AU2021103396A4 - Automatic stacking raw material fermentation device for wine brewing processing - Google Patents

Abstract

OF THE DISCLOSURE Disclosed is an automatic stacking raw material fermentation device for wine brewing processing. The automatic stacking raw material fermentation device for wine brewing processing comprises a shell, a feeding hole, U-shaped supporting columns, straight tooth gears and a gear belt, wherein the feeding hole is formed in the upper surface of the shell, the U-shaped supporting columns are fixedly installed on the lower surface of the shell, cylindrical pins are installed on the inner surfaces of the U-shaped supporting columns in an inserted mode, meanwhile, idler wheels are installed on the inner surfaces of the cylindrical pins in a nested mode, motors are fixedly installed on the outer surface of the shell, bearings are fixedly connected to the edge ends of the motors, and a conveying belt is installed on the outer surfaces of the bearings in a penetrating mode. According to the automatic stacking raw material fermentation device for wine brewing processing, the device for automatically transporting raw materials is arranged, filling is carried out through the feeding hole formed in the shell of the device, the raw materials are transported into a fermentation tank body through the conveying belt installed on the inner surface of the device, the transported materials are placed at multiple angles through adjusting plates installed at the top end of the shell, manual contact can be reduced, the edible safety of wine brewing is improved, and the wine brewing efficiency is improved. -1/2 DRAWINGS 12 915 10 5 7 FIG1 3 16 12 9 1 2 7 6 FIG 2

Description

-1/2

DRAWINGS

12 915

5 7

FIG1

3 16 12 9 1 2

7 6 FIG 2

AUTOMATIC STACKING RAW MATERIAL FERMENTATION DEVICE FOR WINE BREWING PROCESSING TECHNICAL FIELD

[01] The present disclosure relates to the technical field of wine brewing processing, and specifically relates to an automatic stacking raw material fermentation device for

wine brewing processing.

BACKGROUNDART

[02] With the development of the brewing technology at present, the brewing technology is more and more scientific, more and more technologies begin to be

operated by machines, but certain defects exist in a raw material fermentation device for

brewing technology, for example,

[03] Firstly, according to an existing raw material fermentation device, manual

operation is needed when raw materials are stacked in a fermentation tank, the

fermentation tank of a large brewery is deep, the manual operation is extremely

inconvenient, the wine brewing efficiency is affected, and manual filling has certain

hidden dangers to edible property of brewed wine;

[04] Secondly, when an existing raw material fermentation device is used, a device for transporting the raw materials is fixed, and when a plurality of fermentation tanks are

filled, the device is relatively troublesome to move and relatively dangerous to operate.

[05] Aiming at the problems, innovative design is urgently needed on the basis of the structure of the original raw material fermentation device.

SUMMARY

[06] The present disclosure aims to provide an automatic stacking raw material

fermentation device for wine brewing processing to solve the problems that according

to an existing raw material fermentation device proposed in the background art, manual

operation is needed when raw materials are stacked in a fermentation tank, the

fermentation tank of a large-scale brewery is deep, the manual operation is extremely inconvenient, the wine brewing efficiency is affected, manual filling has certain hidden dangers to edible property of brewed wine, a device for transporting the raw materials is fixed when the device is used, and when a plurality of fermentation tanks are filled, the device is relatively troublesome to move and relatively dangerous to operate.

[07] To achieve the purpose, the present disclosure provides the following technical scheme: the automatic stacking raw material fermentation device for wine brewing processing comprises a shell, a feeding hole, U-shaped supporting columns, straight tooth gears and a gear belt, the feeding hole is formed in the upper surface of the shell, the U-shaped supporting columns are fixedly installed on the lower surface of the shell, cylindrical pins are installed on the inner surfaces of the U-shaped supporting columns in an inserted mode, meanwhile, idler wheels are installed on the inner surfaces of the cylindrical pins in a nested mode, motors are fixedly installed on the outer surface of the shell, bearings are fixedly connected to the edge ends of the motors, a conveying belt is installed on the outer surfaces of the bearings (9) in a penetrating mode, meanwhile, spacer blocks are fixedly installed on the outer surface of the conveying belt, the upper end of the inner surface of the shell is fixedly connected with adjusting plates, the bearings are installed on the inner surfaces of the adjusting plates in a penetrating mode, the outer surfaces of the idler rollers are fixedly connected with rails, the lower surfaces of the rails are fixedly connected with a fermentation tank body, limiting grooves are formed in the outer surfaces of the bearings, limiting grooves are formed in the inner surfaces of the adjusting plates, limiting blocks are fixedly installed on the inner surfaces of the limiting grooves in the inserted mode, the straight tooth gears are fixedly installed on the outer surfaces of the bearings, the inner surfaces of the straight tooth gears are in meshed connection with the gear belt, and the outer surface of the gear belt is fixedly connected with the shell.

[08] Preferably, the shell and the cylindrical pins form an embedded structure through the U-shaped supporting columns, the shell and the U-shaped supporting columns form a nested structure, and the lower surface of the shell and the upper surfaces of the

U-shaped supporting columns form an integrated structure.

[09] Preferably, the U-shaped supporting columns and the idler wheels form rotating structures through the cylindrical pins, the outer surfaces of the idler wheels are attached

to the upper surfaces of the rails, and the lower surfaces of the rails and the upper

surface of the fermentation tank body form an integrated structure.

[10] Preferably, the bearings and the limiting blocks form embedded structures through the limiting grooves, the bearings and the straight-tooth gears form nested structures,

the straight-tooth gears and the gear belt form meshing structures, and meanwhile, the

two sets of straight-tooth gears are symmetrically arranged about the middle end of the

outer surface of the gear belt.

[11] Preferably, the conveying belt and the shell form a rotating structure through the

bearings, the outer surface of the conveying belt is attached to the inner surface of the

shell, the conveying belt and the spacer blocks form an embedded structure, and

meanwhile, the spacer blocks are arranged at equal intervals relative to the outer surface

of the conveying belt.

[12] Preferably, the adjusting plates and the bearings form penetrating structures, the adjusting plates and the limiting blocks form embedded structures through the limiting

grooves, and the adjusting plates and the bearings form rotating structures.

[13] Compared with the prior art, the automatic stacking raw material fermentation

device for wine brewing processing has the following beneficial effects:

[14] Firstly, the device for automatically transporting raw materials is arranged, filling

is carried out through the feeding hole formed in the shell of the device, the raw

materials are transported into the fermentation tank body through the conveying belt

installed on the inner surface of the device, the transported materials are placed at

multiple angles through the adjusting plates installed at the top end of the shell, so that manual contact can be reduced, the edible safety of wine brewing is improved, and the wine brewing efficiency is improved;

[15] Secondly, the rotatable idler wheels and the fixed rails are fixedly installed at the lower end of the transportation device and the upper surface of the fermentation tank body, when the fermentation tank is filled with the raw materials, filling is conducted at different angles through rail moving devices, manual transportation of the device is reduced when the device is used, the operation safety is improved, and the operation is easy when the device is used.

BRIEF DESCRIPTION OF THE DRAWINGS

[16] FIG. 1 is a solid structure schematic diagram of the present disclosure;

[17] FIG. 2 is a rear-view solid structure schematic diagram of a shell in the present disclosure;

[18] FIG. 3 is a half-section solid structure schematic diagram of the shell in the present disclosure; and

[19] FIG. 4 is an explosive solid structure schematic diagram of the present disclosure.

[20] Reference signs in drawings: 1, shell; 2, feeding hole; 2, U-shaped supporting column; 4, cylindrical pin; 5, idler wheel; 6, rail; 7, fermentation tank body; 8, motor; 9, bearing; 10, conveying belt; 11, spacer block; 12, adjusting plate; 13, limiting groove; 14, limiting block; 15, straight tooth gear; and 16, gear belt.

DETAILED DESCRIPTION

[21] The following clearly and completely describes the technical scheme in the embodiments of the present disclosure with reference to the attached figures in the embodiments of the present disclosure. Apparently, the described embodiments are merely a part rather than all of the embodiments of the present disclosure. All other embodiments obtained by those skilled in the art based on the embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure.

[22] Referring to FIG. 1 to FIG. 4, the present disclosure provides the following technical scheme: an automatic stacking raw material fermentation device for wine

brewing processing comprises a shell 1, a feeding hole 2, U-shaped supporting columns

3, cylindrical pins4, idler wheels 5, rails 6, a fermentation tank body 7, motors 8,

bearings 9, a conveying belt 10, spacer blocks 11, adjusting plates 12, limiting grooves

13, limiting blocks, straight tooth gears 15 and a gear belt 16, the feeding hole 2 is

formed in the upper surface of the shell 1, the U-shaped supporting columns 3 are

fixedly installed on the lower surface of the shell 1, the cylindrical pins 4 are installed

on the inner surfaces of the U-shaped supporting columns 3 in an inserted mode,

meanwhile, the idler wheels 5 are installed on the inner surfaces of the cylindrical pins 4

in a nested mode, the motors 8 are fixedly installed on the outer surface of the shell 1,

the bearings 9 are fixedly connected to the edge ends of the motors 8, the conveying belt

is installed on the outer surfaces of the bearings 9 in a penetrating mode, meanwhile,

the spacer blocks 11 are fixedly installed on the outer surface of the conveying belt 10,

the upper end of the inner surface of the shell 1 isfixedly connected with the adjusting

plates 12, the bearings 9 are installed on the inner surfaces of the adjusting plates 12 in a

penetrating mode, the outer surfaces of the idler rollers 5 are fixedly connected with

rails 6, the lower surfaces of the rails 6 arefixedly connected with the fermentation tank

body 7, the limiting grooves 13 are formed in the outer surfaces of the bearings 9, the

limiting grooves 13 are formed in the inner surfaces of the adjusting plates 12, the

limiting blocks 14 are fixedly installed on the inner surfaces of the limiting grooves 13

in the inserted mode, the straight tooth gears 15 are fixedly installed on the outer

surfaces of the bearings 9, the inner surfaces of the straight tooth gears 15 are in meshed

connection with the gear belt 16, and the outer surface of the gear belt 16 is fixedly

connected with the shell 1.

[23] The shell 1 and the cylindrical pins 4 form an embedded structure through the

U-shaped supporting columns 3, the shell 1 and the U-shaped supporting columns 3

form a nested structure, and the lower surface of the shell 1 and the upper surfaces of

the U-shaped supporting columns 3 form an integrated structure, so that the use safety of the idler wheels 5 is improved when in use through the embedded structure of the shell 1 and the cylindrical pins 4, the nested structure of the shell 1 and the U-shaped supporting columns 3 and the integrated structure of the lower surface of the shell 1 and the upper surfaces of the U-shaped supporting columns 3, and the use efficiency is improved when the integral device is moved.

[24] The U-shaped supporting columns 3 and the idler wheels 5 form rotating structures through the cylindrical pins 4, the outer surfaces of the idler wheels 5 are attached to the upper surfaces of the rails 6, and the lower surfaces of the rails 6 and the upper surface of the fermentation tank body 7 form an integrated structure, so that the use safety in the using process is improved through the rotating structures of the U-shaped supporting columns 3 and the idler wheels 5, the support for the integral device is increased when raw materials are filled through the integrated structure of the lower surfaces of the rails 6 and the upper surface of the fermentation tank body 7, more accurate direction is achieved when the raw materials are transported, and the raw materials are prevented from leaking during transportation.

[25] The bearings 9 and the limiting blocks 14 form embedded structures through the limiting grooves 13, the bearings 9 and the straight-tooth gears 15 form nested structures, the straight-tooth gears 15 and the gear belt 16 form a meshing structure, and meanwhile, the two sets of straight-tooth gears 15 are symmetrically arranged about the middle end of the outer surface of the gear belt 16, so that the positions of the limiting plates 12 can be limited through the embedded structures of the bearings 9 and the limiting blocks 14, the adjusting plates 12 are prevented from slipping when the bearings 9 rotate, the nested structures of the bearings 9 and the straight-tooth gears 15 drive the straight-tooth gears 15 to rotate in the same direction when the bearings 9 rotate, the two sets of the meshing structures of the straight-tooth gears 15 and the gear belt 16 and the two sets of the straight-tooth gears 15 are symmetrically arranged about the middle end of the outer surface of the gear belt 16, and the adjusting plates 12 are driven to rotate so that the raw materials are transported to different positions.

[26] The conveying belt 10 and the shell 1 form a rotating structure through the bearings 9, the outer surface of the conveying belt 10 is attached to the inner surface of

the shell 1, the conveying belt 10 and the spacer blocks 11 form an embedded structure,

and meanwhile, the spacer blocks 11 are arranged at equal intervals relative to the outer

surface of the conveying belt 10. The raw materials are transported into the fermentation

tank body 7 through the rotating structure of the conveying belt 10 and the shell 1, the

outer surface of the conveying belt 10 is attached to the inner surface of the shell 1 to

prevent the raw materials from leaking, and the embedded structure of the conveying

belt 10 and the spacer blocks 11 and the spacer blocks 11 are arranged at equal intervals

relative to the outer surface of the conveying belt 10, so that the transportation height is

prevented from being increased when the raw materials are transported, and the raw

materials are prevented from slipping to cause leakage.

[27] The adjusting plates 12 and the bearings 9 form penetrating structures, the adjusting plates 12 and the limiting blocks 14 form embedded structures through the

limiting grooves 13, and the adjusting plates 12 and the bearings 9 form rotating

structures. The adjusting plates 12 are prevented from slipping when the positions are

rotated through the penetrating structures of the adjusting plates 12 and the bearings 9

and the embedded structures of the adjusting plates 12 and the limiting blocks 14, and

the adjusting plates 12 and the bearings 9 form the rotating structures, so that the raw

materials can be transported to different positions according to the difference of the

angles of the adjusting plates 12.

[28] The working principle is as follows: when the automatic stacking raw material

fermentation device for wine brewing processing is used, according to FIG. 1 and FIG. 4,

the device is firstly placed at a position needing to work, the idler wheels 5 are fixedly

placed at the upper ends of the rails 6 fixedly installed on the upper surface of the

fermentation tank body 7, the idler wheels 5 are installed on the inner surfaces of the

U-shaped supporting columns 3 in a nested mode through the cylindrical pins 4, the

U-shaped supporting columns 3 are fixedly installed at the lower end of the shell 1, the bearings 9 penetrate through the inner surface of the conveying belt 10 to be embedded in the outer surface of the shell 1, meanwhile, the motors 8 are fixedly installed at the edge ends of the bearings 9 and attached to the outer surface of the shell 1, and then the spacer blocks 11 are installed on the outer surface of the conveying belt 10 at equal intervals to be fixed; secondly, the limiting blocks 14 are installed in the limiting grooves 13 formed in the outer surfaces of the bearings 9 in an embedded mode, then the bearings 9 are installed on the inner surfaces of the adjusting plates 12 in a penetrating mode, the limiting blocks 14 are installed in the limiting grooves 13 formed in the inner surfaces of the adjusting plates 12 in the embedded mode, the bearings 9 are installed on the outer surface of the shell 1 in the penetrating mode, meanwhile, the straight tooth gears 15 are installed in the top ends of the bearings 9 in the embedded mode, the gear belt 16 is connected to the outer surfaces of the straight tooth gears 15 in a meshed mode, and the motors 8 are fixedly installed at the edge ends of the bearings 9 and attached to the outer surface of the shell 1;

[29] According to FIG. 2 and FIG. 3, when in use, the motors 8 drive the bearings 9 to rotate, so that the conveying belt 10 starts to rotate, then the motors 8 drive the straight tooth gears 15 installed at the edge ends of the bearings 9, the other set of straight tooth gears 15 is driven to rotate through the meshed gear belt 16 at the same time, and the adjusting plates 12 rotate to specified angles, namely, the raw materials can be filled through the feeding hole 2 formed in the upper end of the shell 1, the conveying belt 10 rotates to drive the spacer blocks 11 installed on the outer surface of the conveying belt to start transporting the raw materials to the position where the adjusting plates 12 rotate to the specified angles, and the inner surface of the fermentation tank body 7 is evenly filled with the raw materials by continuously rotating the angles of the adjusting plates 12 while the raw materials are transported. After filling is completed, the device is moved to different positions for use through movement of the idler wheels 5 at the upper ends of the rails 6, so that the use safety is improved, the edible property of wine brewing is improved, the efficiency of transporting and filling the raw materials is improved, and the overall practicability is improved.

[30] What has not been described in detail in this specification belongs to the prior art which is well known to those skilled in the art.

[31] Although the embodiments of the present disclosure have already been illustrated and described, various changes, modifications, replacements and transformations can be made by those skilled in the art under the condition of without departing from the principle and the spirit of the present disclosure, and thus the scope of the present disclosure should be restricted by claims and equivalents thereof.

Claims (5)

WHAT IS CLAIMED IS:

1. An automatic stacking raw material fermentation device for wine brewing

processing, comprising a shell (1), a feeding hole (2), U-shaped supporting columns (3),

straight tooth gears (15) and a gear belt (16), wherein the feeding hole (2) is formed in

the upper surface of the shell (1), the U-shaped supporting columns (3) are fixedly

installed on the lower surface of the shell (1), cylindrical pins (4) are installed on the

inner surfaces of the U-shaped supporting columns (3) in an inserted mode, meanwhile,

idler wheels (5) are installed on the inner surfaces of the cylindrical pins (4) in a nested

mode, motors (8) are fixedly installed on the outer surface of the shell (1), bearings (9)

are fixedly connected to the edge ends of the motors (8), a conveying belt (10) is

installed on the outer surfaces of the bearings (9) in a penetrating mode, meanwhile,

spacer blocks (11) are fixedly installed on the outer surface of the conveying belt (10),

the upper end of the inner surface of the shell (1) is fixedly connected with adjusting

plates (12), the bearings (9) are installed on the inner surfaces of the adjusting plates (12)

in a penetrating mode, the outer surfaces of the idler rollers (5) are fixedly connected

with rails (6), the lower surfaces of the rails (6) are fixedly connected with a

fermentation tank body (7), limiting grooves (13) are formed in the outer surfaces of the

bearings (9), limiting grooves (13) are formed in the inner surfaces of the adjusting

plates (12), limiting blocks (14) are fixedly installed on the inner surfaces of the limiting

grooves (13) in the inserted mode, the straight tooth gears (15) are fixedly installed on

the outer surfaces of the bearings (9), the inner surfaces of the straight tooth gears (15)

are in meshed connection with the gear belt (16), and the outer surface of the gear belt

(16) is fixedly connected with the shell (1).

2. The automatic stacking raw material fermentation device for wine brewing

processing according to claim 1, wherein the shell (1) and the cylindrical pins (4) form

an embedded structure through the U-shaped supporting columns (3), the shell (1) and

the U-shaped supporting columns (3) form a nested structure, and the lower surface of

the shell (1) and the upper surfaces of the U-shaped supporting columns (3) form an integrated structure.

3. The automatic stacking raw material fermentation device for wine brewing

processing according to claim 1, wherein the U-shaped supporting columns (3) and the

idler wheels (5) form rotating structures through the cylindrical pins (4), the outer

surfaces of the idler wheels (5) are attached to the upper surfaces of the rails (6), and the

lower surfaces of the rails (6) and the upper surface of the fermentation tank body (7)

form an integrated structure.

4. The automatic stacking raw material fermentation device for wine brewing

processing according to claim 1, wherein the bearings (9) and the limiting blocks (14)

form embedded structures through the limiting grooves (13), the bearings (9) and the

straight-tooth gears (15) form nested structures, the straight-tooth gears (15) and the

gear belt (16) form meshing structures, and meanwhile, the two sets of straight-tooth

gears (15) are symmetrically arranged about the middle end of the outer surface of the

gear belt (16).

5. The automatic stacking raw material fermentation device for wine brewing

processing according to claim 1, wherein the conveying belt (10) and the shell (1) form

a rotating structure through the bearings (9), the outer surface of the conveying belt (10)

is attached to the inner surface of the shell (1), the conveying belt (10) and the spacer

blocks (11) form an embedded structure, and meanwhile, the spacer blocks (11) are

arranged at equal intervals relative to the outer surface of the conveying belt (10);

wherein the adjusting plates (12) and the bearings (9) form penetrating structures,

the adjusting plates (12) and the limiting blocks (14) form embedded structures through

the limiting grooves (13), and the adjusting plates (12) and the bearings (9) form

rotating structures.

－1/2－ 16 Jun 2021

DRAWINGS 2021103396

FIG. 1

FIG. 2

FIG. 3

FIG. 4 －2/2－