second driven gear 414 to rotate around the self axis, the second driven gear 414 drives the rotating shaft 312 to rotate around the self axis, the rotating shaft 312 drives the movable plate 311 to rotate by 180 degrees, the movable plate 311 drives the mobile phone parked on the transportation belt 317 to rotate by 180 degrees, and after correction, the mobile, at this time, the docking device 500 pushes the mobile phone charging jack to automatically dock with the charging plug 105.

Referring to fig. 26-37, the docking device 500 is disposed above the transporting device 400, and the docking device 500 includes a pushing mechanism 510 for pushing the mobile phone to automatically dock the charging socket thereof with the charging plug 105 for charging, an avoiding member 520 for pushing the detecting mechanism 420 to move upwards, and a resetting mechanism 530 for driving the mobile phone charging socket and the charging plug 105 to separate from each other and disengage from each other.

Referring to fig. 28-33, the pushing mechanism 510 includes two guide rods 511 horizontally disposed between the inner wall of the pile body 101 and the inner wall of the rear cover 102, the guide rods 511 are disposed symmetrically along the opening direction of the storage opening 104, a first guide sleeve 429b is disposed outside the guide rods 511, a first sliding sleeve 422a and a second sliding sleeve 422b are slidably disposed outside the guide rods 511, the second sliding sleeve 422b is disposed between the first guide sleeve 429b and the rear cover 102, a docking sliding plate 512 is disposed between the two guide rods 511 and the docking sliding plate 512 is disposed near the storage opening 104, the docking sliding plate 512 is disposed outside the guide rods 511 and forms a sliding guiding fit along the axial direction of the guide rods 511, a pushing block 513 for pushing the mobile phone to move toward the charging plug 105 is disposed right below the docking plate 512, the pushing block 513 is disposed two and symmetrically disposed along the opening direction of the storage opening 104, the two pushing blocks 513 are arranged at intervals, the distance between the two pushing blocks is D, a limiting plate 514 which is horizontally arranged is arranged on one end face of the pushing block 513, which is far away from the deposit opening 104, the limiting plate 514 is arranged at intervals with the mobile phone parked on the upper end face of the conveying belt 317, a lower pressing rod 515 for connecting the two pushing blocks is arranged between the limiting plate 514 and the butt-joint sliding plate 512, the two lower pressing rods 515 are arranged symmetrically along the opening direction of the deposit opening 104, a lug is arranged on one end face of the butt joint sliding plate 512, which is far away from the register opening 104, the lower pressure bar 515 is matched with the lug and forms sliding guide fit along the vertical direction, the bottom end of the lower pressure bar 515 is fixedly connected with the upper end face of the limit plate 514, the top end is provided with a limit rod 515a used for limiting the sliding of the lower pressure bar 515, the outer part of the down-pressing rod 515 is sleeved with a trigger spring 516, one end of the trigger spring 516 abuts against the lug, the other end of the trigger spring abuts against the limiting plate 514, and the elastic force of the trigger spring 516 always points to the limiting plate 514 from the lug.

In order to enable the pushing block 513 to push the mobile phone to move towards the charging plug 105, when the trigger spring 516 pushes the downward pressing rod 515 to vertically slide downwards to the maximum, the distance between the pushing block 513 and the conveying belt 317 is smaller than the thickness of the mobile phone, which will cause that the mobile phone cannot contact with the upper end surface of the conveying belt 317 when inserted from the deposit opening 104, therefore, in order to enable the mobile phone to contact with the conveying belt 317 when inserted into the deposit opening 104, a constraint component is arranged between the pushing block 513 and the shielding door 212, the constraint component comprises an inclined plane two 513a arranged on one end surface of the pushing block 513 close to the shielding door 212 and an inclined plane three 513b arranged on one end surface of the shielding door 212 close to the pushing block 513, the distance between the inclined plane two 513a and the deposit opening 104 gradually decreases from bottom to top along the vertical direction, and the distance between the inclined plane three 513b and the deposit opening 104 gradually increases from bottom to top along the vertical direction, the second inclined plane 513a is matched with the third inclined plane 513b, and when the shielding doors 212 are attached to each other and closed, the distance between the third inclined planes 513b is smaller than the distance D between the two pushing blocks 513.

Referring to fig. 33, when the mobile phone is parked on the upper end surface of the conveyor belt 317, in order to enable the pushing block 513 to push the mobile phone charging socket to automatically dock with the charging plug 105, a docking motor 517 is disposed on the inner wall of the stud body 101, a signal connection is established between the docking motor 517 and the controller 600, an output end of the docking motor 517 is disposed away from the opening direction of the register 104, and an end position of the output end is coaxially provided with a screw 518, the screw 518 is rotatably disposed between the two guide rods 511, and the screw 518 is in threaded connection with a middle position of the docking sliding plate 512.

Referring to fig. 34, since the second image sensor 427 in the detecting mechanism 420 is located right in front of the charging plug 105, the second image sensor 427 needs to be removed before the docking charging, for this reason, the avoiding member 520 is used to push the sliding plate 421 to move towards the charging plug 105, two sets of avoiding members 520 are provided and are arranged in one-to-one correspondence with the sliding plate 421, the avoiding member 520 includes a sleeve 521 sleeved outside the guide rod 511 and a second return spring 522, one end of the sleeve 521 abuts against the docking sliding plate 512, the other end abuts against the first sliding sleeve 422a, one end of the second return spring 522 abuts against the first sliding sleeve 422a, the other end of the second return spring 429 abuts against the first guide sleeve 429b, and the elastic force of the second return spring 522 is always directed to the first sliding sleeve 422a by the first guide.

Referring to fig. 35-37, the reset mechanism 530 is provided with two sets of guide sleeves and is symmetrically arranged on one side of the charging plug 105, the reset mechanism 530 includes two guide sleeves disposed on the inner wall of the rear cover 102, the axial direction of the two guide sleeves is parallel to the opening direction of the register opening 104, the two guide sleeves are symmetrically arranged along the opening direction parallel to the register opening 104, two guide posts 531 are disposed in the two guide sleeves, the two guide posts 531 are matched with the two guide sleeves and form sliding guide fit along the axial direction of the two guide sleeves, one end face of the two guide posts 531, which is far away from the two guide sleeves, is provided with a vertically arranged reset push plate 532, the reset push plate 532 is located between the charging plug 105 and the conveyor belt 317, and the top of the reset push plate 532 is provided with a four inclined plane 534 attached to the first inclined.

In the working process of the docking device 500, when the mobile phone is inserted from the register port 104 and contacts with the conveyor belt 317, the conveyor belt 317 drives the mobile phone to be transported to the interior of the pile body 101, at this time, the shield door member 210 is switched to the blocking state, the shield doors 212 are matched with each other, the constraint component cancels the constraint limitation of the abutting and pushing block 413, the trigger spring 516 pushes the lower pressing rod 515 to vertically slide downwards, the lower pressing rod 515 drives the abutting and pushing block 513 to synchronously move downwards and correspond to the mobile phone, the calibration device 400 detects and calibrates the position of the charging socket of the mobile phone, when the mobile phone is parked on the conveyor belt 317 and the charging socket of the mobile phone and the charging plug 105 are close to each other and matched, the controller 600 controls to start the docking motor 517 to rotate forwards, the output end of the docking motor 517 drives the screw 518 to rotate forwards around the axis of the screw synchronously, the rotation of the screw 518 drives, the docking sliding plate 512 drives the lower pressing rod 515 and the abutting block 513 to move synchronously, in the process, the docking sliding plate 512 drives the pushing sleeve 521 to slide synchronously towards the charging plug 105, the sleeve 521 drives the sliding plate 421 and the guide groove 423 to move synchronously towards the charging plug 105, the second return spring 533 compresses gradually and elastic potential energy is increased, the movement of the guide groove 423 drives the sliding rod 424 to slide from the inclined section of the guide groove 423 to the horizontal section, the sliding rod 424 moves upwards in the sliding process, the sliding rod 424 drives the mounting plate 426, the second image sensor 427 and the lower pressing block 428a to move synchronously upwards, the blocking of the charging plug 105 by the detection mechanism 420 is released, at the moment, the abutting block 513 pushes the mobile phone to continue to move towards the charging plug 105, so that the mobile phone is abutted against the return pushing plate 532, the abutting block 513 pushes the charging socket of the mobile phone to be docked and charged with the charging plug 105 against, the third return spring 533 compresses gradually and the elastic potential energy increases, at this time, the mobile phone is in the charging and registering state.

When the mobile phone is fully charged and the mobile phone is taken out, the controller 600 controls the start-up shielding device 200 to switch the shielding door member 210 to the open state, the shielding door 212 drives the inclined plane three 513b to move away from each other, then the controller 600 controls the start-up docking motor 517 to rotate reversely, the output end of the docking motor 517 drives the screw 518 to rotate synchronously around the axis thereof, the rotation of the screw 518 drives the docking sliding plate 512 to slide towards the register port 104 along the guide rod 511, the docking sliding plate 512 drives the lower pressing rod 515 and the abutting block 513 to move synchronously, the inclined plane two 513a and the inclined plane three 513b extrude each other and enable the lower pressing rod 515 to move upwards and reset, in the process, the abutting block cancels the abutting on the mobile phone, the elastic potential energy of the reset spring three 533 is gradually released and pushes the mobile phone jack to be charged and the charging plug 105 to separate from each other, and simultaneously, the elastic potential energy of the reset spring two 522 is released and pushes the sliding plate 421 to slide towards The sliding rod 424 slides from the horizontal section of the guiding groove 423 to the inclined section, the first inclined plane 428b and the fourth inclined plane 534 are pressed against each other, the detection mechanism 420 automatically resets, and then the transportation device 200 is started to transport the mobile phone from the storage opening 104 to the outside of the pile body 101.

A self-adaptive automatic docking mobile phone charging method applied to public places comprises the following steps:

firstly, inputting and registering by a mobile phone;

s1: the user starts the transportation device 300, the mobile phone is close to the transportation device 300 with the front side facing upwards, and the transportation device 300 transports and stores the mobile phone from the outside of the charging pile 100 to the inside of the charging pile 100;

the charging pile 100 comprises a vertical pile body 101, a rear cover 102 detachably connected and matched with the pile body 101 is arranged at an opening of the pile body 101, a register 104 communicated with the interior of the pile body 101 is arranged on the front surface of the pile body 101, the register 104 is horizontally arranged and matched with the size of a mobile phone, a charging plug 105 correspondingly arranged with the register 104 is horizontally arranged on the inner wall of the rear cover 102, the charging plug 105 is connected and communicated with a main power supply, a touch system 103 is arranged at the top of the pile body 101, and the touch system 103 is used for self-service of a user;

the transportation device 300 comprises a transportation belt member 310 for transporting the mobile phone from the deposit port 104 to the interior of the pile body 101, a transportation power source 330 and a transportation transmission mechanism 320, wherein the transportation belt member 310 comprises a circular movable plate 311 horizontally arranged in the interior of the pile body 101, a rotating shaft 312 is coaxially arranged on the lower end surface of the movable plate 311, a first roller shaft 313 and a second roller shaft 315 which are arranged away from each other are horizontally arranged above the upper end surface of the movable plate 311, a first roller 314 is coaxially arranged outside the first roller shaft 313, a second roller 316 is coaxially arranged outside the second roller shaft 325, a transportation belt 317 for connecting the first roller 314 and the second roller 316 is arranged between the deposit port 104 and the charging plug 105, and the upper belt surface of the transportation belt 317 is flush with the lower edge of the deposit port 104;

during the operation of the transportation device 300, a user inserts the screen of the mobile phone upwards and horizontally into the register 104, the mobile phone inserted into the register 104 contacts with the transportation device 300, transports the mobile phone from the outside of the post 101 to the inside of the post 101, the transportation transmission mechanism 320 receives the power of the transportation power source 310 and drives the upper end face of the transportation belt 317 to move from the register 104 to the charging plug 105, the mobile phone is parked at the upper end face of the transportation belt 317 and then charged, after the charging is finished, the mobile phone is transported from the inside of the post 101 to the outside of the post 101, the transportation transmission mechanism 320 receives the power of the transportation power source 310 and drives the upper end face of the transportation belt 317 to move from the charging plug 105 to the register 104, and transports the mobile phone from the register 104 to the outside of the post 101;

s2: the shielding device 200 is matched with the charging pile 100 for plugging and storing the mobile phone;

the shielding device 200 includes a shielding door member 210 for shielding and blocking the register port 104, and a shielding driving mechanism 220, wherein the shielding door member 210 is set to be in an open state, a clamping state and a blocking state which can be switched;

the shielding door component 210 comprises guide rods 211 horizontally arranged between two side walls of the pile body 101, the axial direction of the guide rods 211 is perpendicular to the opening direction of the deposit opening 104, shielding doors 212 are slidably sleeved on the guide rods 211, the shielding doors 212 are provided with two shielding doors and are arranged in bilateral symmetry along the opening direction of the deposit opening 104, the bilateral symmetry shielding doors 212 are mutually matched for shielding and plugging the deposit opening 104, a first return spring 213 is sleeved outside the guide rods 211, and the elastic force of the first return spring 213 always pushes the bilateral symmetry shielding doors 212 to move away from each other;

in the working process of the shielding device 200, the initial shielding door component 210 is in an open state, when a user deposits a mobile phone, the mobile phone is inserted into the deposit opening 104 and is in contact with the transportation device 300, the transportation device 300 transports the mobile phone from the outside of the pile body 101 to the inside of the pile body 101, in the process, when the mobile phone is positioned between the two shielding doors 212, the shielding door component 210 is switched between the open state and the clamping state in a reciprocating manner, the shielding door components 210 move close to each other and are switched to the clamping state and correct the mobile phone, the shielding door component 210 is switched between the open state and the clamping state in a reciprocating manner until the mobile phone is separated from the two shielding doors 212, at the moment, the shielding door component 210 is switched to a blocking state, the shielding driving mechanism 220 pushes the two shielding doors 212 to move close to each other and the two shielding doors 212 are attached to each other, the first return spring 213 is gradually, the shield door member 210 is switched to the blocking state;

(II) automatic butt joint charging stage;

s3: the calibration device 400 detects the orientation of the mobile phone and automatically adjusts and calibrates the mobile phone charging socket to be arranged corresponding to the charging output end of the charging pile 100;

the correcting device 400 comprises a rotating mechanism 410 for driving the conveying device 300 to rotate and a detecting mechanism 420 for identifying the azimuth information of the charging socket of the mobile phone, wherein the rotating mechanism 410 comprises a rectangular fixing plate 411, a correcting stepping motor 412 is arranged on the lower end face of the fixing plate 411, a driving gear II 413 is coaxially arranged at the end position of the output end of the correcting stepping motor 412, a driven gear II 414 is coaxially arranged outside the rotating shaft 312, and the driving gear II 413 is meshed with the driven gear II 414; the detection mechanism 420 comprises a sliding plate 421, a first sliding sleeve 422a and a second sliding sleeve 422b which are sleeved outside the docking device 500 are sequentially arranged on the sliding plate 421 along an opening direction departing from the register port 104, the sliding plate 421 is provided with two sliding sleeves and symmetrically arranged along the opening direction of the register port 104, a guide groove 423 is formed in the sliding plate 421, the guide groove 423 comprises a horizontal section and an inclined section which are sequentially arranged along the opening direction departing from the register port 104 and are communicated with each other, the distance between the inclined section and the register port 104 is gradually reduced from bottom to top along a vertical direction, a sliding rod 424 is arranged between the two guide grooves 423 and forms sliding guide fit along the guide direction of the guide groove 423, a hanging rod 425 which is vertically arranged downwards is arranged at the middle position of the sliding rod 424 along the length direction, a mounting plate 426 which is horizontally arranged is connected to the bottom end of the hanging rod 425, a second image sensor 427 is connected to the middle position of the lower The lower end face of the mounting plate 426 is provided with lower pressing blocks 428a at two ends along the length direction, one end face of each lower pressing block 428a, which is close to the charging plug 105, is provided with a first inclined face 428b, a guide assembly along the vertical direction is arranged between the mounting plate 426 and the docking device 500, the guide assembly comprises a first guide column 429a arranged on the upper end face of the mounting plate 426 and a first guide sleeve 429b arranged on the docking device 500, and the first guide column 429a is matched with the first guide sleeve 429b and forms sliding guide fit along the vertical direction;

in the working process of the correction device 400, when the mobile phone is parked on the conveyor belt 317, the detection mechanism 420 starts to detect the position of the mobile phone charging socket, the second image sensor 427 performs identification scanning on the mobile phone charging socket, when the second image sensor 427 can scan the position information of the mobile phone charging socket, at the moment, the mobile phone charging socket and the charging plug 105 are close to and matched with each other, the rotation mechanism 410 does not need to perform rotation correction on the conveyor device 300, and the docking device 500 directly pushes the mobile phone charging socket and the charging plug 105 to realize automatic docking; when the second image sensor 427 cannot scan and identify the position information of the mobile phone charging socket, at this time, the mobile phone charging socket and the charging plug 105 are not matched with each other when being far away from each other, the rotating mechanism 410 is started and drives the transportation device 300 to rotate by 180 degrees, and after correction, the mobile phone charging socket and the charging plug 105 are close to each other and matched with each other;

s4: starting the docking device 500, driving the corrected charging socket of the mobile phone to automatically dock and charge with the charging plug 105 on the charging pile 100 by the docking device 500, and enabling the mobile phone to be in a charging and registering state, wherein at the moment, a user can leave to process private affairs;

the docking device 500 is arranged above the transportation device 400, and the docking device 500 comprises a pushing mechanism 510 for pushing the mobile phone to enable the charging socket of the mobile phone to be automatically docked and charged with the charging plug 105, an avoiding member 520 for pushing the detection mechanism 420 to move upwards, and a resetting mechanism 530 for driving the mobile phone charging socket and the charging plug 105 to be separated and disengaged from each other;

the pushing mechanism 510 includes guide rods 511 horizontally disposed between the inner wall of the pile body 101 and the inner wall of the rear cover 102, a docking sliding plate 512 is disposed between the two guide rods 511, the docking sliding plate 512 is disposed near the storage opening 104, the docking sliding plate 512 is sleeved outside the guide rods 511 and forms a sliding guide fit along the axial direction of the guide rods 511, a pushing block 513 for pushing the mobile phone to move toward the charging plug 105 is disposed right below the docking sliding plate 512, the pushing block 513 is provided with two pushing blocks symmetrically disposed along the opening direction of the storage opening 104, the distance between the two pushing blocks 513 is D, a horizontally disposed limiting plate 514 is disposed on one end surface of the pushing block 513 away from the storage opening 104, the limiting plate 514 is disposed at a distance from the mobile phone parked on the upper end surface of the conveying belt 317, and a lower pressing rod 515 for connecting the two pushing blocks is disposed between the limiting plate 514 and the docking sliding plate 512, the lower pressing rods 515 are arranged in two and are symmetrically arranged along the opening direction of the register opening 104, a lug is arranged on one end face of the butt joint sliding plate 512 departing from the register opening 104, the lower pressing rods 515 are matched with the lugs and form sliding guide fit along the vertical direction, the bottom end of the lower pressing rods 515 is fixedly connected with the upper end face of the limiting plate 514, the top end of the lower pressing rods 515 is provided with a limiting rod 515a used for limiting the sliding of the lower pressing rods 515, a trigger spring 516 is sleeved outside the lower pressing rods 515, one end of the trigger spring 516 is abutted to the lug, the other end of the trigger spring 516 is abutted to the limiting plate 514, the elastic force of the trigger spring 516 is always directed to the limiting plate 514 by the lug, a constraint component is arranged between the abutting push blocks 513 and the shield door 212, when the shield door 212 is mutually abutted and closed, the distance between three inclined planes 513b is smaller than the distance D between the two abutting push blocks 513, the butt joint motor 517 is arranged A screw 518 is arranged, the screw 518 is rotatably arranged between the two guide rods 511, and the screw 518 is in threaded connection and matching with the middle part of the butt joint sliding plate 512;

the avoiding member 520 is used for pushing the sliding plate 421 to move towards the charging plug 105, the avoiding member 520 is provided with two groups and is arranged in one-to-one correspondence with the sliding plate 421, the avoiding member 520 comprises a sleeve 521 and a second return spring 522, the sleeve 521 is sleeved outside the guide rod 511, one end of the sleeve 521 is abutted against the butt sliding plate 512, the other end of the sleeve 521 is abutted against the first sliding sleeve 422a, one end of the second return spring 522 is abutted against the first sliding sleeve 422a, the other end of the second return spring is abutted against the first guide sleeve 429b, and the elastic force of the second return spring 522 is always directed to the first sliding sleeve 422;

the reset mechanism 530 is provided with two groups and is symmetrically arranged at one side of the charging plug 105, the reset mechanism 530 comprises a second guide sleeve arranged on the inner wall of the rear cover 102, the axial direction of the second guide sleeve is parallel to the opening direction of the register opening 104, the second guide sleeve is provided with two guide posts 531 which are symmetrically arranged along the opening direction parallel to the register opening 104, the second guide post 531 is arranged in the second guide sleeve, the second guide post 531 is matched with the second guide sleeve and forms sliding guide fit along the axial direction of the second guide sleeve, one end face of the second guide post 531, which is far away from the second guide sleeve, is provided with a vertically arranged reset push plate 532, the reset push plate 532 is positioned between the charging plug 105 and the transport belt 317, and the top of the reset push plate 532 is provided with a fourth inclined plane 534;

in the working process of the docking device 500, when the mobile phone is inserted from the register port 104 and contacts with the conveyor belt 317, the conveyor belt 317 drives the mobile phone to be transported to the inside of the pile body 101, at this time, the shield door member 210 is switched to the blocking state, the shield doors 212 are matched with each other, the restraint component cancels the restraint limitation on the abutting block 413, the trigger spring 516 pushes the lower pressing rod 515 to vertically slide downwards, the lower pressing rod 515 drives the abutting block 513 to synchronously move downwards and correspond to the mobile phone, the correcting device 400 detects and corrects the position of the charging socket of the mobile phone, when the mobile phone is parked on the conveyor belt 317 and the charging socket of the mobile phone and the charging plug 105 are close to each other and matched with each other, the docking motor 517 is started to rotate forwards, the output end of the docking motor 517 drives the screw 518 to synchronously rotate forwards around the axis of the screw 518, the rotation of the screw 518 drives the, the docking sliding plate 512 drives the lower pressing rod 515 and the abutting block 513 to move synchronously, in the process, the docking sliding plate 512 drives the pushing sleeve 521 to slide synchronously towards the charging plug 105, the sleeve 521 drives the sliding plate 421 and the guide groove 423 to move synchronously towards the charging plug 105, the second return spring 533 compresses gradually and elastic potential energy is increased, the movement of the guide groove 423 drives the sliding rod 424 to slide from the inclined section of the guide groove 423 to the horizontal section, the sliding rod 424 moves upwards in the sliding process, the sliding rod 424 drives the mounting plate 426, the second image sensor 427 and the lower pressing block 428a to move synchronously upwards, the blocking of the charging plug 105 by the detection mechanism 420 is released, at the moment, the abutting block 513 pushes the mobile phone to continue to move towards the charging plug 105, so that the mobile phone is abutted against the return pushing plate 532, the abutting block 513 pushes the charging socket of the mobile phone to be docked and charged with the charging plug 105 against, the third return spring 533 is gradually compressed and the elastic potential energy is increased, and at this time, the mobile phone is in a charging and registering state;

thirdly, the output of the mobile phone is reset;

s5: when the mobile phone is fully charged, the shielding device 200 and the charging pile 100 are used for unblocking the mobile phone, the docking device 500 is started to enable the charging socket of the mobile phone and the charging output end of the charging pile 100 to be automatically disconnected and reset, then, the transporting device 300 is started, and the transporting device 300 transports the mobile phone from the inside of the charging pile 100 to the outside of the charging pile 100;

when the mobile phone is fully charged, the process of taking out the mobile phone is embodied in that the shielding door member 210 is switched to the open state, the shielding door 212 drives the inclined plane three 513b to move away from each other, then the docking motor 517 is started to rotate reversely, the output end of the docking motor 517 drives the screw 518 to rotate synchronously around the axis thereof, the rotation of the screw 518 drives the docking sliding plate 512 to slide along the guide rod 511 towards the deposit opening 104, the docking sliding plate 512 drives the lower pressing rod 515 and the abutting block 513 to move synchronously, in the process, the abutting block 513 cancels the abutting of the mobile phone, the elastic potential energy of the return spring three 533 is gradually released and pushes the mobile phone charging socket and the charging plug 105 to separate from each other, meanwhile, the elastic potential energy of the return spring two 522 is released and pushes the sliding plate to slide along the guide rod 511 towards the deposit opening 104 for resetting, the sliding rod 424 slides to the inclined section from the horizontal, the first inclined plane 428b and the fourth inclined plane 534 are pressed against each other, the detection mechanism 420 is automatically reset, and then the transportation device 200 is started to transport the mobile phone from the storage opening 104 to the outside of the pile body 101.

Claims (4)

1. Be applied to automatic dock intelligent charging equipment that smart mobile phone shared charges, its characterized in that: the mobile phone storage and charging device comprises a charging pile for storing and charging mobile phones, a transportation device for transporting the mobile phones from the outside of the charging pile to the inside of the charging pile for storing, a shielding device for plugging the mobile phones transported to the inside of the charging pile, a correction device for automatically adjusting the mobile phones transported to the inside of the charging pile, a docking device for driving the adjusted and corrected mobile phones to automatically dock and charge with the charging output end of the charging pile, and a controller for controlling and coordinating the shielding device, the transportation device, the correction device and the operation process of the docking device, wherein the shielding device, the transportation device, the correction device, the docking device and the controller are all arranged in the charging pile, the charging pile comprises a vertical pile body which is rectangular and is arranged with a hollow opening facing backwards, a rear cover which is detachably connected and matched with the pile body is arranged at the opening of the pile body, and a storage opening communicated with the interior of the pile, the storage port is horizontally arranged and matched with the size of the mobile phone, a charging plug which is arranged corresponding to the storage port is horizontally arranged on the inner wall of the rear cover, the charging plug is connected and communicated with a main power supply, the shielding device is arranged on the inner wall of the pile body and used for shielding and plugging the storage port, the transportation device is arranged between the storage port and the charging plug, a touch system is arranged at the top of the pile body and used for self-service of a user, and signal connection is established among the touch system, the main power supply and the controller;

the transportation device comprises a transportation belt member used for transporting the mobile phone to the interior of the pile body from the storage opening, a transportation power source used for providing power for the movement of the transportation belt member, and a transportation transmission mechanism arranged between the transportation belt member and the transportation power source and used for transmitting the power of the transportation power source to the transportation belt member;

the conveyer belt component comprises a circular movable plate horizontally arranged in the pile body, a rotating shaft is coaxially arranged on the lower end face of the movable plate, a first roller shaft and a second roller shaft which are arranged to be far away from each other are horizontally arranged above the upper end face of the movable plate, the axial directions of the first roller shaft and the second roller shaft are both vertical to the opening direction of the deposit port, a first supporting frame for supporting the first roller shaft is arranged at each of two ends of the first roller shaft along the length direction of the first roller shaft, a second supporting frame for supporting the second roller shaft is arranged at each of two ends of the second roller shaft along the length direction of the second roller shaft, the first supporting frame and the second supporting frame are both fixedly arranged on the movable plate, a first roller is coaxially arranged outside the first roller shaft, a second roller is coaxially arranged outside the second roller shaft, a conveyer belt for connecting the first roller and the second roller is arranged between the deposit port and the charging plug, and the belt surface on, when the conveyer belt conveys the mobile phone into the pile body from the deposit opening, the conveyer belt automatically stops running, and therefore the conveyer belt component further comprises a first image sensor arranged on the inner wall of the pile body, signal connection is established between the first image sensor and the controller, and the first image sensor is positioned right above the first roller/the second roller close to the deposit opening;

the transportation power source is arranged at the middle position of the movable plate, the transportation power source comprises a transportation motor fixedly arranged on the upper end surface of the movable plate, the output end of the transportation motor is parallel to the opening direction of the deposit opening, the output end is connected with a worm, a third support frame is arranged between one end of the worm, which deviates from the transportation motor, and the movable plate, and the third support frame is fixedly arranged on the movable plate, the worm is rotatably arranged on the third support frame, a transportation main shaft which is arranged perpendicular to the axis direction of the worm is horizontally arranged above the worm, four support frames for supporting the transportation main shaft are arranged at the two ends of the transportation main shaft along the length direction, the four support frames are fixedly arranged on the movable plate, a turbine is coaxially sleeved at the middle position of the transportation main shaft along the length direction, the turbine is meshed with, one of the conveying transmission mechanisms is arranged between one of the power output ends and the first roller shaft/the second roller shaft, the other conveying transmission mechanism is arranged between the other power output end and the second roller shaft/the first roller shaft, and the two conveying transmission mechanisms are respectively arranged on one side of the conveying belt;

the conveying transmission mechanism comprises an input belt wheel arranged at one end of the conveying main shaft, an output belt wheel arranged at one end of the first roller shaft/the second roller shaft and a belt arranged between the input belt wheel and the output belt wheel and used for transmitting the power of the input belt wheel to the output belt wheel.

2. The automatic docking type smart charging device applied to smart phone shared charging of claim 1, wherein: the shielding device comprises a shielding door component and a shielding driving mechanism, wherein the shielding door component is used for shielding and plugging the deposit opening, the shielding door component is arranged between two side walls of the pile body and corresponds to the deposit opening, the shielding driving mechanism is arranged on the inner wall of the pile body, the power output end of the shielding door component is connected with the shielding door component, the shielding door component is set into an open state, a clamping state and a plugging state which can be mutually switched, the plugging state is that the shielding door component plugs the deposit opening, the open state is that the shielding door component removes the plugging of the deposit opening, the clamping state is that the shielding door component is between the open state and the plugging state and is used for carrying out intermittent clamping correction on a mobile phone, and the shielding driving mechanism is used for driving the shielding door component to be mutually switched among the open state, the;

the shield door component include that the level sets up the guide bar between the wall of pile body both sides and the opening direction of the axis direction perpendicular to deposit port of guide bar, the guide bar is provided with two and upper and lower symmetrical arrangement, the cover is equipped with the shield door on the guide bar, the shield door constitutes the slip guide cooperation with the guide bar phase-match and along the axis direction of guide bar, the shield door is provided with two and along the opening direction bilateral symmetry of deposit port and arranges, the shield door that bilateral symmetry arranged mutually supports and is used for shielding the shutoff to the deposit port, the outside cover of guide bar is equipped with reset spring one, reset spring one's one end is contradicted with the shield door that is located left, the other end is contradicted with the shield door that is located the right side and the shield door that reset spring one promoted bilateral symmetry all the time.

3. The automatic docking type smart charging device applied to smart phone shared charging of claim 2, wherein: the correcting device comprises a rotating mechanism for driving the conveying device to rotate and a detecting mechanism for identifying the azimuth information of the charging socket of the mobile phone, the rotating mechanism is arranged below the conveying device, the detecting mechanism is arranged on the butting device and extends to the upper end face of the conveying belt, the detecting end of the detecting mechanism is arranged corresponding to the charging plug, the rotating mechanism comprises a rectangular fixing plate which is arranged below the movable plate and is parallel to the movable plate, the controller is arranged on the lower end face of the fixing plate, a correcting stepping motor is arranged on the lower end face of the fixing plate, the output end of the correcting stepping motor is vertically arranged and extends to the upper side of the fixing plate, a driving gear II is coaxially arranged at the position of the output end of the correcting stepping motor, a driven gear II is coaxially arranged outside the rotating shaft and is meshed with the driven gear II, and the detecting, the sliding plate is provided with a first sliding sleeve and a second sliding sleeve which are sleeved outside the butt joint device in a sliding manner along the opening direction deviating from the deposit opening, the sliding plate is provided with two sliding grooves which are symmetrically arranged along the opening direction deviating from the deposit opening, each sliding groove comprises a horizontal section and an inclined section which are sequentially arranged along the opening direction deviating from the deposit opening and are communicated with each other, the distance between each inclined section and the deposit opening is gradually reduced from bottom to top along the vertical direction, a sliding rod is arranged between the two guiding grooves and forms sliding guide fit along the guiding direction of the guiding grooves, a hanging rod which is vertically and downwardly arranged is arranged at the middle position of the sliding rod along the length direction, the bottom end of the hanging rod is connected with a mounting plate which is horizontally arranged, the length direction of the mounting plate is vertical to the opening direction of the deposit opening, an image sensor II is connected and arranged at the, the image sensor II is connected with the controller through a signal, lower pressing blocks are arranged at two ends of the lower end face of the mounting plate along the length direction, guide assemblies along the vertical direction are arranged between the mounting plate and the butt joint device, the guide assemblies are arranged in two groups and are symmetrically arranged along the opening direction of the deposit opening, each guide assembly comprises a guide column I and a guide sleeve I, the guide column I is arranged on the upper end face of the mounting plate, the guide sleeve I is arranged on the butt joint device, and the guide column I is matched with the guide sleeve I and forms sliding guide matching along the vertical direction.

4. The automatic docking type smart charging device applied to smart phone shared charging of claim 3, wherein: the docking device is arranged above the conveying device and comprises a pushing mechanism for pushing the mobile phone to enable the charging socket of the mobile phone to be automatically docked and charged with the charging plug, an avoiding member for pushing the detection mechanism to move upwards and a reset mechanism for driving the charging socket of the mobile phone and the charging plug to be separated and disengaged from each other;

the pushing mechanism comprises two guide rods horizontally arranged between the inner wall of the pile body and the inner wall of the rear cover, the two guide rods are symmetrically arranged along the opening direction of the deposit opening, a first guide sleeve is arranged outside the guide rods, a first sliding sleeve and a second sliding sleeve are sleeved outside the guide rods, the sliding sleeve is positioned between the first guide sleeve and the rear cover, a butt sliding plate is arranged between the two guide rods and is close to the deposit opening, the butt sliding plate is sleeved outside the guide rods and forms sliding guide fit along the axial direction of the guide rods, a pushing block for pushing the mobile phone to move towards the charging plug is arranged right below the butt sliding plate, the two pushing blocks are symmetrically arranged along the opening direction of the deposit opening, the two pushing blocks are arranged at intervals, the distance between the two pushing blocks is D, and one end face of the pushing block, which is far away from the deposit opening, is provided with a limiting plate which is horizontally arranged, the limiting plate and the mobile phone parked on the upper end face of the conveying belt are arranged at a distance, a lower pressing rod used for connecting the limiting plate and the butt-joint sliding plate is arranged between the limiting plate and the butt-joint sliding plate, the lower pressing rod is provided with two lower pressing rods which are symmetrically arranged along the opening direction of the deposit opening, one end face of the butt-joint sliding plate, which is far away from the deposit opening, is provided with a lug, the lower pressing rods are matched with the lug and form sliding guide fit along the vertical direction, the bottom end of each lower pressing rod is fixedly connected with the upper end face of the limiting plate, the top end of each lower pressing rod is provided with a limiting rod used for limiting the sliding of the lower pressing rod, a trigger spring is sleeved outside the lower pressing rod, one end of the trigger spring is abutted against the lug, the other end of the trigger spring is abutted against the limiting plate, the elasticity of the trigger spring is always directed to the limiting plate by, the distance between the second inclined plane and the deposit opening is gradually reduced from bottom to top along the vertical direction, the distance between the third inclined plane and the deposit opening is gradually increased from bottom to top along the vertical direction, the second inclined plane is matched with the three inclined planes, when the shielding door is mutually attached and closed, the distance between the third inclined plane is smaller than the distance D between the two pushing blocks, a butt joint motor is arranged on the inner wall of the pile body, signal connection is established between the butt joint motor and the controller, the output end of the butt joint motor deviates from the opening direction of the deposit opening and is arranged, the end position of the output end is coaxially provided with a lead screw, the lead screw is rotatably arranged between the two guide rods, and the lead screw is in threaded connection fit with the middle position.

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