CN219404397U

CN219404397U - Rice noodle cutting machine

Info

Publication number: CN219404397U
Application number: CN202320183552.5U
Authority: CN
Inventors: 张显亮
Original assignee: Guangdong Chencun Food Co ltd
Current assignee: Guangdong Chencun Food Co ltd
Priority date: 2023-02-10
Filing date: 2023-02-10
Publication date: 2023-07-25
Anticipated expiration: 2033-02-10

Abstract

The utility model relates to a rice noodle cutting machine, which comprises a first conveyor, a shredding component, a cutting component and a metering component, wherein a plurality of first guide grooves are formed between the shredding component and the cutting component; be located between two guide rails on the second support and be equipped with a plurality of cutting and accept the board, the cutting knife is located one side of cutting and accept the board and install on the draw runner, the rice noodle is carried to shredding assembly through first conveyer and is cut into filaments, the filiform rice noodle is carried in cutting assembly through first guide slot, the motor starts and drives crank rotation, crank rotation drives the connecting rod and promotes the draw runner and slide on the guide rail, the cooperation of cutting knife and cutting and accept the board cuts off filiform rice noodle, realize that rice noodle length and width can be even in cutting process, measurement efficiency is high, production efficiency has been improved.

Description

Rice noodle cutting machine

Technical Field

The utility model relates to the technical field of rice noodle processing, in particular to a rice noodle cutting machine.

Background

The raw material of the rice noodles is rice milk, and the finished fresh rice noodles are obtained by steaming, slitting and cold cutting. In large-scale packaged type rice noodles production, after preliminary drying, the finished fresh rice noodles are bagged after the procedures of shredding, cutting, metering, drying and the like, and in the current production and processing process, shredding, cutting and metering are mainly manually operated, but the manually sheared rice noodles are different in length and width, and manual metering is time-consuming and labor-consuming, so that the metering efficiency is slow, and the production efficiency is influenced.

Disclosure of Invention

The utility model aims to design a rice noodle cutting machine, which can realize uniform length and width of rice noodle in the cutting process and has high metering efficiency, thereby improving production efficiency.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a rice noodle cutting machine, including first support, second support and first conveyer, first conveyer is installed on the first support, its characterized in that: the cutting device comprises a first support, a second support, a first conveyor, a second conveyor, a cutting assembly, a metering assembly and a cutting assembly, wherein the first support is provided with a first conveying end, the second support is provided with a second conveying end, the cutting assembly is arranged on the second support and is arranged below the first conveying end, the metering assembly is arranged on the second support and is arranged below the first conveying end; a plurality of first guide grooves are formed between the shredding assembly and the cutting assembly, the cutting assembly comprises a motor, two guide rails and a plurality of cutting knives, the motor is mounted on the second support and located on one side of the guide rails, the output end of the motor is connected with a crank, the two guide rails are mounted on the second support and are in sliding connection with the sliding strips, and the crank is in movable connection with the sliding strips through a connecting rod; a plurality of cutting bearing plates are arranged on the second bracket and positioned between the two guide rails, the two cutting bearing plates form a channel, the width of the channel is larger than that of the first guide groove, and the channel is matched with the first guide groove; the cutting knife is arranged on the sliding strip and positioned on one side of the cutting bearing plate, and the cutting knife is matched with the cutting bearing plate.

Further, a first sensor is arranged on the second support, an induction column is arranged on the crank, and the first sensor is matched with the induction column.

Further, the shredding component comprises a guide roller and two shredding rollers, wherein two ends of the guide roller are rotationally connected with the second support, the guide roller is located below the output end of the first conveyor and above the two shredding rollers, two ends of the shredding rollers are rotationally connected with the second support, and the first guide groove is located below the two shredding rollers.

Further, a plurality of second guide grooves are formed in the lower portion of the cutting bearing plate, the second guide grooves are matched with the first guide grooves, the second guide grooves at two ends are communicated with material pipes, third guide grooves are formed in two sides of the second support, and one ends, far away from the second guide grooves, of the material pipes extend into inlets of the third guide grooves.

Further, the metering assembly comprises a plurality of four-groove overturning hoppers and a plurality of fourth guide grooves, the four-groove overturning hoppers are located below the second guide grooves, the four-groove overturning hoppers are movably connected with the second support through rotating rods, the fourth guide grooves are located below the four-groove overturning hoppers, and the four-groove overturning hoppers are matched with the second guide grooves.

Further, a second sensor is arranged at one end of the bracket, which is positioned at the four-groove overturning hopper.

Further, the device also comprises a second conveyor, wherein a plurality of powder boxes are connected to the second conveyor, and the powder boxes are matched with the fourth guide grooves.

Further, a plurality of air blowing pipes are arranged on the second support and positioned on one side of the four-groove overturning bucket, and the air blowing pipes are matched with the four-groove overturning bucket.

Compared with the prior art, the utility model has the beneficial effects that:

when the utility model is used, the rice noodles are conveyed to the shredding assembly through the first conveyor to be cut into the filamentous rice noodles with uniform width, the filamentous rice noodles pass through the first guide grooves which are uniformly distributed, so that the quantity of the filamentous rice noodles in each first guide groove is uniform, when the rice noodles are conveyed to a certain length in the cutting assembly, the motor is started to drive the crank to rotate, the crank is rotated and drives the connecting rod to push the slide bar to slide on the guide rail, the cutting knife on the slide bar is matched with the cutting bearing plate to cut the filamentous rice noodles, the length of the filamentous rice noodles in each first guide groove is uniform, the cut filamentous rice noodles fall on the metering assembly to be metered into the box, the manual shearing and manual metering are replaced, the length and the width of the rice noodles can be uniform in the cutting process, the metering efficiency is high, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of the engagement of the severing assembly and metering assembly of the present utility model;

FIG. 3 is another angular perspective view of the engagement of the severing assembly and metering assembly of the present utility model;

fig. 4 is a top view of the mating of the severing assembly and metering assembly of the present utility model.

The names of the components marked in the figures are as follows:

1. a first conveyor; 2. a first bracket; 3. a second conveyor; 4. a second bracket; 5. a shredding assembly; 6. a guide roller; 7. a shredding roller; 8. a first guide groove; 9. a cutting assembly; 10. a motor; 11. a crank; 12. a connecting rod; 13. a guide rail; 14. a slide bar; 15. cutting the bearing plate; 16. a cutting knife; 17. a first inductor; 18. an induction column; 19. a second guide groove; 20. a material pipe; 21. a third guide groove; 22. a metering assembly; 23. four-slot overturning hopper; 24. a fourth guide groove; 25. a second inductor; 26. an air blowing pipe; 27. a powder box.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present utility model with reference to the accompanying drawings and preferred embodiments.

Examples: referring to fig. 1-4, a rice noodle cutter comprises a first bracket 2, a second bracket 4 and a first conveyor 1, wherein the first conveyor 1 is a white non-toxic conveyor for conveying non-shredded rice noodles, and the first conveyor 1 is arranged on the first bracket 2; the automatic feeding device further comprises a shredding assembly 5, a cutting assembly 9 and a metering assembly 22, wherein the shredding assembly 5 is arranged on the second support 4 and is positioned below the output end of the first conveyor 1, the cutting assembly 9 is arranged on the second support 4 and is positioned below the shredding assembly 5, and the metering assembly 22 is arranged on the second support 4 and is positioned below the shredding assembly 5; the even distribution is equipped with a plurality of first guide slots 8 between shredding module 5 and the cutting module 9, the rice noodles get into the first guide slot 8 of below after the even shredding of shredding module 5, the even shred of shredding module 5 and the first guide slot 8 that divide equally in its below have guaranteed that the quantity of silk-like rice noodles in every first guide slot 8 of follow-up entering is unanimous, shredding module 5 includes guide cylinder 6 and two wire cutting cylinder 7, the both ends and the second support 4 rotation of guide cylinder 6 are connected, guide cylinder 6 is located the below of the output of first conveyer 1, and be located the top of two wire cutting cylinder 7, guide cylinder 6 ensures that the rice noodles that comes from first conveyer 1 stable the transport carries out the filament cutting on wire cutting cylinder 7, the both ends and the second support 4 rotation of two wire cutting cylinder 7 are connected, and first guide slot 8 is located the direct below of two wire cutting cylinder 7, the rotation direction of two wire cutting cylinder 7 is relative, servo motor drive rotation, servo motor and controller electrical connection, the wire cutting cylinder 7 can be controlled by the wire cutting cylinder 7 and the length of wire cutting cylinder 7 is controlled when the wire cutting cylinder 7 rotates the wire cutting end length of a certain wire cutting cylinder, the length of wire cutting cylinder 9 is guaranteed to the wire cutting cutter length of the wire cutting servo motor is controlled simultaneously.

The cutting assembly 9 comprises a motor 10, two guide rails 13 and a plurality of cutting knives 16, the motor 10 is arranged on the second support 4 and is located on one side of the guide rails 13, the output end of the motor 10 is connected with a crank 11, a first sensor 17 is arranged on the second support 4, a sensing column 18 is arranged on the crank 11, the first sensor 17 is matched with the sensing column 18, the first sensor 17 is electrically connected with a controller, when the motor 10 drives the crank 11 to rotate, and the sensing column 18 on the crank 11 passes through the first sensor 17, the first sensor 17 transmits signals to the controller, the controller receives information transmitted by the first sensor 17 and counts, when a certain number of the pieces of the rice noodles are counted, the controller controls a four-groove overturning bucket motor of the metering assembly 22 to start, and the four-groove overturning bucket motor drives the four-groove overturning bucket 23 to overturn, so that the rice noodles with uniform weight can be obtained to be boxed. The two guide rails 13 are arranged on the second bracket 4 and are in sliding connection with the slide bar 14, and the crank 11 is movably connected with the slide bar 14 through the connecting rod 12; a plurality of cutting bearing plates 15 are arranged on the second bracket 4 and positioned between the two guide rails 13, a white non-toxic PP plate is arranged on one side of the cutting bearing plates 15 facing the cutting knife 16, so that the loss of the cutting bearing plates 15 to the cutting knife 16 can be buffered, the two cutting bearing plates 15 form a channel, the width of the channel is larger than that of the first guide grooves 8, the channel is matched with the first guide grooves 8, and the first guide grooves 8 are positioned right above the channel, so that the filiform rice noodles in each first guide groove 8 can completely enter the channel; the slide bar 14 is provided with a plurality of cutting blocks, the cutting knife 16 is arranged on the cutting blocks and positioned on one side of the cutting bearing plate 15, the cutting knife 16 is connected with the slide bar through the cutting blocks and positioned between channels formed by the two cutting bearing plates 15, and the cutting knife 16 is matched with the cutting bearing plate 15 to cut off the filiform rice noodles. The below of cutting joint board 15 is equipped with a plurality of second guide slots 19, second guide slot 19 and first guide slot 8 cooperation, second guide slot 19 is located under the first guide slot 8, the second guide slot 19 at both ends all communicates there is material pipe 20, the both sides of support are equipped with third guide slot 21, the import of third guide slot 21 is stretched into to the one end that second guide slot 19 was kept away from to material pipe 20, the rice noodle is shredded back through shredding drum 7, the leftover bits on both sides are carried second guide slot 19 from first guide slot 8, fall to third guide slot 21 from material pipe 20 after cutting. The filiform rice noodles are shunted and conveyed between the adjacent cutting bearing plates 15 through the first guide grooves 8, when the filiform rice noodles are conveyed to a certain length, the motor 10 is started to drive the crank 11 to rotate, the crank 11 rotates to drive the connecting rod 12 to push the slide bar 14 to slide on the guide rail 13, the cutting knife 16 on the slide bar 14 is matched with the cutting bearing plates 15, the filiform rice noodles are cut off, the length of the filiform rice noodles in each first guide groove 8 is consistent, the cut-off filiform rice noodles fall on the four-groove overturning hopper 23 of the metering assembly 22 through the second guide grooves 19, manual shearing is replaced, the length and the width of the rice noodles in the cutting process can be uniform, the metering efficiency is high, and the production efficiency is improved.

The metering assembly 22 comprises a plurality of four-groove overturning hoppers 23 and a plurality of fourth guide grooves 24, the four-groove overturning hoppers 23 are positioned below the second guide grooves 19, the four-groove overturning hoppers 23 are movably connected with the second support 4 through rotating rods, bearing fixing seats are arranged on the second support 4 and positioned on two sides of the rotating rods, the rotating rods are rotationally connected with the bearing fixing seats, one sides of the rotating rods are connected with the output ends of the four-groove overturning hopper motors, the four-groove overturning hopper motors can drive the rotating rods to rotate, and the rotating rods rotate to drive the four-groove overturning hoppers 23 to overturn; the fourth guide groove 24 is positioned below the four-groove overturning bucket 23, the four-groove overturning bucket 23 and the fourth guide groove 24 are matched with the second guide groove 19, and the fourth guide groove 24 is positioned right below the second guide groove 19. A plurality of air blowing pipes 26 are arranged on the second bracket 4 and positioned at one side of the four-groove overturning hopper 23, the air blowing pipes 26 are matched with the four-groove overturning hopper 23, the air outlets of the air blowing pipes 26 face the four-groove overturning hopper 23, when the controller controls the motor 10 to start to drive the cutting knife 16 to cut, the controller simultaneously controls the air blowing pipes 26 to start to blow, when the controller controls the motor 10 to stop, and the cutting knife 16 is restored to the original position, the controller controls the air blowing pipes 26 to stop blowing; when the filiform rice noodles fall into the four-groove overturning hopper 23 from the second guide groove 19, the air blowing pipe 26 blows the filiform rice noodles into disorder, and preliminary mixing is carried out, so that the filiform rice noodles falling down are prevented from being too regular and are stacked with the filiform rice noodles falling down last time. The novel rice noodle machine further comprises a second conveyor 3, the second conveyor 3 is connected with a plurality of powder boxes 27, the powder boxes 27 are matched with the fourth guide grooves 24, the powder boxes 27 are located right below the fourth guide grooves 24, the filamentous rice noodle on the four-groove overturning hopper 23 is overturned by the four-groove overturning hopper 23 and then falls into the powder boxes 27 through the fourth guide grooves 24, the fourth guide grooves 24 can stably convey the fallen filamentous rice noodle into the powder boxes 27 through the four-groove overturning hopper 23, manual metering is replaced, the uniformity of the weight of the filamentous rice noodle in each powder box 27 is guaranteed, the metering efficiency is high, and therefore the production efficiency is improved. The second inductor 25 is arranged at one end of the bracket, which is positioned on the four-groove overturning hopper 23, and the second inductor 25 is electrically connected with the controller, when the second inductor 25 senses that the four-groove overturning hopper 23 is overturned, the second inductor 25 transmits a signal to the controller, the controller receives the information transmitted by the second inductor 25 and controls the second conveyor 3 to forward convey a row of powder boxes 27 filled with filiform powder, and the empty powder boxes 27 are conveyed to the position right below the fourth guide groove 24.

The working principle of the embodiment is as follows: when the machine is used, the first conveyor 1 conveys the non-shredded rice noodles, the non-shredded rice noodles are conveyed to the shredding roller 7 through the guide roller 6 to be shredded into the shredded rice noodles, the shredded rice noodles are conveyed in a split manner through the first guide grooves 8, the quantity of the shredded rice noodles in each first guide groove 8 is ensured to be consistent, the shredded rice noodles are conveyed between the adjacent cutting bearing plates 15, when the machine reaches a certain length, the motor 10 is started and drives the crank 11 to rotate, the crank 11 rotates and drives the connecting rod 12 to push the slide bar 14 to slide on the guide rail 13, the cutting knife 16 on the slide bar 14 is matched with the cutting bearing plates 15 to cut off the shredded rice noodles, when the induction column 18 on the crank 11 passes through the first inductor 17, the first inductor 17 transmits signals to the controller, the controller receives information transmitted by the first inductor 17 and counts, when the controller counts to a certain quantity, the four-groove overturning hopper motor of the metering assembly 22 is started, thereby driving the four-groove overturning hopper 23 to overturn, the shredded rice noodles on the four-groove overturning hopper 23 fall into the powder box 27 through the fourth guide groove 24, when the four-groove overturning hopper 25 receives the second inductor 25 and transmits the information to the second inductor 25 to the fourth inductor 25 when the fourth inductor 25 receives the second inductor and the second inductor 25 and the second inductor receives the information from the fourth inductor 25 and the fourth inductor is arranged right above the empty.

It should be noted that, in all the embodiments described above, the controller may include a programmable controller or a PLC or a single chip microcomputer commonly used in the market, and is used to control the start and close of the motor, where the controller may make corresponding action instructions for each mechanism according to the feedback signal, so as to control the rice noodle cutting machine to operate to cut, cut and convey rice noodles, and the specific control mode of the control system is not in the protection scope of the present utility model, and is not described herein;

the present utility model is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present utility model.

Claims

1. The utility model provides a rice noodle cutting machine, includes first support (2), second support (4) and first conveyer (1), first conveyer (1) are installed on first support (2), its characterized in that: the automatic cutting device comprises a first conveyor (1) and is characterized by further comprising a shredding assembly (5), a cutting assembly (9) and a metering assembly (22), wherein the shredding assembly (5) is arranged on the second support (4) and is positioned below the output end of the first conveyor (1), the cutting assembly (9) is arranged on the second support (4) and is positioned below the shredding assembly (5), and the metering assembly (22) is arranged on the second support (4) and is positioned below the shredding assembly (5); a plurality of first guide grooves (8) are formed between the shredding assembly (5) and the cutting assembly (9), the cutting assembly (9) comprises a motor (10), two guide rails (13) and a plurality of cutting knives (16), the motor (10) is installed on the second support (4) and located on one side of the guide rails (13), the output end of the motor (10) is connected with a crank (11), the two guide rails (13) are installed on the second support (4) and are in sliding connection with a slide bar (14), and the crank (11) is movably connected with the slide bar (14) through a connecting rod (12); a plurality of cutting bearing plates (15) are arranged on the second bracket (4) and positioned between the two guide rails (13), the two cutting bearing plates (15) form a channel, the width of the channel is larger than that of the first guide groove (8), and the channel is matched with the first guide groove (8); the cutting knife (16) is arranged on the sliding strip (14) and is positioned on one side of the cutting bearing plate (15), and the cutting knife (16) is matched with the cutting bearing plate (15).

2. The rice noodle cutter of claim 1, wherein: the second bracket (4) is provided with a first inductor (17), the crank (11) is provided with an induction column (18), and the first inductor (17) is matched with the induction column (18).

3. The rice noodle cutter of claim 1, wherein: the utility model provides a shredding subassembly (5) is including guide roll (6) and two shredding rolls (7), the both ends of guide roll (6) with second support (4) rotate and are connected, guide roll (6) are located the below of the output of first conveyer (1), and be located two shredding rolls (7) top, two shredding rolls (7) both ends with second support (4) rotate and are connected, just first guide way (8) are located two under between shredding rolls (7).

4. The rice noodle cutter of claim 1, wherein: the cutting is held the below of board (15) and is equipped with a plurality of second guide way (19), second guide way (19) with first guide way (8) cooperation, both ends second guide way (19) all communicate there is material pipe (20), the both sides of second support (4) are equipped with third guide way (21), material pipe (20) are kept away from the one end of second guide way (19) stretches into the import of third guide way (21).

5. The rice noodle cutter of claim 4, wherein: the metering assembly (22) comprises a plurality of four-groove overturning hoppers (23) and a plurality of fourth guide grooves (24), the four-groove overturning hoppers (23) are located below the second guide grooves (19), the four-groove overturning hoppers (23) are movably connected with the second support (4) through rotating rods, the fourth guide grooves (24) are located below the four-groove overturning hoppers (23), and the four-groove overturning hoppers (23) and the fourth guide grooves (24) are matched with the second guide grooves (19).

6. The rice noodle cutter of claim 5, wherein: and a second inductor (25) is arranged on the bracket and positioned at one end of the four-groove overturning hopper (23).

7. The rice noodle cutter of claim 5, wherein: the novel powder box comprises a first conveyor (3), and is characterized by further comprising a second conveyor (3), wherein a plurality of powder boxes (27) are connected to the second conveyor (3), and the powder boxes (27) are matched with the fourth guide grooves (24).

8. The rice noodle cutter of claim 5, wherein: a plurality of air blowing pipes (26) are arranged on the second support (4) and positioned on one side of the four-groove overturning hopper (23), and the air blowing pipes (26) are matched with the four-groove overturning hopper (23).