CN114043566B - Konjak slicing device and slicing method - Google Patents

Abstract

The invention relates to the technical field of konjak processing, and discloses a konjak slicing device which comprises a rack and a slicing mechanism arranged on the rack, wherein a material poking mechanism is arranged on one side of the slicing mechanism; the material shifting mechanism comprises a material shifting rod arranged on one side of the slicing mechanism in a swinging mode and a power assembly arranged on the rack and used for driving the material shifting rod to swing; the length direction of the material stirring rod is consistent with the length direction of the slicing mechanism, and the lower part of the material stirring rod is attached to the upper surface of the rack. According to the invention, the material shifting mechanism is arranged on one side of the slicing mechanism, and the material shifting mechanism is linked with the slicing mechanism, so that the problem that subsequent processing is influenced because konjak slices are easily accumulated at the cutter after being sliced in the prior art is solved, konjak slices accumulated at the cutter can be quickly discharged, and the accumulation of the konjak slices is reduced.

Description

Konjak slicing device and slicing method

Technical Field

The invention relates to the technical field of konjak processing, in particular to a konjak slicing device and a konjak slicing method.

Background

Along with the improvement of the life quality of people, the advantages of the konjak are gradually known by people, the components contained in the konjak can reduce blood fat, blood sugar and blood pressure, can promote blood circulation to remove blood stasis, detoxify and relieve swelling and other diseases, and has good effect when being eaten. Konjak is processed into various snack foods, and among them, konjak chips are more convenient to eat and are well liked by consumers.

Then, of course, the chips are not cut during the processing. Aiming at the related technology, the inventor of the application finds that at least the following technical problems exist in the process of realizing the technical scheme of the invention in the embodiment of the application: after the konjak is sliced by the cutter, the konjak is loose, so that the sliced konjak is easily accumulated at the cutter to influence subsequent processing.

Disclosure of Invention

The embodiment of the application solves the problem that subsequent processing is influenced by accumulation at the cutter easily after konjak slicing in the prior art by providing the konjak slicing device and the slicing method, realizes quick discharge of konjak slices accumulated at the cutter, and reduces accumulation of konjak slices.

On one hand, the embodiment of the application provides a konjak slicing device which comprises a rack and a slicing mechanism arranged on the rack, wherein a material poking mechanism is arranged on one side of the slicing mechanism; the material shifting mechanism comprises a material shifting rod arranged on one side of the slicing mechanism in a swinging mode and a power assembly arranged on the rack and used for driving the material shifting rod to swing; the length direction of the material shifting rod is consistent with the length direction of the slicing mechanism, and the lower part of the material shifting rod is attached to the upper surface of the rack.

Further, a fixed seat is arranged on the frame; the slicing mechanism comprises a cutter frame rotationally arranged on the fixed seat, a plurality of cutters arranged along the circumferential direction of the cutter frame, and a slicing motor arranged on one side of the fixed seat; and an output shaft of the slicing motor is fixedly connected with one end of the tool rest.

Furthermore, one end of the knife rest, which is far away from the slicing motor, penetrates through the fixed seat and is provided with a first connecting shaft; the first connecting shaft is in rotating fit with the fixed seat; the power assembly comprises a rotary table arranged at one end of the first connecting shaft, a second connecting shaft arranged at one end of the material stirring rod, a rocker arranged at the end part of the second connecting shaft, and a driving rod of which two ends are respectively connected with the rocker and the rotary table in a rotating manner; the second connecting shaft and the first connecting shaft are positioned on the same side of the fixed seat, and the second connecting shaft is in rotating fit with the fixed seat; the connecting point of the driving rod and the turntable is spaced from the center of the turntable.

Furthermore, a discharging and conveying mechanism is arranged on the rack and on one side of the slicing mechanism; a strip-shaped groove arranged along the width direction of the rack is formed in one side of the rack; the discharging conveying mechanism comprises discharging conveying rollers which are respectively and rotatably arranged at two ends of the bar-shaped groove, and discharging conveying belts which are sleeved on the two discharging conveying rollers; the upper surface of the discharging conveyor belt is flush with the upper surface of the rack; and the rack is provided with a driving assembly for driving one discharging conveying roller.

Furthermore, the driving assembly comprises a mounting seat which is arranged on the rack and positioned on one side of the discharge conveyor belt; the driving assembly comprises a rack connected to the mounting seat in a sliding manner, a plurality of ratchets arranged below the rack in parallel and a ratchet wheel rotatably arranged on one side of the rack; the ratchet is rotationally connected to the lower end face of the rack, and a torsion spring is arranged on a rotating shaft of the ratchet; one side of the ratchet connected with the rack is higher than the movable end of the ratchet; the movable end of the ratchet is meshed with the ratchet; the ratchet wheel is fixedly connected with one corresponding discharging conveying roller; and the rack is provided with a linkage assembly for driving the rack to slide in a reciprocating manner along the width direction of the rack.

Further, a third connecting shaft which is in running fit with the fixed seat is arranged at the other end of the material poking rod; the linkage assembly comprises a first bevel gear arranged on one side of the third connecting shaft, a linkage shaft rotationally arranged on one side of the first bevel gear, a second bevel gear arranged on the linkage shaft and meshed with the first bevel gear, and a linkage gear arranged on the linkage shaft and meshed with the rack; the linkage shaft is horizontally arranged along the length direction of the rack.

Furthermore, a feeding transmission mechanism is arranged on one side of the rack, which is far away from the material poking mechanism; the feeding transmission mechanism comprises a feeding frame connected with one side of the rack and a feeding conveyor belt rotatably arranged on the feeding frame.

Furthermore, the feeding frame comprises an inclined frame with an inclined upper end surface and a horizontal frame arranged on one side of the inclined frame; the lower end of the inclined frame is connected with the rack; the inclined frame is provided with a plurality of material guide grooves along the length direction; the other end of the guide chute corresponds to the slicing mechanism.

In another aspect, an embodiment of the present application provides a konjac slicing method, which includes the following steps: s1, feeding, namely conveying the formed konjac slivers to a slicing mechanism through a feeding conveying mechanism; s2, cutting, namely starting a slicing motor to drive a tool rest to rotate, and cutting the konjac slivers sliding out of the plurality of material guide grooves through slicing; s3, discharging, driving the material stirring rod to swing through the power assembly, stirring the konjak strips cut by the cutter, conveying the konjak strips to the discharging conveyor belt, and meanwhile, driving the discharging conveyor belt to move intermittently through the driving assembly, and conveying the konjak strips stirred to the next processing stage in time.

Further, the konjac slivers in the step S1 are heated and shaped, and then conveyed to a slicing mechanism.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages:

1. owing to adopted and dialled material mechanism, so can in time stir the konjaku strip of cutter department through dialling material mechanism after slice mechanism cuts the konjaku sliver for the konjaku strip shifts ejection of compact transmission device department, has effectively solved among the prior art konjaku section back and has piled up the problem that influences follow-up processing in cutter department easily, has realized can discharging the accumulational konjaku section of cutter department fast, reduces the accumulational of konjaku section.

2. Owing to adopted power component, so can drive the carousel when the section motor drives the cutter frame and rotate, rotate the swing of drive rocker through the carousel, will be located the konjaku strip of cutter department and dial out, effectively solved and be not convenient for drive dial the material pole in time dial the problem of material, and then realized the energy saving, can effectively cut in step and dial two processes of material, in time dial the material, reduce the piling up of konjaku strip in cutter department.

3. Owing to adopted drive assembly, so can intermittent drive discharge conveyor move, stir the konjaku strip after cutting to discharge conveyor through dialling material mechanism and go up the back, discharge conveyor moves one section distance, will shift with the konjaku strip that dials material mechanism and correspond the department, and the follow-up konjaku strip after the cutting of dialling material mechanism of being convenient for continues to shift to discharge conveyor on, transmits konjaku strip in order.

Drawings

Fig. 1 is a schematic structural view of the whole in the embodiment of the present application;

FIG. 2 is a schematic structural diagram of an outfeed transport mechanism in an embodiment of the present application;

FIG. 3 is a schematic view of the construction of a tool holder in an embodiment of the present application;

FIG. 4 is an enlarged schematic view at A in FIG. 2;

FIG. 5 is an enlarged schematic view at B of FIG. 1;

in the figure: 1. a feeding frame; 11. a horizontal frame; 12. an inclined frame; 13. a fixed block; 14. a material dredging roller; 15. a thin rod; 16. a material guide chute; 2. a frame; 21. a fixed seat; 22. a strip-shaped groove; 3. a feed transport mechanism; 31. a feed transfer roller; 32. a feed conveyor; 33. a feeding motor; 34. a first drive pulley; 35. a second transmission wheel; 36. a synchronous belt; 4. a slicing mechanism; 41. a tool holder; 411. installing a shaft; 412. mounting a plate; 413. positioning the shaft; 414. positioning plates; 415. connecting sleeves; 416. inserting a shaft; 417. a tool apron; 42. a cutter; 43. a slicing motor; 5. a material poking mechanism; 51. a material poking rod; 511. a toggle sheet; 512. shifting the column; 52. a power assembly; 521. a turntable; 522. a first connecting shaft; 523. a rocker; 524. a drive rod; 525. a second connecting shaft; 53. a third connecting shaft 53; 6. a discharge conveying mechanism; 61. a discharging and conveying roller; 62. a discharge conveyor belt; 7. a drive assembly; 71. a mounting seat; 72. a rack; 73. a ratchet; 74. a ratchet wheel; 75. mounting a column; 76. a torsion spring; 8. a linkage assembly; 81. a first bevel gear; 82. a linkage shaft; 83. a second bevel gear; 84. a linkage gear; 85. and (4) connecting the blocks.

Detailed Description

The embodiment of the application discloses and provides a konjaku section device and section method, dial material mechanism 5 through the output installation that is located slicer mechanism 4 in frame 2, in time will stir the konjaku strip through dialling material mechanism 5 through the system of cutting, make konjaku strip transmit to ejection of compact transmission device 6 on, rethread ejection of compact transmission device 6 transmits the konjaku strip to next process, production is stable to last, the easy problem of piling up the influence follow-up processing in cutter 42 department after the konjaku section among the prior art has effectively been solved, the accumulational konjaku section in cutter 42 department has been realized discharging fast, reduce the accumulational of konjaku section.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 1, the embodiment of the application discloses a konjaku slicing device, including feeding frame 1 and frame 2, feeding frame 1 includes horizontal stand 11 and sloping frame 12, and horizontal stand 11 and frame 2 all are rectangular form, and the both ends of sloping frame 12 link up horizontal stand 11 and frame 2 respectively, and the upper surface of sloping frame 12 is the slope form, and the one end that sloping frame 12 and horizontal stand 11 are connected is higher than the one end that sloping frame 12 and frame 2 are connected. The joint of the inclined frame 12 and the frame 2 is provided with a smooth transition surface, which is beneficial to the transmission of the thin konjac strips. The direction of processing of konjaku thin strip is by the one end of feed frame 1 towards frame 2, install feeding transmission device 3 on feed frame 1, slicer mechanism 4 has been installed along the direction of processing in proper order in frame 2, dial material mechanism 5 and ejection of compact transmission device 6, carry out the transmission pay-off with the konjaku thin strip through feeding transmission device 3, make the konjaku thin strip transmit to slicer mechanism 4 department, slice the konjaku thin strip through slicer mechanism 4, dial the konjaku strip that material mechanism 5 will cut into slices, make the konjaku strip shift to ejection of compact transmission device 6 department, transmit the konjaku strip after the section to next manufacturing procedure through ejection of compact transmission device 6.

Referring to fig. 1, fig. 2, feeding transport mechanism 3 includes feeding transfer roller 31, feeding conveyer belt 32, feeding motor 33, feeding transfer roller 31 is provided with two along the length direction interval of feeding frame 1, be close to the both ends of horizontal shelf 11 respectively, feeding conveyer belt 32 overlaps locates on two feeding transfer rollers 31, and one side of feeding conveyer belt 32 links up with the sloping frame 12 mutually, be convenient for will be located konjaku strip transmission on feeding conveyer belt 32 to the sloping frame 12 on, in this application embodiment, the inclination of sloping frame 12 is greater than 60 degrees and is less than 90 degrees, can be convenient for accelerate the transmission speed of konjaku strip, make konjaku strip along the fast sliding of sloping frame 12 to 4 departments of slicing mechanism. In order to improve the design effect to the konjaku thin strip, be provided with heating mechanism in feeding conveyer belt 32 below, heat feeding conveyer belt 32 through heating mechanism for the konjaku thin strip of transmission is convenient for design stoving. Fixed blocks 13 are fixedly mounted on two sides of the horizontal frame 11 and close to the inclined frame 12, a material dredging roller 14 is rotatably connected between the two fixed blocks 13, the length direction of the material dredging roller 14 is consistent with the width direction of the horizontal frame 11, a plurality of thin rods 15 made of rubber materials are uniformly arranged in the circumferential direction of the material dredging roller 14, and konjac thin strips on the feeding conveyor belt 32 can be conveniently and timely evacuated and stirred onto the inclined frame 12. A feeding motor 33 is fixedly arranged on one side of the horizontal frame 11, an output shaft of the feeding motor 33 is fixedly connected with the end part of a feeding transmission roller, one end of the feeding transmission roller 31 penetrates through the horizontal frame 11 and is fixedly provided with a first transmission wheel 34, a second transmission wheel 35 is arranged at one end of the material dredging roller 14, and a synchronous belt 36 is sleeved on the first transmission wheel 34 and the second transmission wheel 35. A plurality of material guiding chutes 16 are fixedly installed on the inclined rack 12, the material guiding chutes 16 are uniformly arranged along the width direction of the inclined rack 12, one end of the material guiding chute 16 is communicated with the horizontal rack 11, and the other end of the material guiding chute 16 is communicated with the slicing mechanism 4. In addition, an arc surface is formed on one side of the material guide groove 16 close to the slicing mechanism 4, so that interference with the slicing mechanism 4 is avoided.

Referring to fig. 2, fig. 3 and fig. 4, the up end fixed mounting of frame 2 has fixing base 21, fixing base 21 is close to feed frame 1, fixing base 21 is two locating pieces that set up along 2 width direction intervals of frame, slicing mechanism 4 includes knife rest 41, cutter 42, slicing motor 43, knife rest 41 includes installation axle 411 and mounting panel 412, the cross-section of installation axle 411 is the polygon, the quantity scope on installation axle 411 limit is between 3-7, the equal fixed mounting in both ends of installation axle 411 has location axle 413, the tip that two location axles 413 deviate from mutually is pegged graft in the locating piece that corresponds, and with locating piece normal running fit, the circumference of location axle 413 is provided with the external screw thread, threaded connection has locating piece 414 on the location axle 413, locating piece 414 supports tightly with the tip of installation axle 411. Specifically, the length of the mounting plate 412 is equal to the length of the positioning shaft 413, the number of the mounting plates 412 is equal to the number of the edges of the mounting shaft 411, each edge of the mounting shaft 411 is attached with one mounting plate 412, the adjacent mounting plates 412 are fixed with the connecting sleeves 415, the connecting sleeves 415 on the adjacent two mounting plates 412 are inserted into each other, the mounting holes of the connecting sleeves 415 inserted into each other are located on the same straight line, the connecting sleeves 415 of the adjacent two mounting plates 412 are inserted into each other through one inserting shaft 416, so that the mounting plates 412 are connected to the circumferential direction of the mounting shaft 411 in a clamped manner, and then the positioning plates 414 are screwed tightly, so that the two positioning plates 414 are respectively abutted against the two ends of the mounting plates 412, and the tool rest 41 is stable in structure. A tool rest 417 is fixedly installed at the center of the mounting plate 412, the tool rest 417 has a length corresponding to that of the mounting shaft 411, and the cutter 42 is fixedly installed in the tool rest 417. Location axle 413 is detachable structure with the locating piece, through dismantling location axle 413, can be convenient for change the installation axle 411 of other shapes and the mounting panel 412 to the installation axle 411 number of limits correspondence quantity, through the number that changes mounting panel 412, can change the length of cutting, improves slicer mechanism 4's practicality greatly. In this embodiment, specifically adopt the cross-section to be hexagonal installation axle 411 and six mounting plates 412, six mounting plates 412 correspond with six limits of installation axle 411 respectively, and two pairwise articulated ring sockets that form the cross-section hexagon of six mounting plates 412 to whole cover is located outside installation axle 411. Slicing motor 43 is fixedly mounted on one side of a positioning block, slicing motor 43 is fixedly connected with a positioning shaft 413, and by starting slicing motor 43, mounting shaft 411 is driven to rotate, and cutter 42 is driven to rotate to slice the konjac slivers.

Referring to fig. 2, 4 and 5, the material stirring mechanism 5 includes a material stirring rod 51, a power assembly 52, a stirring sheet 511 is formed on one side of the material stirring rod 51, a plurality of stirring columns 512 are arranged on one side of the stirring sheet 511, the stirring sheet 511 is made of hard rubber, the stirring column 512 is made of soft rubber, scratch-resistant konjac strips is avoided, the cut-back shape of the konjac strips is affected, the stirring column 512 is attached to the upper end face of the rack 2, two ends of the material stirring rod 51 are rotatably connected between two positioning blocks, the swing range of the material stirring rod 51 takes the axis of the material stirring rod 51 as the center, the material stirring rod deflects 30 degrees towards two sides, when the stirring column 512 is close to one side of the slicing mechanism 4, the stirring column 512 is not in contact with the cutter 42, and when the stirring column 512 is far away from one side of the slicing mechanism 4, the stirring column 512 is in contact with the upper surface of the discharging transmission mechanism 6. The length direction of the kick-out lever 51 coincides with the length direction of the slicing mechanism 4. The power assembly 52 includes a rotary table 521, a second connecting shaft 525, a rocker 523 and a driving rod 524, one end of the knife rest 41 far away from the slicing motor 43 passes through the fixed seat 21 and is fixedly provided with a first connecting shaft 522, the first connecting shaft 522 is in running fit with the fixed seat 21, the center of the rotary table 521 is fixedly connected with one end of the first connecting shaft 522, one end of the kick-off rod 51 is fixedly provided with the second connecting shaft 525, the second connecting shaft 525 is located on the same side of the rotary table 521, one end of the driving rod 524 is in running connection with the rotary table 521, the other end of the driving rod 524 is in running connection with the other end of the rocker 523, and an interval is formed between the connecting point of the driving rod 524 and the rotary table 521 and the center of the rotary table 521. The rotary table 521 is driven to rotate by the rotation of the knife rest 41, and the rotary table 521 drives the driving rod 524 to rotate, so that the rocker 523 swings around the material stirring rod 51.

Referring to fig. 2 and 5, the end of the discharging and conveying mechanism 6 close to the slicing motor 43 is defined as the input end of the discharging and conveying mechanism 6, and the end of the discharging and conveying mechanism 6 extending out of the rack 2 is defined as the output end of the discharging and conveying mechanism 6. Discharge conveying mechanism 6 includes ejection of compact transfer roller 61, exit conveyor 62, bar groove 22 has been seted up in one side that feed frame 1 was kept away from in frame 2, bar groove 22 sets up along frame 2's width direction, exit conveyor 61 is provided with two, rotate respectively and connect in the both ends in bar groove 22, exit conveyor 62 overlaps and locates on two exit conveyor 61, exit conveyor 62's length is greater than the length of dialling material mechanism 5, can make dialling material mechanism 5 stably stir the konjaku strip to exit conveyor 62 on. The upper surface of the discharging conveyor belt 62 is flush with the upper surface of the rack 2, so that the konjac noodles can be conveniently transited from the upper end surface of the rack 2 to the discharging conveyor belt 62. The frame 2 is provided with a driving assembly 7 for driving a discharging conveying roller 61 to intermittently rotate, so that the cut konjac slivers can be conveyed to the next procedure conveniently and timely. Drive assembly 7 includes mount pad 71, rack 72, ratchet 73, ratchet 74, mount pad 71 fixed mounting is in the position that the feed frame 1 was kept away from in frame 2, and be close to ejection of compact conveyer belt 62's input, one side of keeping away from at mount pad 71 and dialling material mechanism 5 sets up the horizontally spout, sliding connection has the stopper in the spout, rack 72 level sets up and with stopper fixed connection, rack 72 can follow the length direction reciprocating slide of spout, ratchet 73 is provided with a plurality ofly along the lower terminal surface of rack 72 side by side, specifically, there are the erection column 75 of a plurality of intervals setting at the lower terminal surface fixed mounting of rack 72, ratchet 73 and erection column 75 one-to-one set up, and the upper end of ratchet 73 rotates to be connected on erection column 75, it is further, the cover is equipped with torsional spring 76 on erection column 75, the one end and the 73 of torsional spring 76 are fixed, the other end is fixed with erection column 75. The ratchet teeth 73 are obliquely arranged, the higher end of each ratchet tooth 73 is close to the input end of the discharge conveyor belt 62, the lower end of each ratchet tooth 73 is close to the output end of the discharge conveyor belt 62, one end, rotatably connected with the mounting column 75, of each ratchet tooth 73 is defined as a fixed end of each ratchet tooth 73, one end, far away from the mounting column 75, of each ratchet tooth 73 is defined as a movable end of each ratchet tooth 73, each ratchet tooth 74 is rotatably connected to one side, far away from the feeding frame 1, of the machine frame 2, the axis of each ratchet tooth 74 is fixedly connected with one discharge conveyor roller 61 located at the input end of the discharge conveyor belt 62, the upper surface of each ratchet tooth 74 is meshed with the movable end of each ratchet tooth 73, when the driving rack 72 slides towards the output end of the discharge conveyor belt 62 along the sliding groove, each ratchet tooth 73 pushes each ratchet tooth 74 to rotate, each ratchet tooth 74 drives the discharge conveyor roller 61 connected with the ratchet teeth to rotate, and further drives the discharge conveyor belt 62 to drive konjac strips to be transmitted out. When the rack 72 slides to the side close to the input end of the discharging conveyor belt 62, the ratchet teeth 73 deflect by taking the mounting column 75 as the center, so that the ratchet wheels 74 do not rotate, and when the rack 72 slides to the side close to the output end of the discharging conveyor belt 62, the ratchet teeth 73 are not easy to deform under the action of the torsion spring 76, so that the ratchet wheels 74 are driven to rotate, and the discharging conveyor belt 62 is driven to rotate.

Referring to fig. 2 and 5, in order to facilitate the driving rack 72 to slide back and forth along the longitudinal direction of the chute, a link assembly 8 is mounted on the frame 2. The linkage component 8 is close to the input end of the discharging conveyor belt 62, the linkage component 8 comprises a first bevel gear 81, a linkage shaft 82, a second bevel gear 83 and a linkage gear 84, a third connecting shaft 53 is fixedly mounted at the input end, close to the discharging conveyor belt 62, of the material stirring rod 51, the third connecting shaft 53 is in running fit with the fixing seat 21, the first bevel gear 81 is fixedly mounted at the end of the third connecting shaft 53, a connecting block 85 is mounted on the positioning block, the connecting block 85 is arranged opposite to the mounting seat 71, the connecting block 85 is located on one side of the positioning block provided with the third connecting shaft 53, the linkage shaft 82 is connected between the connecting block 85 and the mounting seat 71 in a running fit mode, the length direction of the linkage shaft 82 is perpendicular to the length direction of the material stirring rod 51, the second bevel gear 83 is fixedly mounted on the linkage shaft 82, and the first bevel gear 81 is meshed with the second bevel gear 83. The linkage gear 84 is fixedly installed on the linkage shaft 82, the linkage gear 84 is meshed with the upper end face of the rack 72, and the third connecting shaft 53 is driven to rotate through the rotation of the material poking rod 51, so that the first bevel gear 81 drives the second bevel gear 83 to rotate, the linkage gear 84 at the other end of the linkage shaft 82 is further driven to rotate, and the rack 72 meshed with the linkage gear is further driven to move back and forth.

On the other hand, referring to fig. 1 to 5, the present embodiment discloses a konjac slicing method, and the steps of the method are as follows.

S1, feeding, after the konjaku sliver has been processed, the konjaku sliver is transmitted to a feeding conveyor belt 32, and simultaneously, a heating mechanism below the feeding conveyor belt 32 is started, the konjaku sliver on the feeding conveyor belt 32 is heated, the konjaku sliver is further shaped, the konjaku sliver is transmitted to a thinning roller 14, the accumulated konjaku sliver is swept by the thinning roller 14, the konjaku sliver is tiled on the feeding conveyor belt 32, and finally, the konjaku sliver is transmitted to a slicing mechanism 4 along a guide chute 16 corresponding to the konjaku sliver by the arrangement of an inclined frame 12.

S2, cutting, starting the slicing motor 43, driving the knife rest 41 to rotate, synchronously cutting the konjak thin strips sliding out of the plurality of material guide grooves 16 through slicing, and enabling the knife rest 41 to rotate for cutting, wherein the cut konjak strips have centrifugal gravity, so that the konjak strips are positioned on one side of the knife rest 41, which is far away from the feeding frame 1.

S3, the ejection of compact, when knife rest 41 is rotatory, drive carousel 521 and rotate, carousel 521 drives actuating lever 524 and rotates, and then drive rocker 523 horizontal hunting, make the konjaku strip after the stirring rod 51 cuts cutter 42 department dial the material, make the konjaku strip carry to discharging conveyor 62 on, and simultaneously, stirring rod 51 rotates, can drive universal driving shaft 82 and rotate, make linkage gear 84 drive rack 72 along the width direction reciprocating motion of frame 2, under the effect of ratchet 73, make discharging conveyor 62 intermittent type to rotate to one side of frame 2, in time carry the konjaku strip that the material of dialling comes to next processing stage.

The working principle of the embodiment of the application is as follows: convey the konjaku thin strip through feeding conveyer belt 32, heat the stoving to the konjaku thin strip through the heating mechanism that feeding conveyer belt 32 below set up simultaneously, transmit to sparse material roller 14 department when the konjaku thin strip, dial accumulational konjaku thin strip through sparse material roller 14 for a plurality of konjaku thin strip tiling gets into knife rest 41 below. Start section motor 43, drive knife rest 41 and slice the konjaku sliver, simultaneously under the effect of dialling material mechanism 5 for konjaku sliver after the section is stirred to exit conveyor 62 on, drives exit conveyor 62 intermittent type conveying through link gear, can transmit the konjaku sliver after the section to next manufacturing procedure smoothly.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present application and the concept thereof within the scope of the present application.

Claims (5)

1. A konjak slicing device comprises a rack (2) and a slicing mechanism (4) arranged on the rack (2), and is characterized in that a material poking mechanism (5) is arranged on one side of the slicing mechanism (4); the material poking mechanism (5) comprises a material poking rod (51) arranged on one side of the slicing mechanism (4) in a swinging mode and a power assembly (52) arranged on the rack (2) and used for driving the material poking rod (51) to swing; the length direction of the material stirring rod (51) is consistent with that of the slicing mechanism (4), and the lower part of the material stirring rod (51) is attached to the upper surface of the rack (2); a fixed seat (21) is arranged on the frame (2); the slicing mechanism (4) comprises a tool rest (41) rotatably arranged on the fixed seat (21), a plurality of cutters (42) arranged along the circumferential direction of the tool rest (41), and a slicing motor (43) arranged on one side of the fixed seat (21); an output shaft of the slicing motor (43) is fixedly connected with one end of the cutter rest (41); one end of the tool rest (41) far away from the slicing motor (43) penetrates through the fixed seat (21) and is provided with a first connecting shaft (522); the first connecting shaft (522) is in running fit with the fixed seat (21); the power assembly (52) comprises a rotary table (521) arranged at one end of a first connecting shaft (522), a second connecting shaft (525) arranged at one end of a material stirring rod (51), a rocker (523) arranged at the end part of the second connecting shaft (525), and a driving rod (524) with two ends respectively rotatably connected with the rocker (523) and the rotary table (521); the second connecting shaft (525) and the first connecting shaft (522) are positioned on the same side of the fixed seat (21), and the second connecting shaft (525) is in running fit with the fixed seat (21); the connecting point of the driving rod (524) and the rotary table (521) has a gap with the center of the rotary table (521); a discharging transmission mechanism (6) is arranged on the rack (2) and positioned on one side of the slicing mechanism (4); a strip-shaped groove (22) arranged along the width direction of the rack (2) is formed in one side of the rack (2); the discharging transmission mechanism (6) comprises discharging transmission rollers (61) which are respectively and rotatably arranged at two ends of the strip-shaped groove (22), and discharging transmission belts (62) which are sleeved on the two discharging transmission rollers (61); the upper surface of the discharging conveyor belt (62) is flush with the upper surface of the rack (2); the rack (2) is provided with a driving assembly (7) for driving one discharging conveying roller (61); a feeding transmission mechanism (3) is arranged on one side of the rack (2) far away from the material poking mechanism (5); the feeding transmission mechanism (3) comprises a feeding frame (1) connected with one side of the rack (2) and a feeding conveyor belt (32) rotatably arranged on the feeding frame (1); the feeding frame (1) comprises an inclined frame (12) with the upper end surface obliquely arranged and a horizontal frame (11) arranged on one side of the inclined frame (12); the lower end of the inclined frame (12) is connected with the frame (2); a plurality of material guide grooves (16) along the length direction are arranged on the inclined frame (12); the other end of the guide chute (16) corresponds to the slicing mechanism (4).

2. The konjac slicing apparatus as claimed in claim 1, wherein the driving means (7) comprises a mounting seat (71) provided on the frame (2) at one side of the discharging conveyor (62); the driving assembly (7) comprises a rack (72) connected to the mounting seat (71) in a sliding mode, a plurality of ratchets (73) arranged below the rack (72) in parallel and a ratchet wheel (74) rotatably arranged on one side of the rack (2); the ratchet (73) is rotationally connected to the lower end face of the rack (72), and a torsion spring (76) is arranged on a rotating shaft of the ratchet (73); one side of the ratchet (73) connected with the rack (72) is higher than the movable end of the ratchet (73); the movable end of the ratchet (73) is meshed with the ratchet (73); the ratchet wheel (74) is fixedly connected with one corresponding discharging conveying roller (61); and the rack (2) is provided with a linkage assembly (8) for driving the rack (72) to slide in a reciprocating manner along the width direction of the rack (2).

3. The konjak slicing apparatus of claim 2, wherein the other end of the setting lever (51) is provided with a third connecting shaft (53) which is rotatably fitted to the fixed base (21); the linkage assembly (8) comprises a first bevel gear (81) arranged on one side of the third connecting shaft (53), a linkage shaft (82) rotatably arranged on one side of the first bevel gear (81), a second bevel gear (83) arranged on the linkage shaft (82) and meshed with the first bevel gear (81), and a linkage gear (84) arranged on the linkage shaft (82) and meshed with the rack (72); the linkage shaft (82) is horizontally arranged along the length direction of the rack (2).

4. A slicing method of konjak using the slicing apparatus according to any one of claims 1 to 3, characterized by comprising the steps of:

s1, feeding, namely conveying the formed konjac slivers to a slicing mechanism (4) through a feeding conveying mechanism (3);

s2, cutting, namely starting a slicing motor (43) to drive a knife rest (41) to rotate, and cutting the konjak thin strips sliding out of the plurality of material guide grooves (16) through slicing;

s3, discharging, driving a material stirring rod (51) to swing through a power assembly (52), stirring the konjak strips cut by a cutter (42) to be conveyed to a discharging conveyor belt (62), and meanwhile, driving the discharging conveyor belt (62) to intermittently move through a driving assembly (7), and conveying the konjak strips stirred to the next processing stage in time.

5. The method for slicing konjak according to claim 4, wherein the konjak noodles in the step S1 are transferred to the slicing mechanism (4) after heat setting.

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