CN113911515A

CN113911515A - A anti-vibration device for cell-phone accessory transportation

Info

Publication number: CN113911515A
Application number: CN202111078889.1A
Authority: CN
Inventors: 高玉霞
Original assignee: Shenzhen Senyuxin Technology Co ltd
Current assignee: Shenzhen Senyuxin Technology Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2022-01-11

Abstract

The invention relates to a shockproof transportation device, in particular to a shockproof device for transportation of mobile phone accessories. The utility model mainly provides a carry out spacing in step to the packing, increase space stability, utilize multiple spring to carry out the effective absorbing shock mounting that is used for cell-phone accessory transportation to the packing simultaneously. A shockproof device for mobile phone accessory transportation comprises: the anti-vibration packaging box comprises a supporting bottom frame, an anti-vibration box, a sealing top cover, a heat dissipation window, an anti-vibration mechanism and a placing mechanism, wherein the anti-vibration box is arranged at the top of the supporting bottom frame, the sealing top cover is hinged to one side of the top of the anti-vibration box, the heat dissipation window which can balance temperature to a certain degree is embedded in one side of the supporting bottom frame, the anti-vibration mechanism which can damp a packaging carton is arranged in the anti-vibration box, and the placing mechanism is arranged in the anti-vibration box. Packing carton downstream and the contact of first pressure sensor, and then control flexible solenoid valve operation and drive spacing fixture block and move left and carry on spacingly to placing the packing carton that finishes, prevent that packing carton from being tossed out.

Description

A anti-vibration device for cell-phone accessory transportation

Technical Field

The invention relates to a shockproof transportation device, in particular to a shockproof device for transportation of mobile phone accessories.

Background

As most mobile phone accessories are precision elements, the accessories lose performance under the condition of serious collision, and therefore, the requirements of the required packages on shock resistance are high in the transportation process of the mobile phone accessories.

At present, cell-phone accessory on the market is with foam, sponge and oxygen bag as the filler more, and artifical packing is separately placed and is superposed to the packing, and then reaches shockproof effect, in the transportation, because of the filler inhomogeneous or not enough leads to the shock resistance of packing to reduce easily, can cause the packing to warp even, and the product damages, separately places the packing simultaneously and can cause the space stability low, can not play good guard action.

Therefore, the anti-vibration device for the transportation of the mobile phone accessories, which is used for synchronizing limitation of the package, increasing the space stability and effectively absorbing the shock of the package by utilizing various springs, is needed to be designed.

Disclosure of Invention

In order to overcome the shortcoming that prior art's shock resistance and spatial stability are not high, can't play good guard action, technical problem: the utility model provides a carry out spacing in step to the packing, increase space stability, utilize multiple spring to carry out effective absorbing shock mounting that is used for cell-phone accessory transportation to the packing simultaneously.

The technical scheme is as follows: the utility model provides a shock mounting for cell-phone accessory transportation, is including supporting chassis, shockproof case, sealing top cap, heat dissipation window, shockproof mechanism and placement machine structure, supports the chassis top and is equipped with shockproof case, and shockproof roof portion one side articulates there is sealing top cap, supports the embedded heat dissipation window that can the balanced temperature of certain degree that is equipped with in chassis one side, and the incasement that takes precautions against earthquakes is equipped with and carries out absorbing shockproof mechanism to the packing carton, takes precautions against earthquakes the incasement and is equipped with placement machine structure.

Optionally, the shockproof mechanism is including the bradyseism case, the bradyseism spring, the locating rack, remove the bottom plate, the locating lever, first guide slide bar, first reset spring and buffer spring, shockproof incasement wall bottom symmetric connection has the bradyseism spring, be connected with the bradyseism case between the bradyseism spring top, four sides of bradyseism case all are equipped with the locating rack, all slidingtype is equipped with the removal bottom plate on the locating rack, the equal slidingtype in removal bottom plate bottom is equipped with the locating lever, the removal bottom plate outside of both sides all with be connected with 3 buffer spring between the locating rack, the removal bottom plate outside of both sides all with be connected with 2 buffer spring between the locating rack, four sides of shockproof incasement wall all are equipped with first guide slide bar, the locating lever outside all with be connected with first reset spring between the first guide slide bar.

Optionally, the placing mechanism comprises a material conveying belt, a bearing plate, a driven transverse shaft, a connecting transverse rod, a positioning short plate and a reset guide rod, second reset spring, first pressure sensor, flexible solenoid valve, the location ejector pad, third reset spring and spacing fixture block, bradyseism incasement wall longitudinal symmetry rotary type is equipped with driven cross axle, symmetrical connection has the fortune material belt between the driven cross axle, all be equipped with a plurality of bearing plates on the fortune material belt, fortune material belt inboard all is equipped with connects the horizontal pole, be connected with the location short slab between the connection horizontal pole, bradyseism incasement wall symmetry is equipped with the guide arm that resets, it all is connected with second reset spring to connect between horizontal pole bottom and the guide arm that resets, bradyseism incasement wall bottom is equipped with first pressure sensor, bradyseism case one side is equipped with flexible solenoid valve, flexible solenoid valve top is equipped with the location ejector pad, bradyseism case top one side slidingtype is equipped with spacing fixture block, symmetrical connection is equipped with 2 third reset spring between spacing fixture block and the bradyseism case.

Optionally, the shock absorption device further comprises a supporting mechanism, the supporting mechanism comprises a supporting base plate, a supporting clamping block, a supporting guide pillar, a fourth reset spring, a limiting roller, a second guiding slide bar, a fifth reset spring, a reversing bevel gear, a first positioning short shaft, a belt transmission assembly, a positioning long rod, an accelerating gear, a second positioning short shaft, a synchronous belt, a positioning screw rod and a lifting clamping block, the supporting guide pillars are symmetrically arranged at the bottom of the inner wall of the shock absorption box, the lifting clamping block is arranged on the supporting guide pillars in a sliding manner, the fourth reset spring is connected between the bottom of the lifting clamping block and the supporting guide pillars, the supporting base plate is connected between the inner sides of the lifting clamping blocks, the limiting roller is arranged in the middle of the supporting base plate, a plurality of second guiding slide bars are arranged on the inner wall of the lower portion of the shock absorption box, the supporting clamping block is connected between the second guiding slide bars in a sliding manner, and the fifth reset spring is connected between the supporting clamping block and the second guiding slide bar, the embedded switching-over case that is equipped with in bradyseism case one side, switching-over case one side rotary type is equipped with the location stock, switching-over bottom of the case portion one side rotary type is equipped with first location minor axis, be connected with belt drive assembly between first location minor axis and the location stock bottom, first location minor axis top all is equipped with reversing bevel gear with the driven cross axle one side of upside, reversing bevel gear intermeshing, switching-over roof portion one side rotary type is equipped with second location minor axis, second location minor axis all is equipped with the gear with higher speed with the location stock top, gear intermeshing with higher speed, bradyseism incasement wall symmetry rotary type is equipped with the location lead screw, location lead screw all is equipped with sunken ring gear with second location minor axis upper portion, be connected with synchronous belt between the sunken ring gear.

Optionally, the shockproof box comprises a locking mechanism, the locking mechanism comprises an electric push rod, an unlocking button, a connecting short block, a locking cross rod, a positioning tongue plate and a second pressure sensor, the electric push rod is embedded in one side of the shockproof box, the connecting short block is arranged on a telescopic rod of the electric push rod, the locking cross rod is arranged on the upper portion of the connecting short block, the positioning tongue plate is symmetrically arranged on one side of the bottom of the sealing top cover in a sliding mode, the second pressure sensor is arranged on one side of the shockproof box in a sliding mode, and the unlocking button is arranged on one side of the shockproof box.

Optionally, the shockproof box comprises a safety protection mechanism, the safety protection mechanism comprises a compressed gas tank, a spherical solenoid valve, a shunt conduit, a compressed gas bag, a contact short rod, a third pressure sensor and a support spring, the compressed gas tank is arranged on one side of the shockproof box bottom, the spherical solenoid valve is arranged on one side of the shockproof box bottom, the shunt conduit is arranged on one side of the shockproof box bottom, 2 compressed gas bags are embedded in two sides of the shockproof box inner wall, the contact short rod is arranged on one side of the shockproof box inner wall bottom in a sliding mode, the support spring is connected between the bottom of the contact short rod and the shockproof box inner wall, and the third pressure sensor is arranged on the bottom of the shockproof box inner wall.

Optionally, still including constant temperature equipment, constant temperature equipment is equipped with location top case including location top case, temperature sensor, trompil roof, dustproof end net and radiator fan, and the sealing top roof top is equipped with location top case, and location top bottom of the case portion is equipped with dustproof end net, is connected with radiator fan between the location top incasement wall both sides, and location top roof top is equipped with the trompil roof, and sealing top roof inner wall one side is equipped with temperature sensor.

Optionally, the transportation device further comprises an electric cabinet, the electric cabinet is arranged on the right front side of the supporting underframe, a switching power supply, a power supply module and a control module are installed in the electric cabinet, the switching power supply supplies power to the whole transportation device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is electrically connected with a DS1302 clock circuit and a 24C02 circuit, the first pressure sensor, the second pressure sensor, the third pressure sensor, the unlocking button and the temperature sensor are electrically connected with the control module, and the electric push rod, the cooling fan, the spherical electromagnetic valve and the telescopic electromagnetic valve are connected with the control module through peripheral circuits.

The beneficial effects are that:

1. the packaging carton moves downwards to be in contact with the first pressure sensor, so that the telescopic solenoid valve is controlled to operate to drive the limiting clamping block to move leftwards to limit the placed packaging carton, and the packaging carton is prevented from being overturned out;

2. the supporting bottom plate is driven to synchronously move downwards according to the descending speed of the bearing plate, the packing carton is supported, and meanwhile, the supporting clamping block is driven to intermittently move leftwards to tighten and limit the packing carton;

3. the telescopic rod of the electric push rod extends to drive the locking cross rod to clamp the positioning tongue plate, so that the sealing top cover is locked, and the sealing top cover is prevented from being carelessly opened in bumping;

4. when the bradyseism case received powerful quick downward movement, compression gasbag rises greatly and can carry out timely safety protection to the bradyseism case, prevents that inside packing carton from being collided with.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a partial perspective view of the anti-vibration mechanism of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

Fig. 5 is a partial perspective view of the placement mechanism of the present invention.

Fig. 6 is a schematic view of a first partially-separated body structure of the support mechanism of the present invention.

Fig. 7 is an enlarged view of part B of the present invention.

Fig. 8 is a schematic view of a second partially-separated body structure of the support mechanism of the present invention.

Fig. 9 is a perspective view of a third part of the supporting mechanism of the present invention.

Fig. 10 is a schematic view of a first partial body structure of the locking mechanism of the present invention.

Fig. 11 is a schematic view of a second partial body structure of the locking mechanism of the present invention.

Fig. 12 is a schematic view of a first partially assembled body structure of the safety protection mechanism of the present invention.

Fig. 13 is a schematic view of a second partial body structure of the safety protection mechanism of the present invention.

Fig. 14 is an enlarged view of part C of the present invention.

Fig. 15 is a partial perspective view of the thermostatic mechanism of the present invention.

Fig. 16 is a circuit block diagram of the present invention.

Fig. 17 is a schematic circuit diagram of the present invention.

In the reference symbols: 1-supporting chassis, 2-shock-proof box, 3-sealing top cover, 4-heat dissipation window, 5-electric control box, 6-shock-proof mechanism, 61-shock-proof box, 62-shock-proof spring, 63-positioning frame, 64-moving bottom plate, 65-positioning rod, 66-first guide slide rod, 67-first return spring, 68-buffer spring, 7-placing mechanism, 71-conveying belt, 72-bearing plate, 73-driven cross shaft, 74-connecting cross shaft, 75-positioning short plate, 76-return guide rod, 77-second return spring, 78-first pressure sensor, 79-telescopic solenoid valve, 710-positioning push block, 711-third return spring, 712-limiting block, 8-supporting mechanism, 81-supporting bottom plate, 82-supporting fixture block, 83-supporting guide column, 84-fourth return spring, 85-limiting roller, 86-second guiding slide bar, 87-fifth return spring, 88-reversing bevel gear, 89-first positioning short shaft, 810-belt transmission component, 811-positioning long rod, 812-accelerating gear, 813-second positioning short shaft, 814-synchronous belt, 815-positioning screw rod, 816-lifting fixture block, 9-locking mechanism, 91-electric push rod, 92-unlocking button, 93-connecting short block, 94-locking cross rod, 95-positioning tongue plate, 96-second pressure sensor, 10-safety protection mechanism, 101-compressed air tank, 102-spherical electromagnetic valve, 103-shunt conduit, 104-compression air bag, 105-contact short rod, 106-third pressure sensor, 107-support spring, 11-thermostatic mechanism, 111-positioning top box, 112-temperature sensor, 113-perforated top plate, 114-dustproof bottom net and 115-radiator fan.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A shock-proof device for mobile phone accessory transportation is disclosed, as shown in figures 1-17, and comprises a supporting chassis 1, a shock-proof box 2, a sealing top cover 3, a heat dissipation window 4, a shock-proof mechanism 6 and a placement mechanism 7, wherein the top of the supporting chassis 1 is provided with the shock-proof box 2, the left side of the top of the shock-proof box 2 is hinged with the sealing top cover 3, the left side of the supporting chassis 1 is provided with the heat dissipation window 4 in an embedded manner, the right side in the shock-proof box 2 is provided with the shock-proof mechanism 6, and the placement mechanism 7 is arranged in the shock-proof box 2.

The shockproof mechanism 6 comprises a shock absorption box 61, shock absorption springs 62, positioning frames 63, a movable bottom plate 64, positioning rods 65, first guide slide rods 66, first return springs 67 and buffer springs 68, the shock absorption springs 62 are symmetrically connected with the front and back of the bottom of the inner wall of the shockproof box 2, the shock absorption box 61 is connected between the tops of the shock absorption springs 62, the positioning frames 63 are arranged on the front and back sides and the left and right sides of the shock absorption box 61, the movable bottom plate 64 is arranged on the positioning frames 63 in a sliding manner, the positioning rods 65 are arranged at the bottom of the movable bottom plate 64 in a sliding manner, 3 buffer springs 68 are connected between the outer sides of the movable bottom plates 64 on the front and back sides and the

positioning frames

63, 2 buffer springs 68 are connected between the outer sides of the movable bottom plates 64 on the left and right sides and the positioning frames 63, the first guide slide rods 66 are arranged on the front and back sides and the left and right sides of the inner wall of the shockproof box 2, and the first guide slide rods 66 are connected with the positioning rods 65 on the same side in a sliding manner, and a first return spring 67 is connected between the outer side of the positioning rod 65 and the first guide slide bar 66.

The placing mechanism 7 comprises a conveying belt 71, bearing plates 72, driven transverse shafts 73, connecting transverse rods 74, positioning short plates 75, reset guide rods 76, second reset springs 77, first pressure sensors 78, a telescopic electromagnetic valve 79, a positioning push block 710, third reset springs 711 and a limiting clamping block 712, the driven transverse shafts 73 are arranged on the left side of the inner wall of the shock absorption box 61 in an up-and-down symmetrical and rotating mode, the conveying belts 71 are symmetrically connected with the driven transverse shafts 73 in a front-and-back mode through driving wheels, the conveying belt 71 is provided with a plurality of bearing plates 72, the inner sides of the conveying belts 71 are provided with the connecting transverse rods 74, the positioning short plates 75 are connected between the connecting transverse rods 74, the reset guide rods 76 are symmetrically arranged on the left side of the inner wall of the shock absorption box 61 in a front-and-back mode, the reset guide rods 76 are connected with the positioning short plates 75 in a sliding mode, the second reset springs 77 are connected between the bottoms of the connecting transverse rods 74, the bottom of the inner wall of the shock absorption box 61 is provided with the first pressure sensors 78, the right side of the shock absorption box 61 is provided with a telescopic electromagnetic valve 79, the top of the telescopic electromagnetic valve 79 is provided with a positioning push block 710, the right side of the top of the shock absorption box 61 is slidably provided with a limiting

fixture block

712, and 2 third return springs 711 are symmetrically connected front and back between the limiting fixture block 712 and the right side of the shock absorption box 61.

The worker can push the sealing top cover 3 to rotate leftwards to open, the packaging carton with mobile phone accessories is placed in the shock absorption box 61, the packaging carton moves downwards to extrude the bearing plate 72 to move downwards so as to drive the material conveying belt 71 to rotate, the material conveying belt 71 rotates to drive the positioning short plate 75 to move downwards through the connecting cross rod 74, the second reset spring 77 is compressed, then a new packaging carton is placed on the next rotated bearing plate 72, after the placement is finished, the bottommost packaging carton and the first pressure sensor 78 send out a signal when the first pressure sensor 78 detects that the pressure exceeds a preset value, the control module receives the signal and controls the operation of the telescopic solenoid valve 79, the telescopic solenoid valve 79 extends to push the positioning push block 710 to move upwards to extrude the limiting block 712, and the limiting block 712 moves leftwards to be positioned above the packaging carton and limits the packaging carton, the third return spring 711 is compressed, then the electromagnetic operation in the telescopic solenoid valve 79 fixes the positioning push block 710 and the limiting fixture block 712 to prevent the packing carton from shaking excessively to get rid of the limit, then the sealing top cover 3 is pushed to rotate rightwards to close the shockproof box 2, at the moment, the shockproof box 61 is stressed to move downwards, the shockproof spring 62 is compressed, in the transportation process, the movable bottom plate 64 can move on the positioning frame 63, the positioning rod 65 can move on the first guide slide rod 66, so that the shockproof box 61 can be driven to do any plane movement, meanwhile, the first return spring 67 and the buffer spring 68 can provide buffer return action for the movement of the movable bottom plate 64 and the positioning rod 65, the collision condition of the packing carton is reduced, the basic function is realized, after the transportation is finished, the sealing top cover 3 is opened, the topmost packing carton is taken out by hand, the first pressure sensor 78 detects that the pressure is lower than the preset value and sends a signal, control module received signal and then control flexible solenoid valve 79 and carry out reverse operation, flexible solenoid valve 79 shortens to drive location ejector pad 710 and moves down and resets, spacing fixture block 712 moves right under the effect of third reset spring 711 and resets, no longer spacing to remaining packing carton, continue to take out the packing carton, bearing plate 72 is no longer atress during the period, second reset spring 77 resets and drives location short slab 75 and connect horizontal pole 74 and upwards reset, connect horizontal pole 74 and drive fortune material belt 71 and rotate and reset, all take out the back, bradyseism case 61 is no longer atress, all reset under the effect of bradyseism spring 62.

The shock absorber further comprises a supporting mechanism 8, the supporting mechanism 8 comprises a supporting base plate 81, a supporting fixture block 82, a supporting guide pillar 83, a fourth reset spring 84, a limiting roller 85, a second guide slide bar 86, a fifth reset spring 87, a reversing bevel gear 88, a first positioning short shaft 89, a belt transmission assembly 810, a positioning long rod 811, an accelerating gear 812, a second positioning short shaft 813, a synchronous belt 814, a positioning screw 815 and a lifting fixture block 816, the supporting guide pillars 83 are symmetrically arranged on the front side of the bottom of the inner wall of the shock absorption box 61 in a left-right mode, the lifting fixture block 816 is slidably arranged on the supporting guide pillar 83, the fourth reset spring 84 is connected between the bottom of the lifting fixture block 816 and the supporting guide pillar 83, the supporting base plate 81 is connected between the rear sides of the lifting fixture blocks 816, the limiting roller 85 is arranged on the right side of the middle of the supporting base plate 81, a plurality of second guide slide bars 86 are arranged on the lower portion of the right side of the inner wall of the shock absorption box 61, the supporting fixture 82 is slidably connected between the second guide slide bars 86, a fifth return spring 87 is connected between the right side of the supporting fixture block 82 and the second guide slide bar 86, a reversing box is embedded in the left rear side of the damping box 61, an upper driven transverse shaft 73 penetrates through the reversing box and is rotatably connected with the reversing box, a long positioning rod 811 is rotatably arranged on the left side of the reversing box, a first short positioning shaft 89 is rotatably arranged on the right side of the bottom of the reversing box, a belt transmission assembly 810 is connected between the first short positioning shaft 89 and the bottom of the long positioning rod 811, reversing bevel gears 88 are respectively arranged on the top of the first short positioning shaft 89 and the rear side of the upper driven transverse shaft 73, the reversing bevel gears 88 are mutually meshed, a second short positioning shaft 813 is rotatably arranged on the right side of the top of the reversing box, accelerating gears 812 are respectively arranged on the upper portions of the second short positioning shaft 813 and the long positioning rod 811, the accelerating gears 812 are mutually meshed, positioning screw rods 815 are symmetrically rotatably arranged on the left and right side of the rear side of the inner wall of the damping box 61, and the positioning screw rods 815 are respectively in threaded connection with the supporting base plate 81, the upper parts of the positioning screw rod 815 and the second positioning short shaft 813 are both provided with sunken gear rings, and a synchronous belt 814 is connected between the sunken gear rings.

When the packing carton is put in, the material conveying belt 71 rotates to drive the reversing bevel gear 88 to rotate through the driven transverse shaft 73, and further drives the first positioning short shaft 89 to rotate, the first positioning short shaft 89 rotates to drive the positioning long shaft 811 to rotate through the belt transmission component 810, the positioning long shaft 811 rotates to drive the second positioning short shaft 813 to rotate through the accelerating gear 812, the second positioning short shaft 813 rotates to drive the concave gear ring to rotate through the synchronous belt 814, and further drives the positioning screw 815 to rotate, the positioning screw 815 rotates to drive the supporting bottom plate 81 to synchronously move downwards under the guiding action, so that the packing carton can be supported, the packing carton is prevented from being toppled over by the support of the bearing plate 72, at the moment, the supporting bottom plate 81 drives the lifting fixture block 816 to move downwards, the fourth reset spring 84 is compressed, and meanwhile, the supporting bottom plate 81 moves downwards to drive the limiting idler wheel 85 to move downwards to be contacted with the supporting fixture block 82, the protruding part of the supporting clamping block 82 is extruded to move rightwards, the fifth return spring 87 is compressed, when the limiting roller 85 moves to the recessed part of the supporting clamping block 82, the fifth return spring 87 resets to drive the supporting clamping block 82 to move leftwards to abut against the right side of the packaging carton, the reinforcing limiting is realized, the supporting bottom plate 81 can be driven to stop moving when the material conveying belt 71 stops rotating, otherwise, the material conveying belt 71 resets to drive the supporting bottom plate 81 to move upwards to eject the packaging carton, and the packaging carton is taken in a matched mode.

Still including locking mechanical system 9, locking mechanical system 9 is including electric putter 91, unlock button 92, connect short block 93, locking horizontal pole 94, location hyoplastron 95 and

second pressure sensor

96, 2 right sides of shockproof case are embedded to be equipped with electric putter 91, electric putter 91's telescopic link front side is equipped with connects short block 93, it is equipped with locking horizontal pole 94 to connect short block 93 upper portion, sealed top cap 3 bottom right side longitudinal symmetry slidingtype is equipped with location hyoplastron 95, location hyoplastron 95 and locking horizontal pole 94 sliding fit, 2 right sides of shockproof case are equipped with second pressure sensor 96 through the elastic component slidingtype, second pressure sensor 96 is located the location hyoplastron 95 below of front side, 2 right front sides of shockproof case are equipped with unlock button 92.

After the packing carton is placed, close sealing top cover 3 and drive in locating tongue plate 95 immigration shockproof case 2, second pressure sensor 96 detects pressure and sends out a signal when surpassing the default, control module received signal and then control electric putter 91's telescopic link extension 2 seconds stop working immediately, electric putter 91's telescopic link extension drives locking horizontal pole 94 through connecting short block 93 and moves forward and block locating tongue plate 95, so alright lock sealing top cover 3, prevent that sealing top cover 3 from being opened on the way of the transportation, the transportation finishes, press unlock button 92 signals, control module received signal and then control electric putter 91's telescopic link shortens 2 seconds and resets, electric putter 91's telescopic link shortens and drives locking horizontal pole 94 through connecting short block 93 and move backward and no longer block locating tongue plate 95, the opening of cooperation sealing top cover 3.

The shockproof box comprises a shockproof box 2 and is characterized by further comprising a safety protection mechanism 10, wherein the safety protection mechanism 10 comprises a compression gas tank 101, a spherical electromagnetic valve 102, a shunt conduit 103, compression gas bags 104, a contact short rod 105, a third pressure sensor 106 and a supporting spring 107, the compression gas tank 101 is arranged on the left front side of the bottom of the shockproof box 2, the spherical electromagnetic valve 102 is arranged on the left rear side of the bottom of the shockproof box 2, the spherical electromagnetic valve 102 is connected with the rear side of the compression gas tank 101, the shunt conduit 103 is arranged in the middle of the bottom of the shockproof box 2, the rear side of the compression gas tank 101 is connected with the

shunt conduit

103, 2 compression gas bags 104 are arranged in an embedded manner on the front side and the rear side of the inner wall of the shockproof box 2, the two compression gas bags 104 on the front side are connected with the front end of the shunt conduit 103, the two compression gas bags 104 on the rear side are connected with the rear end of the shunt conduit 103, the contact short rod 105 is movably arranged on the front side and the right side of the bottom of the inner wall of the shockproof box 2, the contact short rod 105 is connected with the supporting spring 107, the bottom of the inner wall of the shockproof box 2 is provided with a third pressure sensor 106, and the third pressure sensor 106 is connected with the contact short rod 105 in a sliding way.

When the shock absorption box 61 suddenly moves downwards rapidly by a strong force to contact the contact short rod 105, the contact short rod 105 moves downwards to extrude the third pressure sensor 106, the supporting spring 107 is compressed, the third pressure sensor 106 sends a signal when detecting that the pressure exceeds a preset value, the control module receives the signal and further controls the spherical electromagnetic valve 102 to stop operating after 5 seconds, the spherical electromagnetic valve 102 operates to drive the gas in the compression gas tank 101 to be rapidly pumped into the compression gas bag 104 through the shunt conduit 103, and the compression gas bag 104 rapidly expands to perform timely safety protection on the shock absorption box 61.

Still including constant temperature equipment 11, constant temperature equipment 11 is including location top case 111, temperature sensor 112, trompil roof 113, dustproof end net 114 and radiator fan 115, and sealed top cap 3 top is equipped with location top case 111, and location top case 111 bottom is equipped with dustproof end net 114, is connected with radiator fan 115 between the location top case 111 inner wall left and right sides, and location top case 111 top is equipped with trompil roof 113, and sealed top cap 3 inner wall right side is equipped with temperature sensor 112.

When the temperature in the shockproof box 2 is too high, the performance of the accessories is possibly damaged, the temperature sensor 112 sends a signal when detecting that the temperature reaches a preset value, the control module receives the signal and then controls the cooling fan 115 to rotate, the cooling fan 115 rotates to drive cold air to blow to the packaging carton, the cooling effect is achieved, the temperature is cooled to a normal state, the temperature sensor 112 sends a signal when detecting that the temperature is lower than the preset value, and the control module receives the signal and then controls the cooling fan 115 to stop rotating.

The electric cabinet is characterized by further comprising an electric cabinet 5, the electric cabinet 5 is arranged on the right front side of the supporting underframe 1, a switching power supply, a power supply module and a control module are mounted in the electric cabinet 5, the switching power supply supplies power to the whole equipment, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit, the first pressure sensor 78, the second pressure sensor 96, the third pressure sensor 106, the unlocking button 92 and the temperature sensor 112 are all electrically connected with the control module, and the electric push rod 91, the cooling fan 115, the spherical electromagnetic valve 102 and the telescopic electromagnetic valve 79 are all connected with the control module through peripheral circuits.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A shockproof device for mobile phone accessory transportation is characterized by comprising: the shock-proof packaging box comprises a supporting chassis (1), a shock-proof box (2), a sealing top cover (3), a heat dissipation window (4), a shock-proof mechanism (6) and a placing mechanism (7), wherein the shock-proof box (2) is arranged at the top of the supporting chassis (1), the sealing top cover (3) is hinged to one side of the top of the shock-proof box (2), the heat dissipation window (4) which can balance the temperature to a certain degree is embedded into one side of the supporting chassis (1), the shock-proof mechanism (6) for damping the packaging carton is arranged in the shock-proof box (2), and the placing mechanism (7) is arranged in the shock-proof box (2).

2. Shock protection device for the transportation of accessories of mobile phones according to claim 1, characterized in that the shock protection mechanism (6) comprises: the damping box comprises a damping box (61), damping springs (62), positioning frames (63), movable bottom plates (64), positioning rods (65), first guide slide rods (66), first reset springs (67) and buffer springs (68), the damping springs (62) are symmetrically connected to the bottom of the inner wall of the damping box (2), the damping box (61) is connected between the tops of the damping springs (62), the positioning frames (63) are arranged on four sides of the damping box (61), the movable bottom plates (64) are arranged on the positioning frames (63) in a sliding mode, the positioning rods (65) are arranged on the bottoms of the movable bottom plates (64) in a sliding mode, 3 buffer springs (68) are connected between the outer sides of the movable bottom plates (64) on two sides and the positioning frames (63), 2 buffer springs (68) are connected between the outer sides of the movable bottom plates (64) on two sides and the positioning frames (63), the first guide slide rods (66) are arranged on four sides of the inner wall of the damping box (2), a first return spring (67) is connected between the outer side of the positioning rod (65) and the first guide slide rod (66).

3. Shock protection device for the transportation of accessories of mobile phones according to claim 2, characterized in that the placing mechanism (7) comprises: the shock absorption device comprises a conveying belt (71), bearing plates (72), a driven transverse shaft (73), connecting transverse rods (74), positioning short plates (75), reset guide rods (76), second reset springs (77), a first pressure sensor (78), a telescopic electromagnetic valve (79), a positioning push block (710), a third reset spring (711) and limiting clamping blocks (712), wherein the driven transverse shafts (73) are arranged on the inner wall of a shock absorption box (61) in an up-and-down symmetrical rotating mode, the conveying belt (71) is symmetrically connected between the driven transverse shafts (73), a plurality of bearing plates (72) are arranged on the conveying belt (71), the connecting transverse rods (74) are arranged on the inner sides of the conveying belt (71), the positioning short plates (75) are connected between the connecting transverse rods (74), the reset guide rods (76) are symmetrically arranged on the inner wall of the shock absorption box (61), the second reset springs (77) are connected between the bottoms of the connecting transverse rods (74) and the reset guide rods (76), the bottom of the inner wall of the cushioning box (61) is provided with a first pressure sensor (78), one side of the cushioning box (61) is provided with a telescopic electromagnetic valve (79), the top of the telescopic electromagnetic valve (79) is provided with a positioning push block (710), one side of the top of the cushioning box (61) is slidably provided with a limiting clamping block (712), and 2 third reset springs (711) are symmetrically connected between the limiting clamping block (712) and the cushioning box (61).

4. Anti-shock device for mobile phone accessory transportation according to claim 3, characterized in that it further comprises a support mechanism (8), the support mechanism (8) comprises: the shock absorption device comprises a supporting base plate (81), supporting clamping blocks (82), supporting guide pillars (83), a fourth reset spring (84), limiting idler wheels (85), a second guide slide bar (86), a fifth reset spring (87), a reversing bevel gear (88), a first positioning short shaft (89), a belt transmission assembly (810), a positioning long rod (811), an accelerating gear (812), a second positioning short shaft (813), a synchronous belt (814), a positioning screw rod (815) and lifting clamping blocks (816), wherein the supporting guide pillars (83) are symmetrically arranged at the bottom of the inner wall of a shock absorption box (61), the lifting clamping blocks (816) are arranged on the supporting guide pillars (83) in a sliding mode, the fourth reset spring (84) is connected between the bottom of each lifting clamping block (816) and the supporting guide pillar (83), the supporting base plate (81) is connected between the inner sides of the lifting clamping blocks (816), the limiting idler wheels (85) are arranged in the middle of the supporting base plate (81), a plurality of second guide slide bars (86) are arranged on the inner wall of the lower part of the shock absorption box (61), a support clamping block (82) is connected between the second guide slide bars (86) in a sliding manner, a fifth reset spring (87) is connected between the support clamping block (82) and the second guide slide bars (86), a reversing box is embedded in one side of the shock absorption box (61), a long positioning rod (811) is rotatably arranged on one side of the reversing box, a first short positioning shaft (89) is rotatably arranged on one side of the bottom of the reversing box, a belt transmission assembly (810) is connected between the first short positioning shaft (89) and the bottom of the long positioning rod (811), reversing bevel gears (88) are respectively arranged on the top of the first short positioning shaft (89) and one side of the driven transverse shaft (73) on the upper side, the reversing bevel gears (88) are mutually meshed, a second short positioning shaft (813) is rotatably arranged on one side of the top of the reversing box, accelerating gears (812) are respectively arranged on the top of the second short positioning shaft (813) and the long positioning rod (811), accelerating gear (812) intermeshing, bradyseism case (61) inner wall symmetry rotary type is equipped with positioning screw (815), and positioning screw (815) all are equipped with sunken ring gear with second location minor axis (813) upper portion, are connected with synchronous belt (814) between the sunken ring gear.

5. Shockproof device for mobile phone accessory transportation according to claim 4, characterized in that, it further comprises a locking mechanism (9), the locking mechanism (9) comprises: electric putter (91), unlock button (92), connect short piece (93), locking horizontal pole (94), location hyoplastron (95) and second pressure sensor (96), case (2) one side is taken precautions against earthquakes is embedded to be equipped with electric putter (91), be equipped with on electric putter's (91) the telescopic link and connect short piece (93), it is equipped with locking horizontal pole (94) to connect short piece (93) upper portion, sealed top cap (3) bottom one side symmetry slidingtype is equipped with location hyoplastron (95), case (2) one side slidingtype that takes precautions against earthquakes is equipped with second pressure sensor (96), case (2) one side that takes precautions against earthquakes is equipped with unlock button (92).

6. The shock mount for mobile phone accessory transportation according to claim 5, further comprising a safety protection mechanism (10), wherein the safety protection mechanism (10) comprises: compressed gas tank (101), spherical solenoid valve (102), reposition of redundant personnel pipe (103), compression gasbag (104), contact quarter butt (105), third pressure sensor (106) and supporting spring (107), case (2) bottom one side of taking precautions against earthquakes is equipped with compressed gas tank (101), case (2) bottom one side of taking precautions against earthquakes is equipped with spherical solenoid valve (102), case (2) bottom one side of taking precautions against earthquakes is equipped with reposition of redundant personnel pipe (103), case (2) inner wall both sides of taking precautions against earthquakes all embed-type and are equipped with 2 compression gasbag (104), case (2) inner wall bottom one side slidingtype of taking precautions against earthquakes is equipped with contact quarter butt (105), be connected with supporting spring (107) between contact quarter butt (105) bottom and case (2) inner wall of taking precautions against earthquakes, case (2) inner wall bottom of taking precautions against earthquakes is equipped with third pressure sensor (106).

7. Anti-shock device for mobile phone accessory transportation according to claim 6, characterized in that it further comprises a constant temperature mechanism (11), the constant temperature mechanism (11) comprises: location top case (111), temperature sensor (112), trompil roof (113), dustproof end net (114) and radiator fan (115), sealing top cap (3) top is equipped with location top case (111), location top case (111) bottom is equipped with dustproof end net (114), be connected with radiator fan (115) between location top case (111) inner wall both sides, location top case (111) top is equipped with trompil roof (113), sealing top cap (3) inner wall one side is equipped with temperature sensor (112).

8. The shock mount for transportation of accessories of cellular phones of claim 7, further comprising: the electric cabinet (5) is arranged on the right front side of the supporting underframe (1), a switching power supply, a power supply module and a control module are installed in the electric cabinet (5), the switching power supply supplies power to the whole transportation device, the output end of the switching power supply is electrically connected with the power supply module, a power supply main switch is connected to the power supply module through a circuit, and the power supply module is electrically connected with the control module; the control module is electrically connected with a DS1302 clock circuit and a 24C02 circuit, the first pressure sensor (78), the second pressure sensor (96), the third pressure sensor (106), the unlocking button (92) and the temperature sensor (112) are electrically connected with the control module, and the electric push rod (91), the cooling fan (115), the spherical electromagnetic valve (102) and the telescopic electromagnetic valve (79) are connected with the control module through peripheral circuits.