CN116458529A - Cutting mechanism for wheat fine dried noodles processing - Google Patents

Abstract

The invention discloses a cutting mechanism for processing wheat fine dried noodles, which relates to the technical field of cutting mechanisms and comprises a base and two side plates, wherein the two side plates are distributed front and back, the side plates are transversely and slidably arranged on the base, and a material guide structure is arranged on the base; the repeated cutting-off treatment is carried out on the dried noodles by adopting the continuous conveying and dynamic cutting-off modes, so that the operation mode of cutting off the dried noodles can be effectively simplified, the processing continuity of the dried noodles is improved, the working efficiency is improved, the tedious operation of repeatedly positioning and measuring the cutting-off position of the dried noodles is avoided, and the process is simplified.

Description

Cutting mechanism for wheat fine dried noodles processing

Technical Field

The invention relates to the technical field of cutting mechanisms, in particular to a cutting mechanism for processing wheat fine dried noodles.

Background

In daily life of people, the dried noodles are indispensable wheaten food, which are favored by people because of the advantages of good taste, convenient eating, easy storage, low price, various manufacturing modes and the like, when the dried noodles are processed, the dried noodles with large length are required to be cut into a specified size so as to be convenient for packing and transportation, the common cutting mode is to firstly place the dried noodles on a cutting table, then cut the dried noodles at a specified position through a cutter, then take away the cut dried noodles, and push the dried noodles to be cut to the specified position again for repeated cutting treatment, and the process operation of the cutting mode is extremely complicated, and the work such as positioning, taking, repositioning and the like of the dried noodles are required to be repeatedly carried out, so that the working efficiency is low.

Disclosure of Invention

In order to solve the technical problems, the invention provides a cutting mechanism for processing wheat fine dried noodles.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the cutting mechanism for processing the wheat fine dried noodles comprises a base and two side plates, wherein the two side plates are distributed front and back, the side plates are transversely and slidably arranged on the base, a material guide structure is arranged on the base, and the material guide structure is used for horizontally conveying the fine dried noodles which are not cut off in the material guide structure;

the material guiding structure comprises a fixed material groove plate, a transition material groove plate and a turnover material groove plate which are horizontally and sequentially arranged, wherein the fixed material groove plate is fixed on the base, the transition material groove plate and the turnover material groove plate are positioned between the two side plates, the transition material groove plate is fixed on the side plates, a turnover structure is arranged between the turnover material groove plate and the side plates, the turnover structure is used for driving the turnover material groove plate to incline, and a cutting groove is formed in the bottom of the inner wall of the turnover material groove plate;

the tops of the two side plates are provided with bow-shaped frames, the bow-shaped frames are provided with a plurality of first air cylinders, movable ends of the lower sides of the first air cylinders are provided with movable seats, the bottoms of the movable seats are fixedly provided with cutters, and the directions of the edges of the bottoms of the cutters face to the cutting grooves;

and a power structure is arranged between the base and the side plate and is used for pushing the side plate to horizontally reciprocate.

More preferably, each side wall of the front side and the rear side of the overturning material tank plate is provided with two sliding columns, and the two sliding columns are on the same horizontal plane;

the side plate is provided with a first guide groove and a second guide groove towards the side wall of the overturning material groove plate, the first guide groove is composed of a horizontal groove, an arc groove and an overturning groove, the second guide groove is composed of a horizontal groove and an arc groove with the same structure, the circle center of the overturning groove on the first guide groove coincides with the outer end of the arc groove on the second guide groove, and two sliding columns on the side wall of the overturning material groove plate are respectively and slidably installed in the first guide groove and the second guide groove.

More preferably, the turnover structure comprises a rotary table rotatably mounted on the outer side wall of the side plate, a push rod is fixed on the outer circumferential wall of the rotary table, the push rod is provided with a sliding sleeve along the radial direction of the rotary table in a sliding sleeve manner, the side plate is penetrated by a first guide groove, the outer end of a sliding column in the first guide groove extends to the outer side of the side plate, the outer wall of the sliding sleeve is rotatably mounted on the outer end of the sliding column, a second cylinder is obliquely and rotatably arranged on the outer side wall of the side plate, the movable end of the second cylinder is rotatably mounted on the outer side wall of the rotary table, the movable end of the second cylinder is deviated from the axis of the rotary table, and the length direction of the second cylinder is deviated from the axis of the rotary table.

More preferably, a plurality of first division bars are arranged in the fixed material groove plate side by side, a plurality of second division bars are arranged in the transition material groove plate side by side, a plurality of movable partition plates and a plurality of third division bars are arranged in the overturning material groove plate side by side, wherein the first division bars, the second division bars, the movable partition plates and the third division bars are in butt joint and collinear, and the bottoms of the movable partition plates penetrate through the overturning material groove plate and are vertically and slidably arranged on the overturning material groove plate.

More preferably, the bottom of the movable partition plate is fixed with a limiting plate, a vertical rod is vertically inserted in the limiting plate in a sliding mode, the top of the vertical rod is fixed at the bottom of the overturning material groove plate, and a first plate spring is connected between the vertical rod and the limiting plate.

More preferably, filling blocks are arranged in the grooves between two adjacent movable partition plates, a plurality of right-angle plates are arranged at the bottoms of the overturning material groove plates, the tops of the right-angle plates slide through the overturning material groove plates and extend into the grooves, the tops of the right-angle plates are fixedly connected with the filling blocks, and the bottoms of the right-angle plates are connected with the overturning material groove plates through second plate springs.

More preferably, rubber press strips are arranged on the left side and the right side of the cutter, the bottoms of the rubber press strips are located below the cutter, a plurality of sliding plates are arranged on the rubber press strips, the tops of the sliding plates are vertically and slidably arranged on the outer side wall of the movable seat, and a third plate spring is connected between the sliding plates and the movable seat.

More preferably, the power structure comprises a motor fixed on the outer side wall of the fixed material groove plate, a screw rod is arranged at the output end of the motor, a screw sleeve is sleeved on the screw rod in a threaded manner, and the outer wall of the screw sleeve is fixedly connected with the outer side wall of the side plate.

Compared with the prior art, the invention has the beneficial effects that: the repeated cutting-off treatment is carried out on the dried noodles by adopting the continuous conveying and dynamic cutting-off modes, so that the operation mode of cutting off the dried noodles can be effectively simplified, the processing continuity of the dried noodles is improved, the working efficiency is improved, the tedious operation of repeatedly positioning and measuring the cutting-off position of the dried noodles is avoided, and the process is simplified.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

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

FIG. 2 is an enlarged schematic view of the guide structure of FIG. 1;

FIG. 3 is an enlarged schematic view of the bow of FIG. 1 and its upper structure;

FIG. 4 is a schematic view of the base and side plates of FIG. 1;

FIG. 5 is a schematic view of the bottom structure of FIG. 2;

FIG. 6 is an enlarged schematic cross-sectional view of the invert chute plate of FIG. 2;

FIG. 7 is a schematic view of a partial enlarged structure at A in FIG. 6;

the reference numerals in the drawings: 1. a base station; 2. a side plate; 3. fixing a material groove plate; 4. a transition trough plate; 5. turning over the material groove plate; 6. a bow; 7. a first cylinder; 8. a movable seat; 9. a cutter; 10. a spool; 11. a first guide groove; 12. a second guide groove; 13. a horizontal slot; 14. an arc-shaped groove; 15. a turnover groove; 16. a turntable; 17. a push rod; 18. a sliding sleeve; 19. a second cylinder; 20. a first division bar; 21. a second division bar; 22. a movable partition; 23. a third division bar; 24. a limiting plate; 25. a vertical rod; 26. a first leaf spring; 27. filling blocks; 28. a right angle plate; 29. a second leaf spring; 30. a rubber batten; 31. a slide plate; 32. a third leaf spring; 33. a motor; 34. a screw rod; 35. a screw sleeve.

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.

In the description of the present invention, it should be noted that the directions or positional relationships indicated as being "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; the connection may be direct or indirect via an intermediate medium, or may be internal communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art. This example was written in a progressive manner.

As shown in fig. 1 to 7, the cutting mechanism for processing wheat fine dried noodles comprises a base 1 and two side plates 2, wherein the two side plates 2 are distributed front and back, the side plates 2 are transversely and slidably arranged on the base 1, and the base 1 is provided with a material guiding structure for horizontally conveying fine dried noodles which are not cut off;

the material guiding structure comprises a fixed trough plate 3, a transition trough plate 4 and a turnover trough plate 5 which are horizontally and sequentially arranged, wherein the fixed trough plate 3 is fixed on a base 1, the transition trough plate 4 and the turnover trough plate 5 are positioned between two side plates 2, the transition trough plate 4 is fixed on the side plates 2, a turnover structure is arranged between the turnover trough plate 5 and the side plates 2 and is used for driving the turnover trough plate 5 to incline, and a cutting groove is formed in the bottom of the inner wall of the turnover trough plate 5;

the tops of the two side plates 2 are provided with a bow-shaped frame 6, the bow-shaped frame 6 is provided with a plurality of first air cylinders 7, movable ends of the lower sides of the first air cylinders 7 are provided with movable seats 8, the bottoms of the movable seats 8 are fixedly provided with cutters 9, and the directions of the cutters at the bottoms of the cutters 9 face to the cutting grooves;

wherein, be equipped with power structure between base 1 and the curb plate 2, power structure is used for promoting the horizontal reciprocal slip of curb plate 2.

It can be seen that the external conveyor horizontally conveys dried noodles into the fixed material groove plate 3, the transition material groove plate 4 and the turnover material groove plate 5, the dried noodles are conveyed at a uniform speed in the horizontal direction, the power structure can push the side plate 2 to reciprocate on the base 1, the side plate 2 drives the transition material groove plate 4, the turnover material groove plate 5, the bow frame 6 and the cutter 9 to synchronously move, when the side plate 2 moves at the same speed and in the same direction as the dried noodles, the cutter 9 and the dried noodles keep relatively static, at the moment, the first cylinder 7 can push the cutter 9 to move downwards through the movable seat 8, the bottom of the cutter 9 can cut the dried noodles on the turnover material groove plate 5, the grooving can ensure that the dried noodles are fully broken, adhesion is avoided, after the cutting is finished, the turnover structure drives the turnover material groove plate 5 to tilt, at the moment, the cut dried noodles on the turnover material groove plate 5 can be dumped into the external collecting device, when the side plate 2 moves reversely, the turnover material groove plate 5 is horizontally again, the dried noodles are continuously conveyed into the material groove plate 5 through the fixed material groove plate 3, when the side plate 2 moves reversely, the dried noodles repeatedly, and the dried noodles are conveyed at the uniform speed through the cutting 9, and the cutting-off process is kept at the uniform speed, and the continuous length of the dried noodles can be conveyed due to the fact that the cutting process is continuously and the continuous.

Through setting up transition flitch 4, can realize the fine dried noodles and pass through smoothly between fixed flitch 3 and upset flitch 5, conveniently lift the fine dried noodles through transition flitch 4 when upset flitch 5 is kept away from the position of fixed flitch 3, when avoiding upset flitch 5 slope and keeping away from fixed flitch 3, because the fine dried noodles continuously carry, and lead to the fine dried noodles to be unable to obtain effectively to lift and take place the fracture between fixed flitch 3 and upset flitch 5.

The repeated cutting-off treatment is carried out on the dried noodles by adopting the continuous conveying and dynamic cutting-off modes, so that the operation mode of cutting off the dried noodles can be effectively simplified, the processing continuity of the dried noodles is improved, the working efficiency is improved, the tedious operation of repeatedly positioning and measuring the cutting-off position of the dried noodles is avoided, and the process is simplified.

More preferably, each side wall of the front side and the rear side of the overturning chute plate 5 is provided with two sliding columns 10, and the two sliding columns 10 are on the same horizontal plane;

the side plate 2 is provided with a first guide groove 11 and a second guide groove 12 towards the side wall of the overturning material groove plate 5, the first guide groove 11 is composed of a horizontal groove 13, an arc groove 14 and an overturning groove 15, the second guide groove 12 is composed of the horizontal groove 13 and the arc groove 14 with the same structure, the circle center of the overturning groove 15 on the first guide groove 11 coincides with the outer end of the arc groove 14 on the second guide groove 12, and two slide columns 10 on the side wall of the overturning material groove plate 5 are respectively and slidably arranged in the first guide groove 11 and the second guide groove 12.

It can be seen that when the noodles are cut, the sliding column 10 is located at the position of the horizontal groove 13, at this time, since the horizontal groove 13 is horizontal, the inner wall of the horizontal groove 13 can provide a lifting force to the turnover material groove plate 5 in the vertical direction through the sliding column 10, so that the cutter 9 can cut the noodles smoothly, when the turnover material groove plate 5 is inclined, the turnover material groove plate 5 firstly moves horizontally along the horizontal groove 13, then the turnover material groove plate 5 moves along the arc groove 14, at this time, the turnover material groove plate 5 keeps a horizontal state, and the moving track thereof is inclined, when the sliding column 10 in the second guide groove 12 moves to the outer end of the arc groove 14 in the second guide groove 12, the sliding column 10 stops moving, the sliding column 10 in the first guide groove 11 enters the turnover material groove 15 and continues to move, at this time, the turnover material groove plate 5 rotates with the axis of the sliding column 10 in the second guide groove 12 as a rotating shaft, so that the turnover material groove plate 5 can naturally tilt into the external collecting device.

By turning over two studs 10 on each side wall of the chute plate 5, a guiding action on the chute plate 5 is achieved.

More preferably, the turnover structure comprises a rotary table 16 rotatably mounted on the outer side wall of the side plate 2, a push rod 17 is fixed on the circumferential outer wall of the rotary table 16, the push rod 17 is provided with a sliding sleeve 18 along the radial direction of the rotary table 16 in a sliding sleeve manner on the push rod 17, the first guide groove 11 penetrates through the side plate 2, the outer end of a sliding column 10 in the first guide groove 11 extends to the outer side of the side plate 2, the outer wall of the sliding sleeve 18 is rotatably mounted on the outer end of the sliding column 10, a second air cylinder 19 is obliquely and rotatably arranged on the outer side wall of the side plate 2, the movable end of the second air cylinder 19 is rotatably mounted on the outer side wall of the rotary table 16, the movable end of the second air cylinder 19 is deviated from the axis of the rotary table 16, and the length direction of the second air cylinder 19 is deviated from the axis of the rotary table 16.

It can be seen that when the second cylinder 19 stretches and contracts, the second cylinder 19 can push the turntable 16 to rotate, the turntable 16 can push the slide column 10 to move along the track of the first guide groove 11 through the push rod 17 and the sliding sleeve 18, so that power is provided for turning the material groove plate 5, when the material groove plate 5 moves, the sliding sleeve 18 rotates relative to the slide column 10, the push rod 17 slides in the sliding sleeve 18, and the length direction of the second cylinder 19 deviates from the axis of the turntable 16, so that the turntable 16 can be pushed to rotate normally when the second cylinder 19 stretches and contracts.

More preferably, a plurality of first division bars 20 are arranged in the fixed trough plate 3 side by side, a plurality of second division bars 21 are arranged in the transition trough plate 4 side by side, a plurality of movable partition plates 22 and a plurality of third division bars 23 are arranged in the turnover trough plate 5 side by side, wherein the first division bars 20, the second division bars 21, the movable partition plates 22 and the third division bars 23 are butted and collinear, and the bottoms of the movable partition plates 22 penetrate through the turnover trough plate 5 and are vertically and slidably arranged on the turnover trough plate 5.

It can be seen that by arranging the first division bar 20, the second division bar 21, the movable partition plate 22 and the third division bar 23, a plurality of channels can be formed in the fixed trough plate 3, the transition trough plate 4 and the turnover trough plate 5 conveniently, and the fine dried noodles can be horizontally conveyed in the channels, so that the phenomenon that the fine dried noodles are inclined in the conveying process and the cutting length of the fine dried noodles is uneven is avoided.

When the dried noodles are cut off, the movable partition plate 22 can slide downwards on the turnover material groove plate 5, so that the cutter 9 can conveniently cut off the dried noodles smoothly, when the side plate 2 slides on the base 1, the first partition bar 20 is separated from the second partition bar 21, and when the turnover material groove plate 5 inclines, the movable partition plate 22 is separated from the second partition bar 21.

More preferably, a limiting plate 24 is fixed at the bottom of the movable partition plate 22, a vertical rod 25 is vertically and slidably inserted in the limiting plate 24, the top of the vertical rod 25 is fixed at the bottom of the overturning chute plate 5, and a first plate spring 26 is connected between the vertical rod 25 and the limiting plate 24.

It can be seen that the first plate spring 26 generates elastic thrust to the limiting plate 24, so that the limiting plate 24 is attached to the bottom of the overturning chute plate 5, and the limiting plate 24 limits the movable partition 22 at this time, and when the movable partition 22 moves downwards, the movable partition 22 can push the limiting plate 24 to slide on the vertical rod 25.

More preferably, a filling block 27 is arranged in a cutting groove between two adjacent movable partition plates 22, a plurality of right-angle plates 28 are arranged at the bottom of the turnover material groove plate 5, the top of each right-angle plate 28 penetrates through the turnover material groove plate 5 in a sliding mode and stretches into the corresponding cutting groove, the top of each right-angle plate 28 is fixedly connected with the corresponding filling block 27, and the bottom of each right-angle plate 28 is connected with the corresponding turnover material groove plate 5 through a second plate spring 29.

It can be seen that the second leaf spring 29 can provide elastic thrust for the rectangular plate 28, the bottom of the rectangular plate 28 can limit the upward sliding position of the filling block 27 in the grooving, when in a natural state, the top of the filling block 27 is flush with the bottom of the inner wall of the overturning trough plate 5, at this time, the filling block 27 seals the grooving, when the cutter 9 cuts off the fine dried noodles, the bottom of the cutter 9 can push the filling block 27 to move downwards in the grooving, so that the fine dried noodles are fully broken by the grooving, when the cutter 9 moves upwards, the filling block 27 is reset, fine dried noodles chips in the grooving can be pushed out of the grooving by the filling block 27, so that the inside of the grooving is tidy, and fine dried noodles chips are prevented from being accumulated in the grooving.

More preferably, rubber battens 30 are arranged on the left side and the right side of the cutter 9, the bottoms of the rubber battens 30 are located below the cutter 9, a plurality of sliding plates 31 are arranged on the rubber battens 30, the tops of the sliding plates 31 are vertically and slidably arranged on the outer side wall of the movable seat 8, and a third plate spring 32 is connected between the sliding plates 31 and the movable seat 8.

It can be seen that, in a natural state, the bottom of the rubber pressing strip 30 is lower than the bottom of the cutter 9, when the cutter 9 moves downwards, the bottom of the rubber pressing strip 30 is firstly contacted with the top of the movable partition 22 and pushes the movable partition 22 to move downwards, when the bottom of the rubber pressing strip 30 is contacted with the bottom of the inner wall of the overturning chute plate 5, the two rubber pressing strips 30 can press and fix the left side and the right side of the cutting position of the fine dried noodles, so that the fine dried noodles are prevented from being randomly broken when being cut off, the sliding plate 31 can slide on the movable seat 8, and the third plate spring 32 can provide reset elastic force for the sliding plate 31 and the rubber pressing strip 30.

More preferably, the power structure comprises a motor 33 fixed on the outer side wall of the fixed material groove plate 3, a screw rod 34 is arranged at the output end of the motor 33, a screw sleeve 35 is sleeved on the screw rod 34 in a screw manner, and the outer wall of the screw sleeve 35 is fixedly connected with the outer side wall of the side plate 2.

It can be seen that the motor 33 can push the screw sleeve 35 to reciprocate by means of the screw rod 34, and the screw sleeve 35 can drive the side plate 2 to reciprocate, so that the equipment is driven to operate.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (8)

1. The cutting mechanism for processing the wheat fine dried noodles is characterized by comprising a base (1) and two side plates (2), wherein the two side plates (2) are distributed front and back, the side plates (2) are transversely and slidably arranged on the base (1), and a material guiding structure is arranged on the base (1) and is used for horizontally conveying the fine dried noodles which are not cut off in the material guiding structure;

the material guiding structure comprises a fixed trough plate (3), a transition trough plate (4) and a turnover trough plate (5) which are horizontally arranged in sequence, wherein the fixed trough plate (3) is fixed on a base station (1), the transition trough plate (4) and the turnover trough plate (5) are positioned between two side plates (2), the transition trough plate (4) is fixed on the side plates (2), a turnover structure is arranged between the turnover trough plate (5) and the side plates (2), the turnover structure is used for driving the turnover trough plate (5) to incline, and a cutting groove is formed in the bottom of the inner wall of the turnover trough plate (5);

the tops of the two side plates (2) are provided with a bow-shaped frame (6), a plurality of first air cylinders (7) are arranged on the bow-shaped frame (6), movable ends of the lower sides of the first air cylinders (7) are provided with movable seats (8), cutters (9) are fixed at the bottoms of the movable seats (8), and the directions of the edges of the bottoms of the cutters (9) face to the cutting grooves;

the power structure is arranged between the base station (1) and the side plate (2) and is used for pushing the side plate (2) to slide horizontally in a reciprocating mode.

2. The cutting mechanism for processing wheat fine dried noodles according to claim 1, wherein two slide posts (10) are arranged on each side wall of the front side and the rear side of the overturning chute plate (5), and the two slide posts (10) are on the same horizontal plane;

the side plate (2) is provided with a first guide groove (11) and a second guide groove (12) towards the side wall of the overturning material groove plate (5), the first guide groove (11) is composed of a horizontal groove (13), an arc-shaped groove (14) and an overturning groove (15), the second guide groove (12) is composed of the horizontal groove (13) and the arc-shaped groove (14) with the same structure, the circle center of the overturning groove (15) on the first guide groove (11) coincides with the outer end of the arc-shaped groove (14) on the second guide groove (12), and two sliding columns (10) on the side wall of the overturning material groove plate (5) are respectively and slidably installed in the first guide groove (11) and the second guide groove (12).

3. The cutting mechanism for wheat fine dried noodles processing as claimed in claim 2, wherein the turning structure comprises a rotary table (16) rotatably mounted on the outer side wall of the side plate (2), a push rod (17) is fixed on the circumferential outer wall of the rotary table (16), the push rod (17) is provided with a sliding sleeve (18) in a sliding sleeve manner along the radial direction of the rotary table (16), the first guide groove (11) penetrates through the side plate (2), the outer end of a sliding column (10) in the first guide groove (11) extends to the outer side of the side plate (2), the outer wall of the sliding sleeve (18) is rotatably mounted on the outer end of the sliding column (10), a second cylinder (19) is obliquely and rotatably mounted on the outer side wall of the side plate (2), the movable end of the second cylinder (19) is rotatably mounted on the outer side wall of the rotary table (16), and the axial line of the second cylinder (19) is deviated from the axial line of the rotary table (16), and the length direction of the second cylinder (19) is deviated from the axial line of the rotary table (16).

4. A cutting mechanism for processing wheat fine dried noodles according to claim 3, characterized in that a plurality of first division bars (20) are arranged in the fixed trough plate (3) side by side, a plurality of second division bars (21) are arranged in the transition trough plate (4) side by side, a plurality of movable separation plates (22) and a plurality of third division bars (23) are arranged in the turnover trough plate (5) side by side, wherein the first division bars (20), the second division bars (21), the movable separation plates (22) and the third division bars (23) are butted and collinear, and the bottoms of the movable separation plates (22) penetrate through the turnover trough plate (5) and are vertically and slidably arranged on the turnover trough plate (5).

5. The cutting mechanism for processing wheat fine dried noodles as claimed in claim 4, wherein a limiting plate (24) is fixed at the bottom of the movable partition plate (22), a vertical rod (25) is vertically inserted on the limiting plate (24) in a sliding manner, the top of the vertical rod (25) is fixed at the bottom of the overturning chute plate (5), and a first plate spring (26) is connected between the vertical rod (25) and the limiting plate (24).

6. The cutting mechanism for processing wheat fine dried noodles according to claim 5, wherein a filling block (27) is arranged in a groove between two adjacent movable partition boards (22), a plurality of rectangular plates (28) are arranged at the bottom of the turnover material groove plate (5), the top of each rectangular plate (28) slides through the turnover material groove plate (5) and stretches into the corresponding groove, the top of each rectangular plate (28) is fixedly connected with the corresponding filling block (27), and the bottom of each rectangular plate (28) is connected with the corresponding turnover material groove plate (5) through a second plate spring (29).

7. The cutting mechanism for processing wheat fine dried noodles as claimed in claim 6, wherein rubber press strips (30) are arranged on the left side and the right side of the cutter (9), the bottoms of the rubber press strips (30) are located below the cutter (9), a plurality of sliding plates (31) are arranged on the rubber press strips (30), the tops of the sliding plates (31) are vertically and slidably arranged on the outer side wall of the movable seat (8), and a third plate spring (32) is connected between the sliding plates (31) and the movable seat (8).

8. The cutting mechanism for processing wheat fine dried noodles according to claim 7, wherein the power structure comprises a motor (33) fixed on the outer side wall of the fixed material groove plate (3), a screw rod (34) is arranged at the output end of the motor (33), a screw sleeve (35) is sleeved on the screw rod (34) in a screwed manner, and the outer wall of the screw sleeve (35) is fixedly connected with the outer side wall of the side plate (2).