CN218981367U - Mixing device for aluminum-based alloy powder production - Google Patents

Abstract

The utility model relates to the field of mixing machinery, in particular to a mixing device for producing aluminum-based alloy powder, which comprises a storage barrel with an opening structure at the top, wherein a discharge hole of the storage barrel is connected with a feeding device, the feeding device is connected with the mixing device, the feeding device comprises a feeding box which is horizontally arranged, a feeding pipe which is obliquely arranged is connected on the feeding box, the feeding hole of the feeding pipe is connected with the storage barrel, the storage barrel comprises an upper part of the storage barrel with a barrel-shaped structure and a lower part of the storage barrel with a conical structure which are integrally connected, the feeding pipe is connected with the bottom of the storage barrel, a motor I is arranged at the bottom of the storage barrel, a driving shaft of the motor I extends upwards into the storage barrel, a plurality of groups of stirring mechanisms are arranged on the driving shaft positioned in the upper part of the storage barrel along the length direction of the driving shaft, the feeding device is conveyed to a mixing tank for secondary mixing, and the bottom of the mixing barrel is provided with a discharge hole for directly discharging materials.

Description

Mixing device for aluminum-based alloy powder production

Technical Field

The utility model relates to the field of mixing machinery, in particular to a mixing device for aluminum-based alloy powder production.

Background

The aluminum-based alloy powder is applied to a plurality of fields such as military industry, semiconductor 3D printing and the like, the aluminum-based alloy powder has a plurality of different particle sizes, customers need to fully mix the aluminum-based alloy powder with different particle size ranges when using the aluminum-based alloy powder, a mixing tank is common mixing equipment, the mixing tank is sealed after the aluminum-based alloy powder with different particle sizes is mixed, mixing is realized through rotation of the mixing tank, and the materials are inconvenient to pour out due to the fact that the tank body is large.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a mixing device for aluminum-based alloy powder production.

The technical scheme of the utility model is realized as follows: the utility model provides a compounding device of aluminium base alloy powder production, including the storage bucket of vertical setting's top for open structure, the discharge gate of storage bucket is connected with material feeding unit, material feeding unit is connected with material mixing unit, material feeding unit includes the feeding case of horizontal setting, be connected with the inlet pipe of slope setting on the feeding case, the feed inlet and the storage bucket of inlet pipe are connected, the storage bucket includes the storage bucket upper portion of drum type structure and the storage bucket lower part of cone type structure of an organic whole connection, the inlet pipe is connected the bottom of storage bucket, install motor one at the bottom of storage bucket, the driving shaft of motor one upwards extends to in the storage bucket, install a plurality of groups rabbling mechanism along its length direction on the driving shaft that is located the position of storage bucket upper portion, every group rabbling mechanism includes the blade of symmetry setting at the circumference of driving shaft, the blade is W type structure, the end connection of blade has vertical blade; a second horizontal rod is axially and symmetrically arranged on the driving shaft positioned in the lower part of the storage barrel, the end part of the second horizontal rod is connected with an inclined blade, and the inclined blade is attached to the inner wall of the lower part of the storage barrel; the mixing device comprises a mixing tank, the mixing tank is of a cone structure, the top of the mixing tank is of a closed structure, and the bottom of the storage tank is of an opening structure.

The feeding box is internally provided with a conveying auger which is horizontally arranged, and the conveying auger is connected with a motor II.

The motor III of the vertical setting at top of blending tank, in the vertical extension of pivot to stock bucket of motor III, the circumference symmetry of the pivot of motor III is provided with the horizon bar, and end connection has slope compounding axle on the horizon bar, is connected with helical blade on the slope compounding axle, and the bottom of the pivot of motor III is connected with the compounding axle, is connected with helical blade on the compounding axle.

The opening part at the top of the storage barrel is provided with a cover body, the circumference of the cover body is connected with a plurality of first locking plates, the bottom of each first locking plate is provided with a locking bolt, the circumference of the outside of the opening part at the top of the storage barrel is connected with a plurality of second locking plates matched with the first locking plates, and the second locking plates are provided with holes for the locking bolts to pass through.

A third horizontal rod is arranged on the driving shaft of the first motor and below the second horizontal rod, and the bottom of the third horizontal rod is contacted with the bottom plate of the storage barrel.

The technical scheme of the utility model has the following positive effects: the utility model is provided with the storage barrel, materials with different particle diameters to be mixed are firstly all discharged into the storage barrel, and the top of the storage barrel is of an opening structure, so that the materials are convenient to pour; after pouring, the cover body is covered to prevent dust generation, and the motor I in the storage barrel is started to stir the materials at the upper part of the storage barrel by the blade and the horizontal rod II, so that the surface area of the blade is increased and the stirring effect is improved; the vertical blades and the inclined blades prevent materials from being attached to the barrel wall, the raw materials on the bottom plate of the storage barrel are stirred by the rotation of the horizontal rod III, the feeding pipe can be prevented from being blocked, and meanwhile, the raw materials can be fed into the feeding pipe when the raw materials are relatively less; carry out secondary compounding in the blending tank, be connected with two slope compounding axles and a vertical compounding axle on the motor is three, carry out the secondary to the material and mix.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Detailed Description

As shown in fig. 1, a mixing device for aluminum-based alloy powder production comprises a storage barrel with an opening structure at the top, wherein a cover 11 is arranged at the opening of the top of the storage barrel, a feeding device is connected to a discharge port of the storage barrel, the feeding device is connected with the mixing device, the feeding device comprises a feeding box 2 which is horizontally arranged, a feeding pipe 3 which is obliquely arranged is connected to the feeding box 2, the feeding port of the feeding pipe 3 is connected with the storage barrel, the storage barrel comprises a storage barrel upper part 5 which is integrally connected with the storage barrel lower part 6, a motor 7 is arranged at the bottom of the storage barrel, a driving shaft of the motor 7 extends upwards into the storage barrel, a plurality of groups of stirring mechanisms are arranged on the driving shaft which is positioned in the position of the storage barrel upper part 5 along the length direction of the driving shaft, each group of stirring mechanisms comprises blades 8 which are symmetrically arranged on the driving shaft in the circumferential direction, the blades 8 are of a W-shaped structure, and the end parts of the blades 8 are connected with vertical blades 9; a second horizontal rod 4 is axially and symmetrically arranged on the driving shaft positioned in the lower part 6 of the storage barrel, the end part of the second horizontal rod 4 is connected with an inclined blade 10, and the inclined blade 10 is attached to the inner wall of the lower part 6 of the storage barrel; the mixing device comprises a mixing tank 1, wherein the mixing tank 1 is of a cone structure, the top of the mixing tank 1 is of a closed structure, and the bottom of a storage tank is of an opening structure; specifically, pouring the aluminum-based alloy powder with different particle diameters into a storage barrel for preliminary stirring, opening the structure for convenient feeding, covering the cover body 1, starting the motor I7 to drive the driving shaft to rotate, rotating the blade 8 and the horizontal rod II 4, increasing the surface area of the blade 8 by the W-shaped structure, improving the stirring effect, stirring the mixed materials for a certain time, opening the baffle on the feeding pipe 3, and feeding the materials into the mixing device through the feeding device for final mixing.

A conveying auger 12 which is horizontally arranged is arranged in the feeding box 2, and the conveying auger 12 is connected with a motor II 13; the conveying auger 12 pushes the initially mixed material into the mixing tank 1.

The motor III 14 is vertically arranged at the top of the mixing tank 1, the rotating shaft 15 of the motor III 14 vertically extends into the storage barrel, the circumferential direction of the rotating shaft 15 of the motor III 14 is symmetrically provided with a horizontal rod 16, the upper end part of the horizontal rod 16 is connected with an inclined mixing shaft 17, the inclined mixing shaft 17 is connected with a helical blade 19, the bottom of the rotating shaft 15 of the motor III 14 is connected with a mixing shaft 18, and the mixing shaft 18 is also connected with a helical blade 19; after the materials enter the mixing tank 1, the motor III 14 is started, and the inclined mixing shaft 17 and the mixing shaft 18 start to rotate the spiral blades 19 to mix and stir the materials, so that the materials are fully mixed.

The opening of the top of the storage barrel is provided with a cover body 11, the circumference of the cover body 11 is connected with a plurality of first locking plates 20, the bottom of each first locking plate 20 is provided with a locking bolt 21, the circumference of the outside of the opening of the top of the storage barrel is connected with a plurality of second locking plates 22 matched with the first locking plates 20, and the second locking plates 22 are provided with holes for the locking bolts 21 to pass through; the cover 11 can be detachably arranged at the top of the storage barrel, the locking bolt 21 is directly fixedly connected to the bottom of the first locking plate 20, the locking bolt 21 directly penetrates through a hole of the second locking plate 22 and is fixed by a nut, and therefore installation of parts is reduced.

A third horizontal rod 23 is arranged on the driving shaft of the first motor 7 and below the second horizontal rod 4, and the bottom of the third horizontal rod 23 is contacted with the bottom plate of the storage barrel; specifically, the rotation of the horizontal rod III 23 stirs the raw materials on the bottom plate of the storage barrel, so that the feeding pipe 3 can be prevented from being blocked, and meanwhile, the raw materials can be fed into the feeding pipe 3 when the raw materials are relatively less.

Claims (5)

1. The utility model provides a compounding device of aluminium base alloy powder production, includes that the top of vertical setting is the storage bucket of open structure, and the discharge gate of storage bucket is connected with material feeding unit, and material feeding unit is connected with compounding device, its characterized in that: the feeding device comprises a feeding box which is horizontally arranged, a feeding pipe which is obliquely arranged is connected to the feeding box, a feeding inlet of the feeding pipe is connected with a storage barrel, the storage barrel comprises an upper storage barrel part of a barrel type structure and a lower storage barrel part of a cone type structure which are integrally connected, the feeding pipe is connected to the bottom of the storage barrel, a motor I is arranged at the bottom of the storage barrel, a driving shaft of the motor I extends upwards into the storage barrel, a plurality of groups of stirring mechanisms are arranged on the driving shaft in the position of the upper storage barrel along the length direction of the driving shaft, each group of stirring mechanisms comprises blades symmetrically arranged on the circumference of the driving shaft, each blade is of a W type structure, and the end parts of the blades are connected with vertical blades; a second horizontal rod is axially and symmetrically arranged on the driving shaft positioned in the lower part of the storage barrel, the end part of the second horizontal rod is connected with an inclined blade, and the inclined blade is attached to the inner wall of the lower part of the storage barrel; the mixing device comprises a mixing tank, the mixing tank is of a cone structure, the top of the mixing tank is of a closed structure, and the bottom of the storage tank is of an opening structure.

2. The mixing device for aluminum-based alloy powder production according to claim 1, wherein: the feeding box is internally provided with a conveying auger which is horizontally arranged, and the conveying auger is connected with a motor II.

3. The mixing device for aluminum-based alloy powder production according to claim 1, wherein: the motor III of the vertical setting at top of blending tank, in the vertical extension of pivot to stock bucket of motor III, the circumference symmetry of the pivot of motor III is provided with the horizon bar, and end connection has slope compounding axle on the horizon bar, is connected with helical blade on the slope compounding axle, and the bottom of the pivot of motor III is connected with the compounding axle, is connected with helical blade on the compounding axle.

4. The mixing device for aluminum-based alloy powder production according to claim 1, wherein: the opening part at the top of the storage barrel is provided with a cover body, the circumference of the cover body is connected with a plurality of first locking plates, the bottom of each first locking plate is provided with a locking bolt, the circumference of the outside of the opening part at the top of the storage barrel is connected with a plurality of second locking plates matched with the first locking plates, and the second locking plates are provided with holes for the locking bolts to pass through.

5. The mixing device for aluminum-based alloy powder production according to claim 1, wherein: a third horizontal rod is arranged on the driving shaft of the first motor and below the second horizontal rod, and the bottom of the third horizontal rod is contacted with the bottom plate of the storage barrel.

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