CN116534472B - Storage equipment for commodity circulation - Google Patents

Abstract

The invention discloses a storage device for logistics, which comprises a storage rack, a storage box, a pneumatic mechanism and a transfer device. The invention belongs to the technical field of logistics storage, in particular to logistics storage equipment, which realizes the technical effects of flexible nondestructive package, shock absorption, support and protection of articles by combining shock absorption support and air inflation package according to the characteristics of easy damp vibration and damage during storage of electronic components; under the condition of no gas generator, the multiple technical effects of inflating and wrapping the air bag, vacuum storage and blowing dust removal are realized only through mechanical rotation; according to the condition that manpower storage wastes time and energy, adopt hydraulic pressure and roller chain to combine together the mode, realize the technical effect to the automatic transportation storage of article.

Description

Storage equipment for commodity circulation

Technical Field

The invention belongs to the technical field of logistics storage, and particularly relates to logistics storage equipment.

Background

In some logistics industries, it is often desirable to store or transfer items. Due to the characteristics of mass and multiple varieties in the logistics industry, the articles are more. If the transmission is performed manually, the time and the labor are wasted. Therefore, automation of storage, transmission and transportation of the articles is considered, so that the acquisition time is shortened, the logistics speed is improved, and the production efficiency is improved; in addition, some special types of articles are stored in a warehouse, and moisture, oxidation and damage are prevented.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a logistics storage device for solving the technical problems.

The technical scheme adopted by the invention is as follows: the invention provides a storage device for logistics, which comprises a storage frame, a storage box, a pneumatic mechanism and a transfer device, wherein the storage box is arranged on the storage frame; the storage box realizes the technical effects of flexible nondestructive package, damping and supporting protection of special objects by combining a damping type support and an air bag expansion package, the pneumatic mechanism is arranged on the storage rack, the pneumatic mechanism only adopts a rotary driving mode, and realizes the multiple technical effects of air bag inflation package, vacuum storage and blowing dust removal by only mechanical rotation under the condition of no gas generator, and the transfer device is arranged on the storage rack; the pneumatic mechanism comprises an L-shaped fixing plate, a rotary driving device, a storage device and a dust removing device, wherein the L-shaped fixing plate is arranged on a storage frame, the rotary driving device is arranged on the L-shaped fixing plate, the storage device is arranged on the L-shaped fixing plate and is connected with the rotary driving device, and the dust removing device is arranged on a storage box.

Further, the storage device comprises a bending type piston rod, a suction and discharge self-separation plate, a rotary air cylinder, a fixed limiting plate, a vacuum adsorption pipe and an air bag filling expansion pipe, wherein the suction and discharge self-separation plate is arranged on an L-shaped fixed plate, the rotary air cylinder is clamped and rotated to be arranged in the suction and discharge self-separation plate, a vacuum adsorption cavity and an air bag filling cavity are arranged in the rotary air cylinder, the bending type piston rod comprises a vacuum bending type piston rod and an air bag bending type piston rod, the vacuum bending type piston rod is movably arranged in the vacuum adsorption cavity, the air bag bending type piston rod is movably arranged in the air bag filling cavity, the fixed limiting plate is connected with the suction and discharge self-separation plate, and the fixed limiting plate is used for limiting the rotary air cylinder.

As a further preferred aspect of the present invention, the suction and discharge self-separating plate member includes a separating plate, a gas cylinder engaging groove, a vacuum adsorption groove, a gas bag filling groove, a vacuum adsorption hole and a gas bag filling hole, the separating plate is provided on the L-shaped fixing plate, the gas cylinder engaging groove is provided on the separating plate, the vacuum adsorption groove is provided below the gas cylinder engaging groove, the gas bag filling groove is provided below the gas cylinder engaging groove, the vacuum adsorption groove is provided at an interval from the gas bag filling groove, the vacuum adsorption hole is provided on the separating plate, the vacuum adsorption hole is connected with the vacuum adsorption groove in a penetrating manner, the gas bag filling hole is provided on the separating plate, the gas bag filling hole is connected with the gas bag filling groove in a penetrating manner, the vacuum adsorption pipe is connected with the vacuum adsorption hole, and the gas bag filling pipe is connected with the gas bag filling hole.

Further, the rotary driving device comprises a rotary cylinder, a stabilizing frame, a fixing block, a rotary motor and a rotary motor fixing piece, wherein the fixing block is arranged on the L-shaped fixing plate, the stabilizing frame is arranged on the L-shaped fixing plate, the rotary cylinder is rotationally arranged in the stabilizing frame, the rotary motor fixing piece is arranged on the L-shaped fixing plate, the rotary motor is arranged on the L-shaped fixing plate, the output end of the rotary motor is connected with the rotary cylinder, a vacuum piston cavity and a filling piston cavity are arranged in the rotary cylinder, the vacuum bending piston rod is movably arranged in the vacuum piston cavity, and the air bag bending piston rod is movably arranged in the filling piston cavity.

Further, dust collector includes toper gas release pipe, blowing dust removal hole, fender class cover, closing plate, release motor and release motor mounting, toper gas release pipe link up with the storage box and link to each other, and the setting of toper gas release pipe increases blowing point and blowing area, the blowing dust removal hole is located on the toper gas release pipe, keep off the class cover and locate on the blowing dust removal hole, prevent that the air current that blows out from shifting up extravagantly, the closing plate rotates and seals to locate in the toper gas release pipe, release motor mounting is located on the storage box upper wall, release motor locates on the release motor mounting, release motor's output links to each other with the closing plate.

Preferably, the storage box comprises a box body, an engagement transmission sealing door, a wrapping bag, a bearing component and an article pushing-out telescopic rod, wherein the box body is arranged on the storage frame, a filling hole and a releasing hole are formed in the upper wall of the box body, a conical gas releasing pipe is connected with the releasing hole, an air bag filling expansion pipe is connected with the filling hole, an air suction hole is formed in the rear wall of the box body, a vacuum adsorption pipe is connected with the air suction hole, the engagement transmission sealing door is arranged on the box body, the wrapping bag is arranged in the box body, the bearing component is arranged on the bottom wall of the inner side of the box body and is used for carrying out shock absorption type bearing on the article, and the article pushing-out telescopic rod 42 is arranged on the box body 38.

Further, the support assembly comprises a spring and a support plate, wherein the spring is arranged on the bottom wall of the inner side of the box body, and the support plate is arranged on the spring.

The meshing transmission sealing door comprises a clamping sliding through groove, a clamping transmission sealing door, a rack, a gear, a transmission motor and a transmission motor fixing piece, wherein the clamping sliding through groove is formed in the box body, the clamping transmission sealing door is clamped and slidingly arranged in the clamping sliding through groove, the rack is arranged on the side wall of the clamping transmission sealing door, the transmission motor fixing piece is arranged on the box body, the transmission motor is arranged on the transmission motor fixing piece, the gear is connected with the output end of the transmission motor, and the gear is meshed with the rack.

Further, the transfer device comprises a spiral transmission assembly and a transfer assembly, wherein the spiral transmission assembly is arranged on the storage rack, and the transfer assembly is arranged on the spiral transmission assembly; the conveying component comprises a hydraulic cylinder, a chain fixed end, a limiting groove plate, a roller, a chain, a conveying piece and a pushing and discharging telescopic rod, wherein the hydraulic cylinder is arranged on the spiral transmission component, the roller is rotationally arranged at the movable end of the hydraulic cylinder, the chain is sleeved on the roller, one end of the chain is connected with the chain fixed end, the limiting groove plate is arranged on the outer side wall of the hydraulic cylinder, the conveying piece is clamped and slidingly arranged in the limiting groove plate, the other end of the chain is connected with the conveying piece, and the pushing and discharging telescopic rod is arranged on the conveying piece.

As a further preferred aspect of the present invention, the screw driving assembly includes a fixed plate, a screw rod, a limit sliding rod, a moving motor and a moving motor fixing member, wherein the fixed plate is symmetrically disposed on the storage rack, the screw rod is rotatably disposed on the fixed plate, the limit sliding rod is disposed on the fixed plate, the moving motor fixing member is disposed on the fixed plate, the moving motor is disposed on the moving motor fixing member, and an output end of the moving motor is connected with the screw rod.

The beneficial effects obtained by the invention by adopting the structure are as follows:

1. according to the characteristic that the articles are easy to wet and vibrate to damage during storage, the technical effect of flexible nondestructive package shock absorption, support and protection of the articles is achieved through a mode of combining shock absorption type support and air bag expansion package.

2. Under the condition of no gas generator, the multiple technical effects of inflating and wrapping the air bag, vacuum storage and blowing dust removal are realized only through mechanical rotation.

3. According to the condition that manpower storage wastes time and energy, adopt hydraulic pressure and roller chain to combine together the mode, realize the technical effect to the automatic transportation storage of article.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a logistic storage device according to the present invention;

FIG. 2 is a left side view of a logistic warehouse apparatus according to the present invention;

fig. 3 is a front view of a logistic warehouse apparatus according to the present invention;

FIG. 4 is a schematic structural view of a pneumatic mechanism;

FIG. 5 is a schematic view of the structure of the suction and exhaust self-separating plate member;

FIG. 6 is a schematic view of a rotary inflator;

FIG. 7 is a schematic view of the structure of the rotating drum;

FIG. 8 is a schematic view of a portion of the structure of a bin;

FIG. 9 is a front view of a portion of the bin configuration;

FIG. 10 is a schematic view of a dust collector;

FIG. 11 is a cross-sectional view of a dust extraction device;

FIG. 12 is a schematic view of the structure of a bin;

FIG. 13 is a schematic view of the rear structure of the bin;

fig. 14 is a cross-sectional view of the bin;

FIG. 15 is a schematic view of the transfer device;

FIG. 16 is a front view of the transfer device;

fig. 17 is a schematic structural view of a warehouse rack.

Wherein 1, a storage rack, 2, a storage box, 3, a pneumatic mechanism, 4, a transfer device, 5, an L-shaped fixing plate, 6, a rotary driving device, 7, a storage device, 8, a dust removing device, 9, a bent piston rod, 10, a suction and discharge self-separation plate, 11, a rotary air cylinder, 12, a fixed limiting plate, 13, a vacuum adsorption pipe, 14, an air bag filling expansion pipe, 15, a vacuum adsorption cavity, 16, an air bag filling cavity, 17, a vacuum bent piston rod, 18, an air bag bent piston rod, 19, a partition plate, 20, an air cylinder clamping groove, 21, a vacuum adsorption groove, 22, an air bag filling groove, 23, a vacuum adsorption hole, 24, an air bag filling hole, 25, a rotary cylinder, 26, a stable frame, 27, a fixing block, 28, a rotary motor, 29, a rotary motor fixing piece, 30, a vacuum piston cavity, 31, a filling piston cavity, 32, a conical gas release pipe, 33, blowing dust removal holes, 34, flow blocking covers, 35, sealing plates, 36, release motors, 37, release motor fixing pieces, 38, box bodies, 39, meshing transmission sealing doors, 40, wrapping bags, 41, supporting components, 42, article pushing telescopic rods, 43, filling holes, 44, release holes, 45, suction holes, 46, springs, 47, supporting plates, 48, clamping sliding through grooves, 49, clamping transmission sealing doors, 50, racks, 51, gears, 52, transmission motors, 53, transmission motor fixing pieces, 54, spiral transmission components, 55, transfer components, 56, hydraulic cylinders, 57, chain fixing ends, 58, limit groove plates, 59, rollers, 60, chains, 61, transfer components, 62, pushing and unloading telescopic rods, 63, fixing plates, 64, spiral rods, 65, limit sliding rods, 66, moving motors, 67 and moving motor fixing pieces.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

Referring to fig. 1, 2, 3 and 17, the invention provides a storage device for logistics, which comprises a storage frame 1, a storage box 2, a pneumatic mechanism 3 and a transfer device 4, wherein the storage box 2 is arranged on the storage frame 1, the pneumatic mechanism 3 is arranged on the storage frame 1, and the transfer device 4 is arranged on the storage frame 1.

Referring to fig. 1, 12, 13 and 14, the storage box 2 comprises a box body 38, an engaged transmission sealing door 39, a wrapping bag 40, a bearing component 41 and an article pushing telescopic rod 42, wherein the box body 38 is arranged on a storage frame, a filling hole 43 and a releasing hole 44 are formed in the upper wall of the box body 38, a conical gas releasing pipe 32 is connected with the releasing hole 44, an air bag filling expansion pipe 14 is connected with the filling hole 43, an air suction hole 45 is formed in the rear wall of the box body 38, a vacuum adsorption pipe 13 is connected with the air suction hole 45, the engaged transmission sealing door 39 is arranged on the box body 38, the wrapping bag 40 is arranged in the box body 38, the bearing component 41 is arranged on the bottom wall on the inner side of the box body 38, and the article pushing telescopic rod 42 is arranged on the box body 38; the support assembly 41 comprises a spring 46 and a support plate 47, the spring 46 is arranged on the bottom wall of the inner side of the box body 38, and the support plate 47 is arranged on the spring 46; the meshing transmission sealing door 39 comprises a clamping sliding through groove 48, a clamping transmission sealing door 49, a rack 50, a gear 51, a transmission motor 52 and a transmission motor fixing piece 53, wherein the clamping sliding through groove 48 is formed in the box body 38, the clamping transmission sealing door 49 is arranged in the clamping sliding through groove 48 in a clamping sliding mode, the rack 50 is arranged on the side wall of the clamping transmission sealing door 49, the transmission motor fixing piece 53 is arranged on the box body 38, the transmission motor 52 is arranged on the transmission motor fixing piece 53, the gear 51 is connected with the output end of the transmission motor 52, and the gear 51 is meshed and connected with the rack 50.

Referring to fig. 1, 4, 5, 6, 7, 8 and 9, the pneumatic mechanism 3 includes an L-shaped fixing plate 5, a rotary driving device 6, a storage device 7 and a dust removing device 8, the L-shaped fixing plate 5 is arranged on the storage rack 1, the rotary driving device 6 is arranged on the L-shaped fixing plate 5, the storage device 7 is connected with the rotary driving device 6, and the dust removing device 8 is arranged on the storage box 2; the storage device 7 comprises a bent type piston rod 9, a suction and discharge self-partition plate member 10, a rotary air cylinder 11, a fixed limiting plate member 12, a vacuum adsorption tube 13 and an air bag filling expansion tube 14, wherein the suction and discharge self-partition plate member 10 is arranged on an L-shaped fixed plate 5, the rotary air cylinder 11 is clamped and rotated to be arranged in the suction and discharge self-partition plate member 10, a vacuum adsorption cavity 15 and an air bag filling cavity 16 are arranged in the rotary air cylinder 11, the bent type piston rod 9 comprises a vacuum bent type piston rod 17 and an air bag bent type piston rod 18, the vacuum bent type piston rod 17 is movably arranged in the vacuum adsorption cavity 15, the air bag bent type piston rod 18 is movably arranged in the air bag filling cavity 16, and the fixed limiting plate member 12 is connected with the suction and discharge self-partition plate member 10; the suction and discharge self-separating plate member 10 comprises a separating plate 19, a gas cylinder clamping groove 20, a vacuum adsorption groove 21, a gas bag filling groove 22, a vacuum adsorption hole 23 and a gas bag filling hole 24, wherein the separating plate 19 is arranged on the L-shaped fixing plate 5, the gas cylinder clamping groove 20 is arranged on the separating plate 19, the vacuum adsorption groove 21 is arranged below the gas cylinder clamping groove 20, the gas bag filling groove 22 is arranged below the gas cylinder clamping groove 20, the vacuum adsorption groove 21 and the gas bag filling groove 22 are arranged at intervals, the vacuum adsorption hole 23 is arranged on the separating plate 19, the vacuum adsorption hole 23 is communicated with the vacuum adsorption groove 21, the gas bag filling hole 24 is arranged on the separating plate 19, the gas bag filling hole 24 is communicated with the gas bag filling groove 22, the vacuum adsorption pipe 13 is connected with the vacuum adsorption hole 23, and the gas bag filling expansion pipe 14 is connected with the gas bag filling hole 24; the rotary driving device 6 comprises a rotary cylinder 25, a stabilizing frame 26, a fixing block 27, a rotary motor 28 and a rotary motor fixing piece 29, wherein the fixing block 27 is arranged on the L-shaped fixing plate 5, the stabilizing frame 26 is arranged on the L-shaped fixing plate 5, the rotary cylinder 25 is rotationally arranged in the stabilizing frame 26, the rotary motor fixing piece 29 is arranged on the L-shaped fixing plate 5, the rotary motor 28 is arranged on the L-shaped fixing plate 5, the output end of the rotary motor 28 is connected with the rotary cylinder 25, a vacuum piston cavity 30 and a filling piston cavity 31 are arranged in the rotary cylinder 25, the vacuum bending piston rod 17 is movably arranged in the vacuum piston cavity 30, and the air bag bending piston rod 18 is movably arranged in the filling piston cavity 31.

Referring to fig. 10 and 11, the dust removing device 8 includes a tapered gas releasing tube 32, a blowing dust removing hole 33, a flow blocking cover 34, a sealing plate 35, a releasing motor 36 and a releasing motor fixing piece 37, the tapered gas releasing tube 32 is connected with the warehouse box 2 in a penetrating way, the blowing dust removing hole 33 is arranged on the tapered gas releasing tube 32, the flow blocking cover 34 is arranged on the blowing dust removing hole 33, the sealing plate 35 is arranged in the tapered gas releasing tube 32 in a rotating and sealing way, the releasing motor fixing piece 37 is arranged on the upper wall of the warehouse box 2, the releasing motor 36 is arranged on the releasing motor fixing piece 37, and the output end of the releasing motor 36 is connected with the sealing plate 35.

Referring to fig. 1, 15 and 16, the transfer device 4 includes a screw driving assembly 54 and a transfer assembly 55, the screw driving assembly 54 is disposed on the storage rack 1, and the transfer assembly 55 is disposed on the screw driving assembly 54; the transfer assembly 55 comprises a hydraulic cylinder 56, a chain fixed end 57, a limiting groove plate 58, a roller 59, a chain 60, a transfer piece 61 and a pushing and unloading telescopic rod 62, wherein the hydraulic cylinder 56 is arranged on the spiral transmission assembly 54, the roller 59 is rotationally arranged at the movable end of the hydraulic cylinder 56, the chain 60 is sleeved on the roller 59, one end of the chain 60 is connected with the chain fixed end 57, the limiting groove plate 58 is arranged on the outer side wall of the hydraulic cylinder 56, the transfer piece 61 is arranged in the limiting groove plate 58 in a clamping and sliding manner, the other end of the chain 60 is connected with the transfer piece 61, and the pushing and unloading telescopic rod 62 is arranged on the transfer piece 61; the screw transmission assembly 54 comprises a fixed plate 63, a screw rod 64, a limit sliding rod 65, a mobile motor 66 and a mobile motor fixing piece 67, wherein the fixed plate 63 is symmetrically arranged on the storage rack 1, the screw rod 64 is rotationally arranged on the fixed plate 63, the limit sliding rod 65 is arranged on the fixed plate 63, the mobile motor fixing piece 67 is arranged on the fixed plate 63, the mobile motor 66 is arranged on the mobile motor fixing piece 67, and the output end of the mobile motor 66 is connected with the screw rod 64.

Working principle:

placing the articles to be stored on the transfer piece 61, starting a moving motor 66, rotating the moving motor 66 to drive a screw rod 64 to rotate, rotating the screw rod 64 to drive a hydraulic cylinder 56 to move, realizing the technical effect of adjusting the moving transverse distance, starting the hydraulic cylinder 56 after the adjustment is finished, operating the hydraulic cylinder 56 to drive a roller 59 to lift, lifting and rotating the roller 59 to drive a chain 60 to lift, lifting and rotating the chain 60 to drive a transfer piece 61 to lift, lifting and rotating the moving piece to drive the articles to lift until the articles move to the box 38, starting a transmission motor 52, rotating the transmission motor 52 to drive a gear 51 to rotate, rotating the gear 51 to drive a rack 50 to lift, lifting and rotating the rack 50 to drive a clamping transmission sealing door 49 to lift, opening the box 38, starting a pushing and discharging telescopic rod 62 to extend and push the articles to the supporting plate 47, starting the transmission motor 52 again to close the box 38, the rotary motor 28 is started, the rotary motor 28 rotates to drive the rotary cylinder 25 to rotate, the rotary cylinder 25 rotates to drive the vacuum bending type piston rod 17 and the air bag bending type piston rod 18 to rotate and stretch in the vacuum piston cavity 30 and the filling piston cavity 31 respectively, the vacuum bending type piston rod 17 and the air bag bending type piston rod 18 rotate and stretch to drive the rotary air cylinder 11 to rotate, meanwhile, the vacuum bending type piston rod 17 and the air bag bending type piston rod 18 stretch in the vacuum adsorption cavity 15 and the air bag filling cavity 16 respectively, the vacuum bending type piston rod 17 rotates and stretches to pump out air in the box body 38 through the vacuum adsorption tube 13, the vacuumizing operation of the box body 38 is realized, the technical effects of dampproofing, mould proofing, oxidation proofing and the like are realized, meanwhile, the air bag bending type piston rod 18 extrudes the air in the air bag filling cavity 16, and then is pressed into the air bag filling groove 22, the air bag filling hole 24 is further filled into the air bag filling expansion pipe 14, the filling hole 43 is used for carrying out the inflating operation on the wrapping bag 40, the wrapping bag 40 is inflated for carrying out flexible wrapping and fixing on the articles placed on the supporting plate 47, meanwhile, the spring 46 is used for damping, the technical effect of nondestructive wrapping, damping and safe storage of electronic elements is achieved, when the articles are required to be taken out, the release motor 36 is started, the release motor 36 rotates to drive the sealing plate 35 to rotate, the sealing plate 35 rotates, the air in the wrapping bag 40 is released and then enters the conical air release pipe 32, dust on the box 38 is discharged through the blowing dust removing hole 33, the air is blown downwards, the dust removing quality is further improved, the wrapping bag 40 is contracted at the moment, the stored articles are released, the clamping transmission sealing door 49 is opened, the article push-out telescopic rod 42 is started, the article push-out telescopic rod 42 is stretched, the technical effect of automatic article storage is achieved, and the step is repeated when the air bag is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (8)

1. The utility model provides a storage equipment for electronic components which characterized in that: the automatic feeding device comprises a storage rack (1), wherein storage boxes (2) are arranged in an array in the storage rack (1), a pneumatic mechanism (3) is communicated between the storage rack (1) and the storage boxes (2), and the bottom end of the storage rack is connected with a transfer device (4); the pneumatic mechanism (3) comprises an L-shaped fixing plate (5), a rotary driving device (6), a storage device (7) and a dust removing device (8), wherein the L-shaped fixing plate (5) is arranged on the storage rack (1), the rotary driving device (6) is arranged on the L-shaped fixing plate (5), the storage device (7) is connected with the rotary driving device (6), and the dust removing device (8) is arranged on the storage box (2); the storage device (7) comprises a bent piston rod (9), a suction and discharge self-separation plate (10), a rotary air cylinder (11), a fixed limiting plate (12), a vacuum adsorption pipe (13) and an air bag filling expansion pipe (14), wherein the suction and discharge self-separation plate (10) is arranged on an L-shaped fixed plate (5), the rotary air cylinder (11) is clamped and rotated to be arranged in the suction and discharge self-separation plate (10), a vacuum adsorption cavity (15) and an air bag filling cavity (16) are arranged in the rotary air cylinder (11), the bent piston rod (9) comprises a vacuum bent piston rod (17) and an air bag bent piston rod (18), the vacuum bent piston rod (17) is movably arranged in the vacuum adsorption cavity (15), and the air bag bent piston rod (18) is movably arranged in the air bag filling cavity (16), and the fixed limiting plate (12) is connected with the suction and discharge self-separation plate (10); the suction and exhaust self-separation plate (10) comprises a separation plate (19), an air cylinder clamping groove (20), a vacuum adsorption groove (21), an air bag filling groove (22), a vacuum adsorption hole (23) and an air bag filling hole (24), wherein the separation plate (19) is arranged on an L-shaped fixing plate (5), the air cylinder clamping groove (20) is arranged on the separation plate (19), the vacuum adsorption groove (21) is arranged below the air cylinder clamping groove (20), the air bag filling groove (22) is arranged below the air cylinder clamping groove (20), the vacuum adsorption groove (21) and the air bag filling groove (22) are arranged at intervals, the vacuum adsorption hole (23) is arranged on the separation plate (19), the vacuum adsorption hole (23) is communicated with the vacuum adsorption groove (21), the air bag filling hole (24) is arranged on the separation plate (19), the air bag filling hole (24) is communicated with the air bag filling groove (22), the vacuum adsorption pipe (13) is connected with the vacuum adsorption hole (23), and the air bag filling pipe (14) is connected with the air bag filling hole (24).

2. A stocker for electronic components according to claim 1, wherein: the rotary driving device (6) comprises a rotary cylinder (25), a stabilizing frame (26), a fixing block (27), a rotary motor (28) and a rotary motor fixing piece (29), wherein the fixing block (27) is arranged on an L-shaped fixing plate (5), the stabilizing frame (26) is arranged on the L-shaped fixing plate (5), the rotary cylinder (25) is rotationally arranged in the stabilizing frame (26), the rotary motor fixing piece (29) is arranged on the L-shaped fixing plate (5), the rotary motor (28) is arranged on the L-shaped fixing plate (5), the output end of the rotary motor (28) is connected with the rotary cylinder (25), a vacuum piston cavity (30) and a filling piston cavity (31) are arranged in the rotary cylinder (25), the vacuum bending type piston rod (17) is movably arranged in the vacuum piston cavity (30), and the air bag bending type piston rod (18) is movably arranged in the filling piston cavity (31).

3. A stocker for electronic components according to claim 2, wherein: the dust collector (8) comprises a conical gas release pipe (32), a blowing dust removal hole (33), a flow blocking cover (34), a sealing plate (35), a release motor (36) and a release motor fixing piece (37), wherein the conical gas release pipe (32) is communicated with the storage box (2), the blowing dust removal hole (33) is formed in the conical gas release pipe (32), the flow blocking cover (34) is arranged on the blowing dust removal hole (33), the sealing plate (35) is rotationally sealed in the conical gas release pipe (32), the release motor fixing piece (37) is arranged on the upper wall of the storage box (2), the release motor (36) is arranged on the release motor fixing piece (37), and the output end of the release motor (36) is connected with the sealing plate (35).

4. A stocker for electronic components according to claim 3, wherein: the storage box (2) comprises a box body (38), a meshing transmission sealing door (39), a wrapping bag (40), a bearing component (41) and a device push-out telescopic rod (42), wherein the box body (38) is arranged on a storage frame (1), a filling hole (43) and a release hole (44) are formed in the upper wall of the box body (38), a conical gas release pipe (32) is connected with the release hole (44), an air bag filling expansion pipe (14) is connected with the filling hole (43), an air suction hole (45) is formed in the rear wall of the box body (38), a vacuum adsorption pipe (13) is connected with the air suction hole (45), the meshing transmission sealing door (39) is arranged on the box body (38), the wrapping bag (40) is arranged in the box body (38), and the bearing component (41) is arranged on the inner bottom wall of the box body (38).

5. The warehouse facility for electronic components as claimed in claim 4, wherein: the bearing assembly (41) comprises a spring (46) and a bearing plate (47), wherein the spring (46) is arranged on the bottom wall of the inner side of the box body (38), and the bearing plate (47) is arranged on the spring (46).

6. A stocker for electronic components according to claim 5, wherein: the meshing transmission sealing door (39) comprises a clamping sliding through groove (48), a clamping transmission sealing door (49), a rack (50), a gear (51), a transmission motor (52) and a transmission motor fixing piece (53), wherein the clamping sliding through groove (48) is formed in the box body (38), the clamping transmission sealing door (49) is clamped and slides to be arranged in the clamping sliding through groove (48), the rack (50) is arranged on the side wall of the clamping transmission sealing door (49), the transmission motor fixing piece (53) is arranged on the box body (38), the transmission motor (52) is arranged on the transmission motor fixing piece (53), the gear (51) is connected with the output end of the transmission motor (52), and the gear (51) is meshed with the rack (50).

7. The warehouse facility for electronic components as claimed in claim 6, wherein: the conveying device (4) comprises a spiral transmission assembly (54) and a conveying assembly (55), the spiral transmission assembly (54) is arranged on the storage rack (1), and the conveying assembly (55) is arranged on the spiral transmission assembly (54); the conveying assembly (55) comprises a hydraulic cylinder (56), a chain fixed end (57), a limiting groove plate (58), a roller (59), a chain (60), a conveying part (61) and a pushing and discharging telescopic rod (62), wherein the hydraulic cylinder (56) is arranged on the spiral transmission assembly (54), the roller (59) is rotationally arranged at the movable end of the hydraulic cylinder (56), the chain (60) is sleeved on the roller (59), one end of the chain (60) is connected with the chain fixed end (57), the limiting groove plate (58) is arranged on the outer side wall of the hydraulic cylinder (56), the conveying part (61) is clamped and slides in the limiting groove plate (58), the other end of the chain (60) is connected with the conveying part (61), and the pushing and discharging telescopic rod (62) is arranged on the conveying part (61).

8. The warehouse facility for electronic components as claimed in claim 7, wherein: screw drive subassembly (54) are including fixed plate (63), hob (64), spacing slide bar (65), mobile motor (66) and mobile motor mounting (67), on storage frame (1) was located to fixed plate (63) symmetry, hob (64) rotate locate on fixed plate (63), on fixed plate (63) was located to spacing slide bar (65), mobile motor mounting (67) are located on fixed plate (63), mobile motor (66) are located on mobile motor mounting (67), the output of mobile motor (66) links to each other with hob (64).