CN112741259A

CN112741259A - Device is mixed with preparing of mandarin orange coarse grain rice flour

Info

Publication number: CN112741259A
Application number: CN202110042545.9A
Authority: CN
Inventors: 杨建军
Original assignee: Jiangxi Bojun Ecological Agricultural Development Co ltd
Current assignee: Hunan Yiwan Rice Noodle Food Co.,Ltd.
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-05-04
Anticipated expiration: 2041-01-13
Also published as: CN112741259B

Abstract

The invention relates to a kneading device, in particular to a kneading device for preparing tangerine coarse grain rice flour. The invention provides a mixing device for preparing tangerine coarse grain rice flour, which can meet the toughness of a rice flour dough and can automatically knead the rice flour dough. The invention provides a mashup device for preparing tangerine coarse grain rice flour, which comprises the following components: the device comprises a bottom frame, wherein support frames are symmetrically arranged on the bottom frame; the cross beam is arranged between the tops of the two support frames; the lifting mechanism is arranged on the bottom frame; the kneading mechanism is arranged on the cross beam, the hammering mechanism is arranged on the cross beam, and the hammering mechanism is arranged on the lower portion of the kneading mechanism. The rice flour and water in the lifting mechanism are stirred into rice flour dough through the rotation of the dough kneading mechanism, and the hammering mechanism is driven to continuously hammer the rice flour dough through the rotation of the dough kneading mechanism, so that the rice flour dough becomes more vigorous.

Description

Device is mixed with preparing of mandarin orange coarse grain rice flour

Technical Field

The invention relates to a kneading device, in particular to a kneading device for preparing tangerine coarse grain rice flour.

Background

The rice flour is a strip-shaped or filiform rice product prepared by using rice as a raw material through the processes of soaking, cooking, layering and the like, and is not a powdery material prepared by grinding the rice as the raw material in a lexical sense. The rice flour is flexible in texture and rich in elasticity, does not stick soup when being boiled in water, is not easy to break when being dried and fried, is matched with various dish codes or soup bases to be boiled or dried and fried, is smooth and tasty, and is deeply favored by consumers.

When rice flour is made, kneading is needed, common kneading still depends on manual kneading and kneading by using a rolling pin, time and labor are wasted, electric kneading is also used, but the commonly adopted stirring mode is adopted, and the gluten degree can not meet the requirement.

Therefore, there is a need to design a kneading device for preparing tangerine coarse grain rice flour, which can satisfy the toughness of the rice flour dough and can automatically knead the rice flour dough, so as to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the common dough kneading is carried out by manually kneading and pressing by using a rolling pin, which wastes time and labor, and the common dough kneading adopts a stirring mode and the strength can not meet the requirement, the invention has the technical problems that: provided is a mashup device for preparing tangerine coarse grain rice flour, which can meet the toughness of rice flour dough and can automatically knead the rice flour dough.

A mashup device for preparing tangerine coarse grain rice flour comprises: the device comprises a bottom frame, wherein support frames are symmetrically arranged on the bottom frame; the cross beam is arranged between the tops of the two support frames; the lifting mechanism is arranged on the bottom frame; the kneading mechanism is arranged on the cross beam, the hammering mechanism is arranged on the cross beam, and the hammering mechanism is arranged on the lower portion of the kneading mechanism.

Further, the elevating mechanism includes: the transverse plate is arranged between the lower parts of the two support frames; the first fixing frame is arranged at the central position of the transverse plate; the top of the first fixing frame is provided with a circular plate; the two sides of the transverse plate are rotatably provided with the screw rods; the upper ends of the two screw rods are respectively provided with a nut seat; the cylinder is arranged between the two nut seats; the middle part of the underframe is symmetrically provided with the first bearings; the first rotating shaft is rotatably arranged between the two first bearings and penetrates through the supporting frame on one side; bevel gear sets are arranged between the two ends of the first rotating shaft and the bottom ends of the two screw rods, and bevel gears in the bevel gear sets are meshed with each other; the crank is arranged at one end of the first rotating shaft penetrating through the support frame.

Further, the kneading mechanism includes: the second bearing is arranged at the central position of the cross beam; the second rotating shaft is rotatably arranged in the second bearing; the lower part of the second rotating shaft is provided with a spiral rod; the fixing seat is arranged on the side edge of the cross beam; the rotating motor is arranged on the side wall of the fixing seat, and an output shaft of the rotating motor is connected with the top end of the second rotating shaft through a coupler.

Further, the hammer mechanism includes: the fixing blocks are arranged between two sides of the bottom of the cross beam and one side of the bottom of the cross beam opposite to the two support frames; the two fixed blocks are provided with circular ring blocks; the movable rods are symmetrically arranged on the circular ring block in a sliding manner; the bottom ends of the two movable rods are provided with hammer hitting balls; the top ends of the two movable rods are provided with top blocks; the elastic pieces are arranged between the two jacking blocks and the two hammer hitting balls; the first cam is arranged on the second rotating shaft and matched with the two ejector blocks.

Further, still include: the side wall of the upper part of the supporting frame at one side is provided with a water tank; the top cover plate is arranged at the top of the water tank; the beam at the upper part of the second bearing is provided with a concave ring block; the concave ring block is provided with a hose, one end of the hose is connected with the water tank, and the other end of the hose is positioned in the cylinder; and a second cam is arranged on a second rotating shaft at the upper part of the concave ring block and matched with the concave ring block.

Further, still include: the side wall of the underframe is symmetrically provided with a second fixing frame; the workbench is arranged between the tops of the two second fixing frames; the bottom of one side of the workbench is provided with a handle; the rotary seats are rotatably arranged at the bottoms of the two second fixing frames and at the two sides of the bottom of the underframe; the bottom parts of the four rotating seats are rotatably provided with trundles; the foot brake assembly, four roating seat sides all are provided with the foot brake assembly, and the foot brake assembly cooperates with the truckle.

Further, the rotating motor is a servo motor.

Further, the elastic member is a spring.

The beneficial effects are that: 1. the rice flour and water in the lifting mechanism are stirred into rice flour dough through the rotation of the dough kneading mechanism, and the hammering mechanism is driven to continuously hammer the rice flour dough through the rotation of the dough kneading mechanism, so that the rice flour dough becomes more vigorous.

2. The cylinder can be used for placing raw materials for making rice flour dough.

3. The rotation of the spiral rod can knead rice flour and water in the cylinder.

4. Constantly extrude the hose through the second cam, hydroenergy can slowly flow into to the drum in, make things convenient for the spiral pole to rotate more and mix rice flour and water and knead into rice flour ball.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 3 is a schematic perspective view of the kneading mechanism of the present invention.

Fig. 4 is a schematic view of a first partial explosion configuration of the present invention.

FIG. 5 is a schematic view of a second partial body structure according to the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

Reference numerals: 1 chassis, 2 support frames, 3 crossbeams, 4 lifting mechanisms, 41 transverse plates, 42 first fixing frames, 43 round plates, 44 lead screws, 45 nut seats, 46 cylinders, 47 first bearings, 48 first rotating shafts, 49 bevel gear sets, 410 cranks, 5 dough kneading mechanisms, 51 second bearings, 52 second rotating shafts, 53 spiral rods, 54 fixing seats, 55 rotating motors, 6 hammering mechanisms, 61 fixing blocks, 62 circular ring blocks, 63 movable rods, 64 hammer hitting balls, 65 elastic pieces, 66 top blocks, 67 first cams, 7 water tanks, 8 top cover plates, 9 concave ring blocks, 10 hoses, 11 second cams, 12 second fixing frames, 13 working tables, 14 grips, 15 rotating seats, 16 casters and 17 foot brake assemblies.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, a mashup device for preparing tangerine coarse grain rice flour comprises an underframe 1, support frames 2, a cross beam 3, a lifting mechanism 4, a dough kneading mechanism 5 and a hammering mechanism 6, wherein the support frames 2 are symmetrically arranged on the underframe 1, the cross beam 3 is arranged between the tops of the two support frames 2, the lifting mechanism 4 is arranged on the underframe 1, the dough kneading mechanism 5 is arranged on the cross beam 3, and the hammering mechanism 6 is arranged at the lower part of the dough kneading mechanism 5.

When rice flour dough needs to be made, a worker rotates the lifting mechanism 4 to move downwards, at the moment, the worker adds a certain amount of rice flour and water into the lifting mechanism 4, then the worker rotates the lifting mechanism 4 to move upwards, the worker starts the dough kneading mechanism 5, the dough kneading mechanism 5 rotates to stir the rice flour and the water in the lifting mechanism 4 into rice flour dough, the dough kneading mechanism 5 rotates to drive the hammering mechanism 6 to continuously hammer the rice flour dough, the rice flour dough becomes stronger, when the rice flour dough is kneaded for a certain time, the worker closes the dough kneading mechanism 5, the dough kneading mechanism 5 stops rotating and does not knead the rice flour dough any more, the dough kneading mechanism 5 stops rotating to drive the hammering mechanism 6 to stop hammering the rice flour dough, the worker rotates the lifting mechanism 4 to move downwards, and the worker takes out the rice flour dough. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2 and fig. 3, based on embodiment 1, the lifting mechanism 4 includes a horizontal plate 41, a first fixing frame 42, a circular plate 43, a lead screw 44, a nut seat 45, a cylinder 46, a first bearing 47, a first rotating shaft 48, a bevel gear set 49 and a crank 410, the horizontal plate 41 is disposed between the lower portions of the two support frames 2, the first fixing frame 42 is disposed at the center of the horizontal plate 41, the circular plate 43 is disposed on the top of the first fixing frame 42, the lead screws 44 are rotatably disposed on the left and right sides of the horizontal plate 41, the nut seats 45 are disposed on the upper ends of the two lead screws 44, the cylinder 46 is disposed between the two nut seats 45, the first bearings 47 are symmetrically disposed in the middle of the bottom frame 1, the first rotating shaft 48 is rotatably disposed between the two first bearings 47, the first rotating shaft 48 penetrates through the support frames 2 on the right side, the bevel gear set 49, bevel gears in the bevel gear set 49 are meshed with each other, and a crank 410 is arranged at the right end of the first rotating shaft 48.

When rice flour dough needs to be made, a worker rotates the crank 410, the crank 410 rotates to drive the first rotating shaft 48 to rotate, the first rotating shaft 48 rotates to drive the bevel gear set 49 to be meshed, the bevel gear set 49 rotates to drive the screw 44 to rotate, the screw 44 rotates to drive the cylinder 46 to move downwards through the nut seat 45, when the cylinder 46 moves to the middle of the screw 44, the worker adds a certain amount of rice flour and water into the cylinder 46, after the rice flour and the water are added, the worker rotates the crank 410, the crank 410 rotates to drive the first rotating shaft 48 to rotate, the first rotating shaft 48 rotates to drive the bevel gear set 49 to be meshed, the bevel gear set 49 rotates to drive the screw 44 to rotate, the screw 44 rotates to drive the cylinder 46 to move upwards through the nut seat 45, when the cylinder 46 moves to the bottom of the dough kneading mechanism 5, the worker starts the dough kneading mechanism 5 to rotate to stir the rice flour and the water in the cylinder 46 into rice flour dough, the kneading mechanism 5 rotates to drive the hammering mechanism 6 to continuously hammer the rice flour dough, so that the rice flour dough becomes more vigorous, when the rice flour dough is kneaded for a certain time, a worker closes the kneading mechanism 5, the kneading mechanism 5 stops rotating and does not knead the rice flour, the kneading mechanism 5 stops rotating and drives the hammering mechanism 6 to stop hammering the rice flour dough, the worker rotates the crank 410 again, the crank 410 rotates and drives the first rotating shaft 48 to rotate, the first rotating shaft 48 rotates and drives the bevel gear set 49 to be meshed, the bevel gear set 49 rotates and drives the lead screw 44 to rotate, the lead screw 44 rotates and drives the cylinder 46 to move downwards through the nut seat 45, and when the cylinder 46 moves to the middle part of the lead screw 44, the worker takes out the kneaded rice flour dough. The device has simple structure, and can place the raw materials for making the rice flour dough.

Dough kneading mechanism 5 is including second bearing 51, second pivot 52, spiral rod 53, fixing base 54 and rotating

electrical machines

55, and 3 central point on crossbeam puts and is provided with second bearing 51, and second bearing 51 internal rotation formula is provided with second pivot 52, and second pivot 52 lower part is provided with spiral rod 53, and crossbeam 3 right side is provided with fixing base 54, is provided with rotating electrical machines 55 on the fixing base 54 lateral wall, and rotating electrical machines 55's output shaft passes through the shaft coupling and is connected with second pivot 52 top.

When the cylinder 46 moves to the bottom of the kneading mechanism 5, a worker starts the rotating motor 55, the rotating motor 55 rotates to drive the second rotating shaft 52 to rotate, the second rotating shaft 52 rotates to drive the spiral rod 53 to rotate to mix and knead rice flour and water in the cylinder 46 into rice flour dough, the second rotating shaft 52 rotates to drive the hammering mechanism 6 to continuously hammer the rice flour dough, so that the rice flour dough becomes more rigid, when the rice flour dough is kneaded for a certain time, the worker turns off the rotating motor 55, the rotating motor 55 stops rotating to drive the second rotating shaft 52 to stop rotating, the second rotating shaft 52 stops rotating to drive the spiral rod 53 to stop rotating and not knead the rice flour dough, and the second rotating shaft 52 stops rotating the hammering mechanism 6 to stop hammering the rice flour dough. The device has simple structure, and can knead rice flour and water in the cylinder 46.

Hammering mechanism 6 is including fixed block 61, ring piece 62, the movable rod 63, hammer the batting 64, elastic component 65, kicking block 66 and

first cam

67, 3 bottom left and right sides of crossbeam and two support frames 2 all are provided with fixed block 61 between one side in opposite directions, be provided with ring piece 62 between two fixed blocks 61, the symmetry slidingtype is provided with movable rod 63 on the ring piece 62, two movable rod 63 bottoms all are provided with hammer the batting 64, two movable rod 63 tops all are provided with kicking block 66, all be provided with elastic component 65 between two kicking blocks 66 and two hammer batting 64, be provided with first cam 67 on the second pivot 52, first cam 67 cooperates with two kicking blocks 66.

The second rotating shaft 52 rotates to drive the first cam 67 to rotate, the first cam 67 rotates to be in contact with the ejector block 66, the ejector block 66 is pressed downwards, the ejector block 66 moves downwards to drive the movable rod 63 to slide downwards, the elastic piece 65 is compressed, the movable rod 63 slides downwards to drive the hammer striking ball 64 to move downwards to extrude the rice flour dough, when the first cam 67 rotates to be separated from the ejector block 66, the elastic piece 65 resets to drive the movable rod 63 to slide upwards, the movable rod 63 slides upwards to drive the hammer striking ball 64 to move upwards to not extrude the rice flour dough any more, and the rice flour dough can be continuously beaten by repeating the actions, so that the rice flour dough becomes more stiff.

Example 3

As shown in fig. 4, 5 and 6, the water tank, the top cover plate 8, the concave ring block 9, the hose 10 and the second cam 11 are further included, the water tank 7 is arranged on the side wall of the left support frame 2, the top cover plate 8 is arranged at the top of the water tank 7, the concave ring block 9 is arranged on the cross beam 3 at the upper portion of the second bearing 51, the hose 10 is arranged on the concave ring block 9, one end of the hose 10 is connected with the water tank 7, the other end of the hose 10 is located in the cylinder 46, the second cam 11 is arranged on the second rotating shaft 52 at the upper portion of the concave ring block 9, and the second cam 11 is matched with the concave.

When the rice flour dough needs to be made, a worker adds a certain amount of water into the water tank 7, then a certain amount of rice flour is added into the cylinder 46, when the second rotating shaft 52 rotates to drive the second cam 11 to rotate, the second cam 11 rotates to extrude the hose 10 in the concave ring block 9, and the water is conveyed into the cylinder 46 through the hose 10. The device has simple structure, water can slowly flow into the cylinder 46, and the spiral rod 53 can more conveniently rotate to mix and knead rice flour and water into rice flour dough.

Still including second mount 12, workstation 13, the handle 14, the roating seat 15, truckle 16 and service brake subassembly 17, the symmetry is provided with second mount 12 on the lateral wall before 1 chassis, be provided with workstation 13 between 12 tops of two second mounts, 13 front side bottoms of workstation are provided with handle 14, two 12 bottoms of second mount and the equal rotary type in 1 bottom left and right sides of chassis are provided with roating seat 15, the equal rotary type in 15 bottoms of four roating seats is provided with

truckle

16, 15 sides of four roating seats all are provided with service brake subassembly 17, service brake subassembly 17 and the cooperation of truckle 16.

The cylinder 46 moves to the middle of the screw 44, the operator takes the kneaded rice flour dough out and places the rice flour dough on the workbench 13, when the equipment needs to be moved to other positions, the operator pushes the handle 14 to drive the underframe 1 to move, the underframe 1 moves to drive the caster 16 to rotate, when the equipment moves to a specified position, the operator stops pushing the handle 14 to drive the underframe 1 to stop moving, the underframe 1 stops moving to drive the caster 16 to stop rotating, at the moment, the operator downwards rotates the foot brake assembly 17, and the caster 16 is clamped by the foot brake assembly 17. The device has simple structure, and can fix the caster 16 to prevent sliding.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A mandarin orange coarse grain rice flour preparation is with mixing device, characterized by includes:

the device comprises a bottom frame (1), wherein support frames (2) are symmetrically arranged on the bottom frame (1);

the cross beam (3) is arranged between the tops of the two support frames (2);

the lifting mechanism (4) is arranged on the bottom frame (1);

the kneading mechanism (5) is arranged on the cross beam (3);

and the lower part of the hammering mechanism (6) and the dough kneading mechanism (5) is provided with the hammering mechanism (6).

2. The masher system for preparing mandarin orange coarse rice flour as recited in claim 1, wherein the elevating mechanism (4) comprises:

the transverse plate (41) is arranged between the lower parts of the two support frames (2);

the center of the transverse plate (41) is provided with a first fixing frame (42);

a circular plate (43), wherein the top of the first fixing frame (42) is provided with the circular plate (43);

the screw rods (44) are rotatably arranged on both sides of the transverse plate (41);

the upper ends of the two screw rods (44) are respectively provided with a nut seat (45);

a cylinder (46), wherein the cylinder (46) is arranged between the two nut seats (45);

the middle of the underframe (1) is symmetrically provided with the first bearings (47);

the first rotating shaft (48) is rotatably arranged between the two first bearings (47), and the first rotating shaft (48) penetrates through the supporting frame (2) on one side;

bevel gear sets (49) are arranged between the two ends of the first rotating shaft (48) and the bottom ends of the two screw rods (44), and bevel gears in the bevel gear sets (49) are meshed with each other;

the crank (410) is arranged at one end of the first rotating shaft (48) penetrating through the support frame (2).

3. A masher system for the preparation of mandarin orange roughage rice flour as claimed in claim 2, wherein the kneading means (5) comprise:

the second bearing (51) is arranged at the central position of the cross beam (3);

the second rotating shaft (52) is rotatably arranged on the second bearing (51);

the spiral rod (53) is arranged at the lower part of the second rotating shaft (52);

the fixing seat (54) is arranged on the side edge of the cross beam (3);

the rotating motor (55) is arranged on the side wall of the fixed seat (54), and an output shaft of the rotating motor (55) is connected with the top end of the second rotating shaft (52) through a coupler.

4. A masher device for the preparation of mandarin orange roughage rice flour as claimed in claim 3, characterized in that the hammering mechanism (6) comprises:

the fixing blocks (61) are arranged between two sides of the bottom of the cross beam (3) and one side of the bottom of the cross beam, which faces the two support frames (2);

the circular ring block (62) is arranged between the two fixed blocks (61);

the movable rods (63) are symmetrically arranged on the circular ring block (62) in a sliding manner;

the bottom ends of the two movable rods (63) are respectively provided with a hammering ball (64);

the top ends of the two movable rods (63) are provided with the top blocks (66);

the elastic pieces (65) are arranged between the two ejector blocks (66) and the two hammer hitting balls (64); the first cam (67) is arranged on the second rotating shaft (52), and the first cam (67) is matched with the two jacking blocks (66).

5. The masher system for preparing tangerine coarse grain rice flour as recited in claim 4, further comprising:

the side wall of the upper part of the supporting frame (2) at one side is provided with a water tank (7);

the top cover plate (8) is arranged at the top of the water tank (7);

the beam (3) at the upper part of the second bearing (51) is provided with a concave ring block (9);

the hose (10) is arranged on the concave ring block (9), one end of the hose (10) is connected with the water tank (7), and the other end of the hose (10) is positioned in the cylinder (46);

and a second cam (11) is arranged on a second rotating shaft (52) at the upper part of the concave ring block (9), and the second cam (11) is matched with the concave ring block (9).

6. The masher system for preparing tangerine coarse grain rice flour as recited in claim 5, further comprising:

the side wall of the underframe (1) is symmetrically provided with a second fixing frame (12);

the workbench (13) is arranged between the tops of the two second fixing frames (12);

a handle (14), wherein the handle (14) is arranged at the bottom of one side of the workbench (13);

the rotary seats (15) are rotatably arranged at the bottoms of the two second fixing frames (12) and the two sides of the bottom frame (1);

the bottom parts of the four rotating seats (15) are respectively and rotatably provided with a caster (16);

foot brake subassembly (17), four roating seat (15) sides all are provided with foot brake subassembly (17), and foot brake subassembly (17) and truckle (16) cooperation.

7. The masher system for preparing mandarin orange coarse rice flour as recited in claim 3, wherein said rotating motor (55) is a servo motor.

8. A masher system for the preparation of tangerine and coarse rice flour as in claim 4, wherein said elastic member (65) is a spring.