CN112841240B

CN112841240B - Matcha noodle forming equipment

Info

Publication number: CN112841240B
Application number: CN202110060780.9A
Authority: CN
Inventors: 高峰; 高健
Original assignee: Esprit Guangzhou Food Co ltd
Current assignee: Esprit Guangzhou Food Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2023-05-05
Anticipated expiration: 2041-01-18
Also published as: CN112841240A

Abstract

The invention discloses a green tea noodle processing technology and forming equipment thereof, which comprises a conveying belt, a mounting plate and supporting columns, wherein the supporting columns are symmetrically and fixedly connected to the lower side of the conveying belt, the mounting plate is symmetrically and fixedly connected to the surface of the conveying belt, the sensing device is fixedly connected to the left end of the upper surface of the mounting plate, the first mounting block and the second mounting block are fixedly connected to the upper side of the mounting plate, lifting adjusting devices are arranged in the first mounting block and the second mounting block, a first movable plate and a second movable plate are respectively arranged above the first mounting block and the second mounting block, the first movable plate and the second movable plate are fixedly connected with the lifting adjusting devices, and a driving device is fixedly connected to the surface of one of the first movable plates.

Description

Matcha noodle forming equipment

Technical Field

The invention relates to the technical field of green tea noodle processing equipment, in particular to green tea noodle forming equipment.

Background

The noodles are health care food which is simple to prepare, convenient to eat and rich in nutrition, and can be eaten as staple food or fast food. The noodles originate in China and have a history of eating for more than four thousands of years, and are accepted and favored by people in the world. The noodles are mainly made of wheat flour, and rice and porridge are staple foods of common Chinese people before the noodles appear, but the noodles are flat with rice after the noodles appear.

The existing green tea noodle forming equipment can only be used for manufacturing noodles with one width basically, and has low adaptability and practicality.

Disclosure of Invention

The invention aims to provide green tea noodle forming equipment for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a matcha noodless former, includes conveyer belt, mounting panel and support column, the below symmetry fixedly connected with support column of conveyer belt, the surface symmetry fixedly connected with mounting panel of conveyer belt, the upper surface left end fixedly connected with induction system of mounting panel, the top fixedly connected with first installation piece and the second installation piece of mounting panel, lifting adjusting device is all installed to the inside of first installation piece and second installation piece, the top of first installation piece and second installation piece is provided with first fly leaf and second fly leaf respectively, first fly leaf and second fly leaf all with lifting adjusting device fixed connection, one of them the fixed surface of first fly leaf is connected with drive arrangement, one of them second fly leaf and drive arrangement rotate to be connected with cutting device, one of them internally mounted of second fly leaf has transmission, transmission and cutting device sliding connection, transmission and drive arrangement fixed connection.

Preferably, the induction device comprises a first electric telescopic rod, a first fixed block, a second fixed block and a photoelectric sensor, wherein the left end of the upper surface of the mounting plate is fixedly connected with the first fixed block, the first electric telescopic rod is installed in the first fixed block, the second fixed block is fixedly connected with one end, far away from the first fixed block, of the first electric telescopic rod, and the photoelectric sensor is installed in the second fixed block.

Preferably, the driving device comprises a motor base, a servo motor, a first sprocket and a second sprocket, wherein one of the first movable plate is fixedly connected with the motor base, the servo motor is fixedly connected to the upper portion of the motor base, the first sprocket is fixedly connected to the output end of the servo motor, the second sprocket is rotatably connected to the surface of the second movable plate through a bearing, and the first sprocket and the second sprocket are in chain transmission.

Preferably, the cutting device comprises a first cutter, a second cutter, a first bidirectional screw rod, a second bidirectional screw rod, a connecting column, mounting rings, inclined columns and convex blocks, wherein the first bidirectional screw rod is rotationally connected between the first movable plates, the second bidirectional screw rod is rotationally connected between the second movable plates, the surfaces of the first bidirectional screw rod and the second bidirectional screw rod are respectively provided with a plurality of mounting rings through threaded connection, the inclined columns are fixedly connected with the surfaces of the mounting rings, one ends, far away from the mounting rings, of the inner parts of the inclined columns are rotationally connected with the first cutters, the four inclined columns are symmetrically and fixedly connected with the convex blocks, the inner parts of the convex blocks are rotationally connected with the second cutters, the inner parts of the mounting rings are all slidably connected with the connecting columns, and the connecting columns are provided with the two mounting rings.

Preferably, the lifting adjusting device comprises a second electric telescopic rod and a limiting rod, wherein the second electric telescopic rods are fixedly connected to the first installation blocks and the second installation blocks, one ends, far away from the first installation blocks and the second installation blocks, of the second electric telescopic rods are fixedly connected with the first movable plate and the second movable plate, the limiting rods are symmetrically and fixedly connected to the upper surfaces of the first installation blocks and the second installation blocks, and the limiting rods are slidably connected with the first movable plate and the second movable plate.

Preferably, the transmission device comprises a cylinder, fixed columns, a connecting ring and a cross column, wherein the surfaces of the first chain wheel and the second chain wheel are fixedly connected with the fixed columns, the cross column is connected with the inside of the fixed columns in a sliding manner, the connecting ring is connected with the outside of the cross column in a rotating manner, the cylinder is symmetrically and fixedly connected with the surface of the connecting ring, one end of the cylinder, which is far away from the connecting ring, is fixedly connected with the mounting plate, two ends of the cross column, which are far away from the fixed columns, are respectively connected with the first bidirectional screw rod and the second bidirectional screw rod in a sliding manner, and the two ends of the cross column are respectively in a quadrangular shape.

Compared with the prior art, the invention has the beneficial effects that:

according to the noodle cutter, the controller can be arranged on the lower surface of one mounting plate, the servo motor, the photoelectric sensor, the first electric telescopic rod and the second electric telescopic rod are connected with the controller through wires, the servo motor drives the first sprocket to rotate, the first sprocket and the second sprocket are driven by the chain to rotate, the first sprocket and the second sprocket drive the first bidirectional screw and the second bidirectional screw to rotate through the transmission device, the flattened noodle blanks are placed on the surface of the conveying belt, the conveying belt drives the noodle blanks to move left to right, the two first electric telescopic rods drive the two photoelectric sensors to sense, if the sensing distance changes, signals are transmitted to the controller, the controller controls the servo motor to start, the first bidirectional screw and the second bidirectional screw are driven to rotate through transmission, the distance between a plurality of mounting rings is further adjusted, meanwhile, the second electric telescopic rod contracts, the first movable plate and the second movable plate are driven to move downwards, the first cutter and the second cutter cut the noodle blanks, and the plurality of first cutters and the second cutters are matched, so that the noodle cutter with different widths can be cut.

Drawings

FIG. 1 is a schematic view of the overall top view and partial cross-sectional structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a first movable plate and a second movable plate according to the present invention;

FIG. 3 is a schematic diagram of a transmission mechanism of the present invention;

fig. 4 is a schematic structural view of the lifting adjusting device of the present invention.

In the figure: 1. a conveyor belt; 2. a mounting plate; 3. a support column; 4. an induction device; 5. a first mounting block; 6. a second mounting block; 7. a lifting adjusting device; 8. a first movable plate; 9. a second movable plate; 10. A driving device; 11. a cutting device; 12. a transmission device; 13. a first electric telescopic rod; 14. a first fixed block; 15. a second fixed block; 16. a photoelectric sensor; 17. a motor base; 18. a servo motor; 19. a first sprocket; 20. a second sprocket; 21. a first cutter; 22. a second cutter; 23. a first bidirectional screw rod; 24. a second bidirectional screw rod; 25. a connecting column; 26. a mounting ring; 27. a diagonal column; 28. a bump; 29. a second electric telescopic rod; 30. a limit rod; 31. a cylinder; 32. fixing the column; 33. a connecting ring; 34. cross column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and 4, a green tea noodle forming device comprises a conveyor belt 1, a mounting plate 2 and a support column 3, wherein the support column 3 is symmetrically and fixedly connected to the lower side of the conveyor belt 1, the mounting plate 2 is symmetrically and fixedly connected to the surface of the conveyor belt 1, and an induction device 4 is fixedly connected to the left end of the upper surface of the mounting plate 2, so that whether noodles exist on the surface of the conveyor belt 1 can be sensed, and then the whole body reacts to perform cutting; a first mounting block 5 and a second mounting block 6 are fixedly connected above the mounting plate 2, and lifting adjusting devices 7 are arranged in the first mounting block 5 and the second mounting block 6 and can drive the facing blank to be cut; a first movable plate 8 and a second movable plate 9 are respectively arranged above the first mounting block 5 and the second mounting block 6, the first movable plate 8 and the second movable plate 9 are fixedly connected with the lifting adjusting device 7, and a driving device 10 is fixedly connected to the surface of one of the first movable plates 8 to provide power for integral adjustment; one of the second movable plates 9 is rotationally connected with a driving device 10, and a cutting device 11 is rotationally connected between the two first movable plates 8 and the second movable plates 9, so that a dough blank can be cut, adaptability is achieved, and noodles with different widths can be cut; a transmission device 12 is arranged in one of the second movable plates 9 to play a role in transmission and adjustment, so that the whole is further adaptive; the transmission device 12 is in sliding connection with the cutting device 11, and the transmission device 12 is fixedly connected with the driving device 10.

Referring to fig. 1 and 2, the sensing device 4 includes a first electric telescopic rod 13, a first fixed block 14, a second fixed block 15 and a photoelectric sensor 16, the left end of the upper surface of the mounting plate 2 is fixedly connected with the first fixed block 14, the first electric telescopic rod 13 is installed inside the first fixed block 14, one end of the first electric telescopic rod 13 far away from the first fixed block 14 is fixedly connected with the second fixed block 15, the photoelectric sensor 16 is installed inside the second fixed block 15, the photoelectric sensor 16 senses, if the distance is changed, a signal is transmitted to a controller, the controller controls the second electric telescopic rod 29 to shorten, and the first movable plate 8 and the second movable plate 9 are driven to descend, so that the first cutter 21 and the second cutter 22 are contacted with a dough.

Referring to fig. 1, the driving device 10 includes a motor base 17, a servo motor 18, a first sprocket 19 and a second sprocket 20, wherein a surface of the first movable plate 8 is fixedly connected with the motor base 17, a servo motor 18 is fixedly connected above the motor base 17, an output end of the servo motor 18 is fixedly connected with the first sprocket 19, a surface of one of the second movable plates 9 is rotatably connected with the second sprocket 20 through a bearing, the first sprocket 19 and the second sprocket 20 are driven by a chain to provide power for integral adjustment, the servo motor 18 is started to drive the first sprocket 19 to rotate, and the first sprocket 19 and the second sprocket 20 are driven by the chain to drive the second sprocket 20 to rotate.

Referring to fig. 1, the cutting device 11 includes a first cutter 21, a second cutter 22, a first bidirectional screw 23, a second bidirectional screw 24, a connecting post 25, a mounting ring 26, a diagonal post 27 and a bump 28, wherein the first bidirectional screw 23 is rotatably connected between the two first movable plates 8, the second bidirectional screw 24 is rotatably connected between the two second movable plates 9, the surfaces of the first bidirectional screw 23 and the second bidirectional screw 24 are respectively connected with a plurality of mounting rings 26 through threads, the surface of the mounting ring 26 is fixedly connected with the diagonal post 27, one end, far away from the mounting ring 26, of the diagonal post 27 is rotatably connected with the first cutter 21, four surfaces of the diagonal post 27 are symmetrically and fixedly connected with the bump 28, the inner portion of the bump 28 is rotatably connected with the second cutter 22, the inner portions of the mounting rings 26 are slidably connected with the connecting post 25, the connecting post 25 is capable of cutting a plurality of blanks, and the mounting rings 26 can be driven to be adjusted through the first bidirectional screw 23 and the second bidirectional screw 24.

Referring to fig. 2 and 4, the lifting adjusting device 7 includes a second electric telescopic rod 29 and a limiting rod 30, the second electric telescopic rods 29 are fixedly connected to the inside of the first mounting block 5 and the second mounting block 6, a plurality of second electric telescopic rods 29 are fixedly connected to the first movable plate 8 and the second movable plate 9 at one end of the second electric telescopic rods 29 far away from the first mounting block 5 and the second mounting block 6, the limiting rods 30 are symmetrically and fixedly connected to the upper surfaces of the first mounting block 5 and the second mounting block 6, the limiting rods 30 are slidably connected to the first movable plate 8 and the second movable plate 9, the second electric telescopic rods 29 are shortened, the first movable plate 8 and the second movable plate 9 are driven to descend, and the first cutter 21 and the second cutter 22 are contacted with the dough to cut.

Referring to fig. 3, the transmission device 12 includes a cylinder 31, a fixing post 32, a connecting ring 33 and a cross post 34, the surfaces of the first sprocket 19 and the second sprocket 20 are fixedly connected with the fixing post 32, the cross post 34 is slidably connected in the fixing post 32, the connecting ring 33 is rotatably connected in the outer side of the cross post 34, the cylinder 31 is fixedly connected to the surface of the connecting ring 33 symmetrically, one end of the cylinder 31 far away from the connecting ring 33 is fixedly connected with the mounting plate 2, one ends of the two cross posts 34 far away from the fixing post 32 are slidably connected with the first bidirectional screw 23 and the second bidirectional screw 24 respectively, both ends of the cross posts are in a quadrangular shape, the first sprocket 19 and the second sprocket 20 rotate to drive the fixing post 32 to rotate, the cylinder 31 is in a contracted state to drive the first bidirectional screw 23 and the second bidirectional screw 24 to rotate, and the cylinder 31 has a transmission function and an adjusting function, and can be adjusted by extending the cylinder 31.

The processing technology of the green tea noodles comprises the following steps:

(1) Decocting fructus Lycii, fructus Jujubae, stamen Nelumbinis, arillus longan and crystal sugar with appropriate amount of water for 2-3 times each for 40-50 min, filtering to remove residues, mixing decoctions, and heating for 20-30 min to obtain Chinese medicinal thick soup;

(2) Sieving flour and corn flour for 60-70 times, sieving Matcha powder, mixing with the concentrated solution of Chinese medicinal materials, adding appropriate amount of water, transferring into dough mixer, and mixing for 15-20 min to obtain dough;

(3) And taking out the dough, rolling and flattening, conveying by a conveyor belt 1, and cutting in the conveying process to obtain the noodles.

The circuits and control involved in the present invention are all of the prior art, and are not described in detail herein.

Working principle: the dough is placed on the surface of the conveyor belt 1 for conveying, the first electric telescopic rod 13 stretches to drive the two photoelectric sensors 16 to move towards the direction approaching each other, the photoelectric sensors 16 sense, if the distance changes, the transmission signals are placed in the controller, the controller controls the second electric telescopic rod 29 to shorten and drive the first movable plate 8 and the second movable plate 9 to descend, the first cutter 21 and the second cutter 22 are contacted with the dough for cutting, the servo motor 18 starts to drive the first sprocket 19 to rotate while the first cutter 21 and the second cutter 22 descend, the first sprocket 19 and the second sprocket 20 are driven by a chain to drive the second sprocket 20 to rotate, the first sprocket 19 and the second sprocket 20 rotate to drive the first bidirectional screw 23 and the second bidirectional screw 24 to rotate, the first sprocket 19 and the second sprocket 20 rotate to drive the fixed column 32 to rotate, because both ends of the cross column 34 are quadrangular, the cross column 34 is in sliding connection with the fixed column 32, and then the fixed column 32 rotates to drive the cross column 34 to rotate, the air cylinder 31 contracts to drive the two cross columns 34 to be matched with the first bidirectional screw 23 and the second bidirectional screw 24, and then drive the first bidirectional screw 23 and the second bidirectional screw 24 to rotate, when the whole is not started, the air cylinder 31 is in a contracted state, when the space adjustment is carried out on the mounting ring 26 on the surface of the first bidirectional screw 23 or the second bidirectional screw 24, only the air cylinder 31 at each part of the first movable plate 8 or the air cylinder 31 inside the second movable plate 9 stretches to drive the connecting ring 33 and the cross column 34 to be far away from the first bidirectional screw 23 or the second bidirectional screw 24, so that the cross column 34 is separated from the first bidirectional screw 23 or the second bidirectional screw 24, and then adjust singly, further increase holistic adaptability, adapt to the noodless of different width of production.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. The utility model provides a matcha noodless former, includes conveyer belt (1), mounting panel (2) and support column (3), the below symmetry fixedly connected with support column (3) of conveyer belt (1), the surface symmetry fixedly connected with mounting panel (2) of conveyer belt (1), its characterized in that: the upper surface left end fixedly connected with induction system (4) of mounting panel (2), the top fixedly connected with first installation piece (5) and second installation piece (6) of mounting panel (2), lifting adjustment device (7) are all installed to the inside of first installation piece (5) and second installation piece (6), the top of first installation piece (5) and second installation piece (6) is provided with first fly leaf (8) and second fly leaf (9) respectively, first fly leaf (8) and second fly leaf (9) all are with lifting adjustment device (7) fixed connection, one of them the fixed surface of first fly leaf (8) is connected with drive arrangement (10), one of them second fly leaf (9) and drive arrangement (10) rotate to be connected with cutting device (11), one of them inside installation of second fly leaf (9) has transmission (12), transmission (12) and drive arrangement (11) are connected with cutting device (10) in a sliding way;

the induction device (4) comprises a first electric telescopic rod (13), a first fixed block (14), a second fixed block (15) and a photoelectric sensor (16), wherein the left end of the upper surface of the mounting plate (2) is fixedly connected with the first fixed block (14), the first electric telescopic rod (13) is arranged in the first fixed block (14), one end, far away from the first fixed block (14), of the first electric telescopic rod (13) is fixedly connected with the second fixed block (15), and the photoelectric sensor (16) is arranged in the second fixed block (15);

the driving device (10) comprises a motor base (17), a servo motor (18), a first sprocket (19) and a second sprocket (20), wherein the surface of the first movable plate (8) is fixedly connected with the motor base (17), the servo motor (18) is fixedly connected to the upper part of the motor base (17), the first sprocket (19) is fixedly connected to the output end of the servo motor (18), the second sprocket (20) is rotatably connected to the surface of the second movable plate (9) through a bearing, and the first sprocket (19) and the second sprocket (20) are in chain transmission.

2. The matcha noodle molding apparatus as claimed in claim 1, wherein: cutting device (11) are including first cutter (21), second cutter (22), first two-way lead screw (23), second two-way lead screw (24), spliced pole (25), collar (26), batter post (27) and lug (28), two rotate between first fly leaf (8) and be connected with first two-way lead screw (23), two rotate between second fly leaf (9) and be connected with second two-way lead screw (24), the surface of first two-way lead screw (23) and second two-way lead screw (24) is all through threaded connection with a plurality of collar (26), the fixed surface of collar (26) is connected with batter post (27), the one end rotation that is kept away from collar (26) in inside of batter post (27) is connected with first cutter (21), and wherein four the fixed surface symmetry of batter post (27) is connected with lug (28), the inside rotation of lug (28) is connected with second (22), a plurality of inside of collar (26) all sliding connection has spliced pole (25), and two spliced poles (25).

3. The matcha noodle molding apparatus as claimed in claim 1, wherein: lifting adjusting device (7) are including second electric telescopic handle (29) and gag lever post (30), the inside of first installation piece (5) and second installation piece (6) is equal fixedly connected with second electric telescopic handle (29), a plurality of first installation piece (5) and second installation piece (6) one end and first fly leaf (8) and second fly leaf (9) fixed connection are kept away from to second electric telescopic handle (29), the upper surface symmetry fixedly connected with gag lever post (30) of first installation piece (5) and second installation piece (6), a plurality of gag lever post (30) all with first fly leaf (8) and second fly leaf (9) sliding connection.

4. The matcha noodle molding apparatus as claimed in claim 2, wherein: the transmission device (12) comprises a cylinder (31), a fixed column (32), a connecting ring (33) and a cross column (34), wherein the surfaces of a first sprocket (19) and a second sprocket (20) are fixedly connected with the fixed column (32), the cross column (34) is slidably connected to the inside of the fixed column (32), the connecting ring (33) is rotationally connected to the outside of the cross column (34), the cylinder (31) is fixedly connected with the cylinder (31) in a surface symmetry manner, one end of the cylinder (31) away from the connecting ring (33) is fixedly connected with a mounting plate (2), one ends of the two cross columns (34) away from the fixed column (32) are respectively connected with a first bidirectional screw rod (23) and a second bidirectional screw rod (24) in a sliding manner, and two ends of the cross columns are respectively in a quadrangular shape.