CN214620412U

CN214620412U - Diversified drying-machine of metal powder

Info

Publication number: CN214620412U
Application number: CN202022803236.2U
Authority: CN
Inventors: 叶国晨; 蒋保林; 许荣玉; 张柯; 唐跃跃; 魏放; 杨德忠; 张波; 李兆宽
Original assignee: Jiangsu Vilory Advanced Materials Technology Co Ltd
Current assignee: Jiangsu Vilory Advanced Materials Technology Co Ltd
Priority date: 2020-11-28
Filing date: 2020-11-28
Publication date: 2021-11-05
Anticipated expiration: 2030-11-28

Abstract

The utility model discloses a metal powder multi-azimuth dryer, which comprises a bottom box and a main box body, the bottom box is internally provided with a soaking structure, the main box body is arranged on the bottom box, the end part of the main box body is provided with four openings with the same structure, the main box body is internally provided with two crossed clapboards which divide the interior of the main box body into four cavities, each cavity corresponds to each opening, the opening is provided with a rotating structure, the drying structure is arranged in the main box body and positioned in each cavity, the utility model has the advantages that the technical proposal is provided with a plurality of independent drying structures, and an automatic material moving structure is adopted, and drying operation with different temperatures and time is carried out on materials of different batches, so that the drying equipment is more automatic and flexible, and the technical problems in the background art are effectively solved.

Description

Diversified drying-machine of metal powder

Technical Field

The utility model relates to a metal powder processing field, especially a diversified drying-machine of metal powder.

Background

The metal powder refers to a group of metal particles having a size of less than 1 mm. Including single metal powders, alloy powders, and powders of certain refractory compounds having metallic properties, are the primary raw materials for powder metallurgy.

The metal powder body needs to be dried when being processed, the existing drying equipment can only dry the raw materials of the same batch, so that the raw materials of different batches need to be dried one by one, and the existing drying equipment has certain limitation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a diversified drying-machine of metal powder has been designed.

The technical scheme of the utility model is that, a metal powder multi-azimuth dryer comprises a bottom box and a main box body, wherein a soaking structure is arranged in the bottom box, the main box body is arranged on the bottom box, the end part of the main box body is provided with four openings with the same structure, two crossed clapboards are arranged in the main box body to divide the interior of the main box body into four cavities, each cavity corresponds to each opening, a rotating structure is arranged on the opening, a drying structure is arranged in each cavity in the main box body, a material output structure is arranged in each cavity at the bottom of the main box body, a dumping structure is arranged on the material output structure, a door structure is arranged on the outer wall of the main box body and on one side of each cavity;

the drying structure comprises: the drying device comprises a pair of drying components, a pair of back plates, a pair of backup plates, two groups of positioning columns and two groups of hanging grooves;

the pair of back plates are arranged on the outer wall of the partition plate and located on the adjacent wall surfaces, the pair of drying assemblies are fixed on the pair of backup plates, the two groups of hanging grooves are respectively formed in the pair of backup plates, the two groups of positioning columns are respectively formed in the pair of back plates, and the hanging grooves can be hooked on the positioning columns;

the soaking structure comprises: the four-wheel type grating machine comprises four chain shafts with the same structure, four chain wheels with the same structure, four fan blades with the same structure, four pinch rollers with the same structure, two chains with the same structure, a driving motor, a driving wheel and four grating plates with the same structure.

Four chain axle cartridge is in bottom of the case portion to mutual symmetry, four the sprocket is installed respectively in four epaxial, four the flabellum suit is in four epaxial in the chain, driving motor's drive end is connected in the action wheel, two the chain suit is between per two sprockets, four the pinch roller laminating is in four on the chain, the action wheel is located between two chains to mesh with the chain, bottom of the case terminal surface just is located main bottom of the case portion and has seted up four air outlets, and main bottom of the case portion corresponds the air outlet and has seted up and inlay the dress mouth, the grid board inlays and adorns in inlaying the dress mouthful inside.

Preferably, the material output structure comprises: the device comprises a linear module translation table, a pair of guide rails, a pair of moving bodies and a material bin;

the pair of guide rails are laid at the bottom of the main box body in parallel, the linear module translation platform is located between the pair of guide rails, the pair of moving bodies are movably mounted on the pair of guide rails, bearing plates are arranged on the pair of moving bodies, the dumping structure is arranged on the bearing plates, and the material bin is connected with the dumping structure

Preferably, the pouring structure comprises: the device comprises a movable column, a movable disc, a rotary frame, a shaft body, an electric push rod, a material discharging pipeline, a plugboard, a propulsion motor, a connecting piece and a mounting frame;

the adjustable tray is fixed on the bearing plate through the movable column, the swivel mount is settled on the adjustable tray, and the axis body cartridge is on the swivel mount, and electric putter bottom is connected with a tip pin hub of adjustable tray, and the material is emitted the pipeline and is connected with the material storehouse, and the bottom one end and the axis body in material storehouse are connected, and the other end is connected with electric putter's flexible end pin hub, the propulsion motor passes through the mounting bracket to be fixed at the material and emits the pipeline outer wall, and the material is emitted the pipeline and is fed through with the material storehouse, the material is emitted the pipeline outer wall and is seted up the slot with inside intercommunication, the picture peg inserts back in the slot to one end is connected with the flexible end of propulsion motor.

Preferably, the rotating structure includes: the lifting mechanism comprises a lifting motor, a cross connecting beam, four end covers with the same structure, four rotating motors, four cross positioning lugs and four cross positioning grooves;

the lifting motor is arranged at the end part of the main box body, the cross positioning beam is connected with the telescopic end of the lifting motor, the four end covers are respectively fixed at one end of the cross positioning beam, the rotating motor is arranged at the central part of the end covers, the cross positioning lug is connected with the driving end of the rotating motor, the cross positioning groove is arranged at the end part of the material bin, and the cross positioning lug can be inserted into the cross positioning groove.

Preferably, the shutter structure includes: the pair of driving boxes, the pair of shaft brackets, the pair of screw rods, the pair of nuts, the pair of sliding bodies, the stop door and the pair of screw rod motors;

the pair of driving boxes are respectively arranged on the left side and the right side of the opening of the main box body, the pair of shaft brackets are arranged in the driving boxes, the nuts are sleeved on the lead screws, the lead screws are inserted on the shaft brackets, the lead screw motor is positioned on the outer wall of the shaft brackets, the driving end of the lead screw motor is connected with the lead screws, the end face of each driving box is provided with a sliding groove, the sliding body is assembled in the sliding groove, the stop door is connected with the sliding body, and the sliding body is connected with the stop door.

Preferably, a stabilizing frame is arranged between the lifting motor and the end part of the main box body.

Preferably, the bottom of the bottom box is provided with four support tables for supporting the bottom box.

Preferably, both ends of the guide rail are provided with limiting bodies.

Utilize the utility model discloses a diversified drying-machine of metal powder of technical scheme preparation, this technical scheme has set up the independent stoving structure of multichannel to adopt automatic material to remove the structure, carry out the stoving operation of different temperatures and time to different batchs of material, let drying equipment more automatic, more nimble, the effectual technical problem who mentions in the background art of having solved.

Drawings

FIG. 1 is a schematic structural view of a multi-directional dryer for metal powder of the present invention;

FIG. 2 is a schematic view of the inside structure of the multi-directional dryer for metal powder of the present invention;

FIG. 3 is a schematic view of the external structure of the multi-directional dryer for metal powder of the present invention;

fig. 4 is a schematic structural view of a material output structure of a multi-directional dryer for metal powder according to the present invention;

FIG. 5 is a schematic structural view of a pouring structure of a multi-directional dryer for metal powder according to the present invention;

fig. 6 is a schematic structural view of a soaking structure of a multi-directional dryer for metal powder of the present invention;

fig. 7 is a schematic structural view of a soaking structure of a multi-directional dryer for metal powder of the present invention;

fig. 8 is a schematic structural view of a soaking structure of a multi-directional dryer for metal powder of the present invention;

fig. 9 is a schematic structural view of a multi-directional shutter structure of a dryer for metal powder according to the present invention;

FIG. 10 is a partially enlarged schematic view of the multi-directional dryer for metal powder of the present invention;

fig. 11 is a schematic structural view of a soaking structure of a multi-directional dryer for metal powder of the present invention;

in the figure, 1, bottom box; 2. a main box body; 3. a partition plate; 4. a drying assembly; 5. a back plate; 6. a backup plate; 7. a positioning column; 8. hanging a groove; 9. a chain shaft; 10. a sprocket; 11. a fan blade; 12. a pinch roller; 13. a chain; 14. a drive motor; 15. a driving wheel; 16. a grid plate; 17. a linear module translation stage; 18. a guide rail; 19. a moving body; 20. a material bin; 21. a movable post; 22. a movable tray; 23. a rotating frame; 24. a shaft body; 25. an electric push rod; 26. a material discharge pipe; 27. inserting plates; 28. a propulsion motor; 29. a connecting member; 30. a mounting frame; 31. a lifting motor; 32. a cross connecting beam; 33. an end cap; 34. rotating the motor; 35. a cross positioning projection; 36. a cross positioning slot; 37. a drive box; 38. a pedestal; 39. a lead screw; 40. a nut; 41. a slider; 42. a shutter; 43. A screw motor; 44. a stabilizing frame; 45. a support table; 46. a limiting body.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, which are illustrated in fig. 1-11, and a metal powder multi-directional dryer.

Example 1

A metal powder multi-azimuth dryer comprises a bottom box 1 and a main box body 2, wherein a soaking structure is arranged inside the bottom box 1, the main box body 2 is arranged on the bottom box 1, four openings with the same structure are formed in the end part of the main box body 2, two cross partition plates 3 are arranged inside the main box body 2, the inside of the main box body 2 is divided into four cavities, each cavity corresponds to each opening, a rotating structure is arranged on each opening, a drying structure is arranged inside the main box body 2 and in each cavity, a material output structure is arranged at the bottom of the main box body 2 and in each cavity, a dumping structure is arranged on the material output structure, the outer wall of the main box body 2, and a shutter 42 structure is arranged on one side of each cavity;

it should be noted that, materials of different batches to be dried are selected, and the materials of different batches are subpackaged; the structure of the stop door 42 is controlled to be opened, the material bin 20 is slid out of the main box body 2 through the material output structure, different materials are manually added into different material bins 20, then the material output structure is controlled to be pulled back to the material bin 20, and the pipe wall of the structure of the stop door 42 is controlled; the rotating structure is controlled to descend, is connected with the material bin 20, and is controlled to perform drying operation; when the temperature of the material bin reaches 40 ℃ higher than the internal temperature of the main box body 2, the rotating structure works to enable the auxiliary material bin 20 to rotate 180 ℃ repeatedly; when the temperature of the inside of the main box body 2 is 50 ℃ higher, the soaking structure works to soak the inside of the main box body 2; after the drying is finished, the shutter 42 structure is opened, the material bin 20 is slid out of the main box body 2 by the material output structure, and the material in the material bin 20 is poured by the pouring structure under control.

Specifically, the stoving structure contains: the drying device comprises a pair of drying components 4, a pair of back plates 5, a pair of backup plates 6, two groups of positioning columns 7 and two groups of hanging grooves 8;

the pair of back plates 5 are arranged on the outer wall of the partition plate 3 and located on the adjacent wall surfaces, the pair of drying assemblies 4 are fixed on the pair of backup plates 6, the two groups of hanging grooves 8 are respectively arranged on the pair of backup plates 6, the two groups of positioning columns 7 are respectively arranged on the pair of back plates 5, and the hanging grooves 8 can be hooked on the positioning columns 7;

it should be noted that, the drying assembly 4 is convenient to detach and install, and mainly the hanging groove 8 is arranged on the backup plate 6 connecting the drying assembly 4, so that the hanging groove 8 can be hooked on the positioning column 7 on the back plate 5, and the drying assembly 4 is fixed;

the drying assembly 4 is a heating panel or other heating structure.

Specifically, the soaking structure includes: the four-wheel type grid plate conveyor comprises four chain shafts 9 with the same structure, four chain wheels 10 with the same structure, four fan blades 11 with the same structure, four pinch rollers 12 with the same structure, two chains 13 with the same structure, a driving motor 14, a driving wheel 15 and four grid plates 16 with the same structure.

Four chain axle cartridge are in bottom case 1 bottom, and mutual symmetry, four sprocket 10 are installed respectively on four commentaries on classics chain axle 9, four flabellum 11 suit are on four chain axle 9, driving motor 14's drive end is connected in action wheel 15, two chains 13 suit are between per two sprocket 10, four pinch rollers 12 laminate on four chains 13, action wheel 15 is located between two chains 13, and mesh with chain 13, bottom case 1 terminal surface just is located 2 bottoms of main tank and has seted up four air outlets, 2 bottoms of main tank correspond the air outlet and have seted up and inlay the dress mouth, grid plate 16 inlays and adorns inside inlaying the dress mouth.

It should be noted that, when the temperature in each cavity needs to be circulated, the driving wheel 15 is driven by the driving motor 14, the driving wheel 15 is meshed with the two chains 13, the chains 13 are limited by the pinch rollers 12 to prevent the separation of the driving wheel 15, after the chains 13 rotate, the four chain wheels 10 rotate, the chain shaft 9 inserted on the chain wheels 10 rotates, and the fan blades 11 on the chain shaft 9 rotate, so that the hot air in the cavity circulates.

Specifically, the material output structure comprises: the device comprises a linear module translation table 17, a pair of guide rails 18, a pair of moving bodies 19 and a material bin 20;

a pair of guide rails 18 are laid at the bottom of the main box body 2 in parallel, the linear module translation platform 17 is located between the pair of guide rails 18, a pair of moving bodies 19 are movably mounted on the pair of guide rails 18, bearing plates are arranged on the pair of moving bodies 19, the dumping structure is arranged on the bearing plates, and the material bin 20 is connected with the dumping structure.

It should be noted that, when the material bin 20 needs to be moved, the linear module translation stage 17 is controlled to drive the bearing plate to move, the bottom of the bearing plate is mounted on the pair of guide rails 18 through the pair of moving bodies 19, so that the bearing plate can move stably, and the material bin 20 on the bearing plate can move stably.

Specifically, the pouring structure includes: the device comprises a movable column 21, a movable disc 22, a rotating frame 23, a shaft body 24, an electric push rod 25, a material discharging pipeline 26, a plug board 27, a propulsion motor 28, a connecting piece 29 and a mounting frame 30;

activity dish 22 is fixed in on the loading board through activity post 21, swivel mount 23 is settled on

activity dish

22, 24 cartridges of axis body are on swivel mount 23, an end position pin hub connection of electric putter 25 bottom and activity dish 22, the material is emitted pipeline 26 and is connected with material storehouse 20, the bottom one end and the axis body 24 of material storehouse 20 are connected, the other end is connected with electric putter 25's flexible end pin hub connection, propulsion motor 28 passes through mounting bracket 30 and fixes at the material and emit the pipeline 26 outer wall, the material is emitted pipeline 26 and material storehouse 20 intercommunication, the material is emitted the pipeline 26 outer wall and is seted up the slot with inside intercommunication, picture peg 27 inserts back in the slot, and one end is connected with propulsion motor 28's flexible end.

It should be noted that, when the materials in the material bin 20 need to be dumped, the material bin 20 needs to be moved out of the main box body 2, and then the electric push rod 25 is controlled to push the material bin 20, because one end of the material bin 20 is connected to the shaft body 24, the material bin 20 starts to incline, and the materials are collected in the material discharging pipeline 26, and the pushing motor 28 is controlled to pull the inserting plate 27 to be slowly drawn out from the inserting slot, so that the materials flow out through the material discharging pipeline 26.

Specifically, the rotating structure includes: the lifting mechanism comprises a lifting motor 31, a cross connecting beam 32, four end covers 33 with the same structure, four rotating motors 34, four cross positioning lugs 35 and four cross positioning grooves 36;

lifting motor 31 sets up in 2 tip of main tank bodies, and the cross locating beam is connected with lifting motor 31's flexible end, and four end covers 33 are fixed in the one end of cross locating beam respectively, rotate motor 34 and set up in end cover 33 central point, and cross locating lug 35 is connected with the drive end of rotating motor 34, and cross locating slot 36 is located the tip of material storehouse 20, and cross locating lug 35 can insert in cross locating slot 36.

It should be noted that when the wall surface of the material bin 20 in the cavity inside the main box body 2 needs to be uniformly heated, the lifting motor 31 is controlled to pull the cross connecting beam 32 to descend, and the end cover 33 below the cross connecting beam 32 is sealed with the opening of the end surface of the main box body 2, at this time, the cross positioning bump 35 at the bottom of the rotating motor 34 is inserted into the cross positioning slot 36 at the end of the material bin 20, and then the rotating motor 34 drives the cross positioning bump 35, so that the material bin 20 can rotate along with the driving of the rotating motor 34;

it is important to note that the maximum rotation angle of the rotary motor 34 is less than 180,

specifically, the shutter 42 includes: a pair of drive boxes 37, a pair of shaft brackets 38, a pair of lead screws 39, a pair of nuts 40, a pair of sliding bodies 41, a shutter 42, and a pair of lead screw motors 43;

the pair of driving boxes 37 are respectively arranged at the left side and the right side of the opening of the main box body 2, the pair of shaft brackets 38 are arranged in the driving boxes 37, the nuts 40 are sleeved on the screw rods 39, the screw rods 39 are inserted on the shaft brackets 38, the screw rod motors 43 are positioned on the outer walls of the shaft brackets 38, the driving ends of the screw rods 39 are connected with the screw rods 39, sliding grooves are formed in the end faces of the driving boxes 37, the sliding bodies 41 are assembled in the sliding grooves, the stop doors 42 are connected with the sliding bodies 41, and the sliding bodies 41 are connected with the stop doors 42.

When the structure of the shutter 42 needs to be opened, the screw motor 43 is controlled to drive the screw 39, and when the screw 39 rotates, the nut 40 on the screw 39 carries the sliding body 41 to move, and the shutter 42 can move because the sliding body 41 is connected with the shutter 42.

Preferably, a fixing frame 44 is further provided between the lifting motor 31 and the end of the main body 2.

Preferably, four support stands 45 are further provided at the bottom of the bottom case 1 for supporting the bottom case 1.

Preferably, the guide rail 18 is further provided with a stopper 46 at both ends thereof.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims

1. A multidirectional metal powder drying machine comprises a bottom box and a main box body, and is characterized in that a soaking structure is arranged inside the bottom box, the main box body is arranged on the bottom box, the end part of the main box body is provided with four openings with the same structure, two crossed partition plates are arranged inside the main box body, the main box body is divided into four cavities, each cavity corresponds to each opening, a rotating structure is arranged on each opening, a drying structure is arranged inside the main box body and in each cavity, a material output structure is arranged at the bottom of the main box body and in each cavity, a dumping structure is arranged on the material output structure, the outer wall of the main box body is provided with a baffle door structure, and one side of each cavity is provided with a baffle door structure;

the soaking structure comprises: the four-wheel-type grating machine comprises four chain shafts with the same structure, four chain wheels with the same structure, four fan blades with the same structure, four pinch rollers with the same structure, two chains with the same structure, a driving motor, a driving wheel and four grating plates with the same structure;

2. The multi-directional dryer for metal powder of claim 1, wherein the material output structure comprises: the device comprises a linear module translation table, a pair of guide rails, a pair of moving bodies and a material bin;

the pair of guide rails are laid at the bottom of the main box body in parallel, the linear module translation platform is located between the pair of guide rails, the pair of moving bodies are movably mounted on the pair of guide rails, bearing plates are arranged on the pair of moving bodies, the dumping structure is arranged on the bearing plates, and the material bin is connected with the dumping structure.

3. The multi-directional dryer for metal powder of claim 2, wherein the pouring structure comprises: the device comprises a movable column, a movable disc, a rotary frame, a shaft body, an electric push rod, a material discharging pipeline, a plugboard, a propulsion motor, a connecting piece and a mounting frame;

4. The multi-directional dryer for metal powder of claim 1, wherein the rotating structure comprises: the lifting mechanism comprises a lifting motor, a cross connecting beam, four end covers with the same structure, four rotating motors, four cross positioning lugs and four cross positioning grooves;

5. The multidirectional metal powder dryer according to claim 1, wherein the shutter structure comprises: the pair of driving boxes, the pair of shaft brackets, the pair of screw rods, the pair of nuts, the pair of sliding bodies, the stop door and the pair of screw rod motors;

6. The multi-azimuth dryer for metal powder as claimed in claim 4, wherein a stabilizing frame is arranged between the lifting motor and the end of the main box.

7. The multi-azimuth dryer for metal powder as claimed in claim 1, wherein four support platforms for supporting the bottom box are arranged at the bottom of the bottom box.

8. The multi-azimuth dryer for metal powder as claimed in claim 2, wherein two ends of the guide rail are provided with limiting bodies.