CN218249953U - Preparation device for silicon carbide semiconductor thin film material - Google Patents

Abstract

The utility model discloses a preparation facilities for carborundum semiconductor thin film material, including the preparation jar body, with feed mechanism and the auxiliary position adjustment mechanism of setting on the preparation jar body to and set up at the internal stirring chamber of preparation jar, be equipped with the stirring axostylus axostyle in the stirring chamber, the input of stirring axostylus axostyle is connected with the drive motor. The utility model discloses through accommodate motor's effect, helical gear and fixed helical gear's cooperation drive accommodate lead screw rotates are adjusted to the accessible, make accommodate lead screw promote the diaphragm and remove along the axis direction of fixed column frame, and the removal orbit of the direction spout restriction diaphragm of the fixed column frame both sides of accessible, and drive the motor and pass through the bolt fastening on the diaphragm, can be with diaphragm and drive motor synchronous motion, it drives the puddler pole through the stirring axostylus axostyle and rotates to drive the motor, make the puddler pole stir the processing to the raw materials, and can change the stirring height of raw materials in step, thereby can the effectual mixed effect that improves the raw materials.

Description

Preparation device for silicon carbide semiconductor thin film material

Technical Field

The utility model relates to a preparation technical field of carborundum semiconductor thin film material specifically is a preparation facilities for carborundum semiconductor thin film material.

Background

The semiconductor is a material with the conductivity between a conductor and an insulator at normal temperature, and a silicon carbide semiconductor thin film can be used for manufacturing electronic devices inherited by high temperature, high frequency, radiation resistance, high power and high density, and can also be used for manufacturing blue, green and ultraviolet light emitting devices and light detecting devices.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a preparation facilities for carborundum semiconductor thin film material to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a preparation facilities for carborundum semiconductor thin film material, including the preparation jar body, with feed mechanism and the auxiliary position adjustment mechanism of setting on the preparation jar body to and set up the stirring chamber at the preparation jar internal, be equipped with the stirring axostylus axostyle in the stirring chamber, the input of stirring axostylus axostyle is connected with the drive motor, be equipped with the stirring arm pole on the stirring axostylus axostyle, the bin outlet has been seted up to the bottom in stirring chamber.

Preferably, feed mechanism includes feeding storehouse, feed inlet, cutting axostylus axostyle, cutting blade, cutting motor, screen frame, squeeze roll, extrusion motor and coaxial gear, the feed inlet has been seted up on the feeding storehouse, be equipped with the cutting axostylus axostyle in the feeding storehouse, the input of cutting axostylus axostyle is connected with the cutting motor, be equipped with a plurality of cutting blade on the axial of cutting axostylus axostyle, can be with the inside in the leading-in feeding storehouse of the inside of feed inlet with the raw materials to through the effect of cutting motor, accessible cutting axostylus axostyle drives cutting blade and rotates for cutting blade cuts the raw materials breakage, until with the broken granule size that can filter screen frame of raw materials.

Preferably, still be equipped with the screen frame in the feeding storehouse to and two squeeze rolls, the output of squeeze roll is connected with engaged with coaxial gear, one of them the input of squeeze roll is connected with the extrusion motor, and the accessible screen frame provides filtration treatment for the raw materials to and can drive the squeeze roll through the extrusion motor and rotate, and two squeeze rolls realize synchronous rotation through engaged with coaxial gear, can make two squeeze rolls carry out breakage once more to the raw materials.

Preferably, the auxiliary position adjusting mechanism comprises a fixed column frame, a guide chute, a transverse plate, an adjusting screw rod, a fixed bevel gear, a fixed housing, an adjusting motor and an adjusting bevel gear, the guide chute is formed in each of two sides of the fixed column frame, the transverse plate is arranged in the fixed column frame, the two sides of the transverse plate are embedded into the guide chute, the driving motor is fixed on the transverse plate through bolts, the transverse plate and the driving motor can move synchronously, the driving motor drives the stirring arm rod to rotate through the stirring shaft rod, the stirring arm rod is used for stirring the raw materials, the stirring height of the raw materials can be synchronously changed, and therefore the mixing effect of the raw materials can be effectively improved.

Preferably, an adjusting screw rod penetrates through the transverse plate, and the input end of the adjusting screw rod is connected with a fixed bevel gear.

Preferably, be equipped with adjusting motor in the fixed housing, adjusting motor's output is connected with the regulation helical gear with fixed helical gear meshing, and through adjusting motor's effect, the accessible is adjusted the cooperation of helical gear and fixed helical gear and is driven accommodate the lead screw and rotate for accommodate the lead screw promotes the diaphragm and moves along the axis direction of fixed column frame, and the removal orbit of diaphragm is restricted to the direction spout of accessible fixed column frame both sides.

Preferably, the stirring intracavity still is equipped with the branch flitch, the both sides of dividing the flitch are the fixed parting bead of a plurality of cloth all, divide and to have seted up a plurality of through-hole in the flitch, can be with raw materials dispersion treatment through the fixed parting bead of a plurality of branch flitch to and the accessible a plurality of through-hole can effectually provide the filtration dispersion treatment for the raw materials.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model can lead the raw material into the feeding bin through the feeding inlet, and can drive the cutting blade to rotate through the cutting shaft rod under the action of the cutting motor, so that the cutting blade cuts and crushes the raw material until the raw material is crushed to the particle size which can be filtered by the filter screen frame; the raw materials can be filtered through the filter screen frame, the extrusion rollers can be driven to rotate through the extrusion motor, and the two extrusion rollers synchronously rotate through the meshed coaxial gears, so that the raw materials can be crushed again by the two extrusion rollers;

2. the utility model discloses through the effect of accommodate motor, the cooperation of accessible regulation helical gear and fixed helical gear drives accommodate the lead screw and rotates, make accommodate the lead screw promote the diaphragm and move along the axis direction of fixed column frame, and the direction spout of accessible fixed column frame both sides limits the removal orbit of diaphragm, and drive the motor and pass through the bolt fastening on the diaphragm, can be with diaphragm and drive motor synchronous motion, drive the motor and drive the puddler pole through the stirring axostylus axostyle and rotate, make the puddler pole stir the processing to the raw materials, and can change the stirring height of raw materials synchronously, thereby can effectually improve the mixed effect of raw materials;

3. the utility model discloses a divide the fixed parting bead of a plurality of flitch can be with raw materials dispersion treatment to and accessible a plurality of through-hole can effectually be handled for the raw materials provides the filtration dispersion.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present invention;

fig. 3 is a schematic view of the internal structure of the feeding bin of the present invention;

fig. 4 is the structure diagram of the distributing plate of the present invention.

In the figure: 1. preparing a tank body; 2. a stirring chamber; 3. a feeding mechanism; 301. a feeding bin; 302. a feed inlet; 303. cutting the shaft lever; 304. a cutting blade; 305. cutting the motor; 306. a screen frame; 307. a squeeze roll; 308. an extrusion motor; 309. a coaxial gear; 4. an auxiliary position adjustment mechanism; 401. fixing the column frame; 402. a guide chute; 403. a transverse plate; 404. adjusting a screw rod; 405. fixing the bevel gear; 406. fixing the housing; 407. adjusting the motor; 408. adjusting the bevel gear; 5. stirring the shaft lever; 6. driving a motor; 7. a stirring arm lever; 8. a discharge outlet; 9. a material distributing plate; 10. fixing the parting strips; 11. and a through hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Embodiment 1

As shown in the attached figure 1, the utility model provides a technical scheme: a preparation facilities for carborundum semiconductor thin film material, including the preparation jar body 1, with feed mechanism 3 and the auxiliary position adjustment mechanism 4 of setting on the preparation jar body 1 to and set up at the stirring chamber 2 of the preparation jar internal 1, be equipped with stirring shaft lever 5 in the stirring chamber 2, the input of stirring shaft lever 5 is connected with driving motor 6, is equipped with stirring arm pole 7 on the stirring shaft lever 5, the bin outlet 8 has been seted up to the bottom in stirring chamber 2.

Example two

The scheme in the first embodiment is further described in the following with reference to specific working modes, which are described in detail in the following:

as shown in fig. 1 and fig. 3, as a preferred embodiment, on the basis of the above manner, further, the feeding mechanism 3 includes a feeding bin 301, a feeding port 302, a cutting shaft 303, a cutting blade 304, a cutting motor 305, a screen frame 306, a squeezing roller 307, a squeezing motor 308 and a coaxial gear 309, the feeding bin 301 is provided with the feeding port 302, the feeding bin 301 is provided with the cutting shaft 303, the cutting shaft 303 is provided with the cutting motor 305 at an input end thereof, a plurality of cutting blades 304 are axially provided on the cutting shaft 303, the raw material can be introduced into the feeding bin 301 through the inside of the feeding port 302, and under the action of the cutting motor 305, the cutting blade 304 can be driven to rotate by the cutting shaft 303, so that the cutting blade 304 cuts and crushes the raw material until the raw material is crushed to a particle size that can be filtered by the screen frame 306, the screen frame 306 is further provided in the feeding bin 301, and two squeezing rollers 307, output ends of the squeezing rollers 307 are connected with the coaxial gear 309 that are engaged with each other, wherein the input end of one squeezing roller 307 is connected with the squeezing motor 308, the squeezing roller 306 can provide filtering processing for the raw material, and the two squeezing rollers 307 can be engaged with each other by the squeezing roller 309 through the rotation of the filtering motor 306, so that the squeezing roller 307 and the squeezing roller 309 can be engaged with each other synchronously.

As shown in fig. 1 and fig. 2, as a preferred embodiment, on the basis of the above-mentioned manner, further, the auxiliary position adjusting mechanism 4 includes a fixed column frame 401, a guide chute 402, a transverse plate 403, an adjusting screw 404, a fixed helical gear 405, a fixed housing 406, an adjusting motor 407 and an adjusting helical gear 408, the guide chute 402 is disposed on both sides of the fixed column frame 401, a transverse plate 403 is disposed in the fixed column frame 401, both sides of the transverse plate 403 are embedded in the guide chute 402, the adjusting screw 404 is disposed in the transverse plate 403 in a penetrating manner, the input end of the adjusting screw 404 is connected with the fixed helical gear 405, an adjusting motor 407 is disposed in the fixed housing 406, the output end of the adjusting motor 407 is connected with the adjusting helical gear 408 engaged with the fixed helical gear 405, the adjusting screw 408 and the fixed helical gear 405 are engaged with each other to drive the adjusting screw 404 to rotate, so that the adjusting screw 404 pushes the transverse plate 403 to move along the central axis direction of the fixed column frame 401, and the guide chute 402 on both sides of the fixed column frame 401 limits the moving track of the transverse plate 403, and the driving motor 6 is fixed column 403 is fixed by bolts, the driving motor 6 to move synchronously, thereby the stirring arm 6 to improve the mixing effect of the mixing arm 7, and the mixing arm 7 can be processed.

As shown in fig. 1 and 4, as a preferred embodiment, in addition to the above-mentioned manner, a material distributing plate 9 is further provided in the stirring chamber 2, a plurality of fixing division bars 10 are distributed on both sides of the material distributing plate 9, a plurality of through holes 11 are provided in the material distributing plate 9, the material can be dispersed by the plurality of fixing division bars 10 of the material distributing plate 9, and the material can be effectively filtered and dispersed by the plurality of through holes 11.

The working principle of the preparation device for the silicon carbide semiconductor thin film material is as follows: firstly, raw materials can be introduced into the feeding bin 301 through the interior of the feeding hole 302, and under the action of the cutting motor 305, the cutting blade 304 can be driven to rotate by the cutting shaft rod 303, so that the raw materials are cut and crushed by the cutting blade 304 until the raw materials are crushed to the particle size which can be filtered by the filter screen frame 306, then, the raw materials can be provided with filtering treatment by the filter screen frame 306, the extrusion rollers 307 can be driven to rotate by the extrusion motor 308, and the two extrusion rollers 307 can be synchronously rotated through the meshed coaxial gears 309, so that the raw materials can be crushed again by the two extrusion rollers 307;

then, a plurality of fixed parting beads 10 through the material distributing plate 9 can disperse the raw material, and a plurality of through holes 11 can be used for effectively providing filtering dispersion treatment for the raw material, then, under the action of the adjusting motor 407, the adjusting screw 404 can be driven to rotate by the cooperation of the adjusting helical gear 408 and the fixed helical gear 405, so that the adjusting screw 404 pushes the transverse plate 403 to move along the central axis direction of the fixed column 401, and the guide chutes 402 at the two sides of the fixed column 401 can limit the moving track of the transverse plate 403, the driving motor 6 is fixed on the transverse plate 403 through bolts, the transverse plate 403 and the driving motor 6 can be synchronously moved, the driving motor 6 drives the stirring arm rod 7 to rotate through the stirring shaft rod 5, and the stirring arm rod 7 can stir the raw material.

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

Claims (7)

1. A preparation facilities for carborundum semiconductor thin film material, including the preparation jar body (1), with feed mechanism (3) and auxiliary position adjustment mechanism (4) of setting on the preparation jar body (1) to and set up stirring chamber (2) in the preparation jar body (1), its characterized in that: be equipped with stirring axostylus axostyle (5) in stirring chamber (2), the input of stirring axostylus axostyle (5) is connected with drive motor (6), be equipped with on stirring axostylus axostyle (5) stirring armed lever (7), bin outlet (8) have been seted up to the bottom in stirring chamber (2).

2. The manufacturing apparatus for silicon carbide semiconductor thin film material as claimed in claim 1, wherein: feeding mechanism (3) are including feeding storehouse (301), feed inlet (302), cutting axostylus axostyle (303), cutting blade (304), cutting motor (305), screen frame (306), squeeze roll (307), extrusion motor (308) and coaxial gear (309), feeding storehouse (301) is gone up and has been seted up feed inlet (302), be equipped with cutting axostylus axostyle (303) in feeding storehouse (301), the input of cutting axostylus axostyle (303) is connected with cutting motor (305), be equipped with a plurality of cutting blade (304) on the axial of cutting axostylus axostyle (303).

3. The manufacturing apparatus for a silicon carbide semiconductor thin film material as claimed in claim 2, wherein: the feeding bin (301) is internally provided with a screen frame (306) and two squeezing rollers (307), the output ends of the squeezing rollers (307) are connected with coaxial gears (309) which are meshed with each other, and the input end of one squeezing roller (307) is connected with a squeezing motor (308).

4. The manufacturing apparatus for a silicon carbide semiconductor thin film material as claimed in claim 1, wherein: the auxiliary position adjusting mechanism (4) comprises a fixed column frame (401), a guide sliding groove (402), a transverse plate (403), an adjusting screw rod (404), a fixed helical gear (405), a fixed housing (406), an adjusting motor (407) and an adjusting helical gear (408), the guide sliding groove (402) is formed in each of two sides of the fixed column frame (401), the transverse plate (403) is arranged in the fixed column frame (401), and the two sides of the transverse plate (403) are embedded into the guide sliding groove (402).

5. The manufacturing apparatus for a silicon carbide semiconductor thin film material as claimed in claim 4, wherein: an adjusting screw rod (404) penetrates through the transverse plate (403), and the input end of the adjusting screw rod (404) is connected with a fixed bevel gear (405).

6. The manufacturing apparatus for silicon carbide semiconductor thin film material as claimed in claim 4, wherein: an adjusting motor (407) is arranged in the fixed housing (406), and the output end of the adjusting motor (407) is connected with an adjusting bevel gear (408) meshed with the fixed bevel gear (405).

7. The manufacturing apparatus for silicon carbide semiconductor thin film material as claimed in claim 1, wherein: still be equipped with branch flitch (9) in stirring chamber (2), the both sides of dividing flitch (9) all distribute a plurality of fixed parting bead (10), it has a plurality of through-hole (11) to open in branch flitch (9).

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