CN109333602B - Vermicelli cooking method with slitting function - Google Patents

Abstract

The invention relates to a vermicelli cooking method with a slitting function, which comprises the following steps: firstly, once holding and loading; secondly, secondary material holding and loading; step three, slicing and cutting; step four, sheet jelly output; step five, circulating the material returning rods once, wherein the material paving rods b continuously fall onto the material returning parts b after finishing the sheet jelly supporting work synchronously with the step four, and the material paving rods b are conveyed into the first material paving component by the driving shaft b in a rotating mode under the linkage of the conveying-out component for recycling; step six, secondary roller returning circulation, wherein in synchronization with the step five, the spreading roller a continues to fall onto a material returning part a after finishing the sheet jelly supporting work, and the driving shaft a rotates the spreading roller a under the linkage of the rotating motor b to be sent into a second spreading assembly for recycling; the invention solves the technical problems that the shearing structure is complex and the sheet jelly cannot be conveyed out in time after the shearing is finished.

Description

Vermicelli cooking method with slitting function

Technical Field

The invention relates to the technical field of sheet jelly making, in particular to a vermicelli cooking method with a slitting function.

Background

The starch slurry is paved into a certain thickness on the conveyer belt, then the conveyer belt is enabled to be steamed to form sheet jelly through the steam box, the sheet jelly is cut and dried to obtain vermicelli, the traditional sheet jelly cutting device is provided with two rotating shafts, a plurality of blades are respectively arranged on the rotating shafts, the blades between the two rotating shafts are mutually overlapped to form a cutting part, and when the motor drives the rotating shafts to rotate, the blades cut the sheet jelly entering the cutting part.

Patent No. CN105619484A discloses a sheet jelly slitting device, which comprises: the invention provides a sheet jelly cutting device, which is characterized in that the sheet jelly cutting device is provided with two cylinders, grooves are equidistantly arranged on the cylinders to extrude and cut sheet jelly to obtain vermicelli, so that the uniformity of the vermicelli is improved, the quality and the taste of the vermicelli are improved, the third cylinder is arranged behind the sheet jelly cutting device to attract and fix the vermicelli, the swinging of the vermicelli is avoided, the vermicelli is kept orderly, meanwhile, the vermicelli is dragged, and the toughness of the vermicelli is improved.

However, in the actual use process, the inventor finds that the shearing structure is complex, and the sheet jelly cannot be conveyed out in time after the shearing is finished.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, the sheet jelly is conveyed downwards in a wave shape by arranging the material holding mechanism, the cut sheet jelly is cut into pieces by matching with the shearing mechanism, the cut sheet jelly is cooked and output, and the sheared spreading roller a and the spreading roller b are continuously recycled by utilizing the circulating mechanism, so that the technical problems that the shearing structure is complicated and the sheet jelly cannot be conveyed out in time after the shearing is finished are solved, and the effects of high continuity and high automation degree of the whole device and improvement on the working efficiency are further realized.

Aiming at the technical problems, the technical scheme is as follows: a vermicelli cooking method with a slitting function comprises the following steps:

firstly, holding and loading materials once, vertically conveying the sheet jelly downwards by a sheet jelly conveying belt, starting a linear motor of a driving mechanism, driving a spreading roller a to output discontinuously by the driving mechanism and support the sheet jelly for the first time, and then vertically falling down along an intermediary track a of a sheet forming member a by the spreading roller a;

secondly, secondary holding and loading, resetting a linear motor, driving a spreading roller b to secondarily support the sheet jelly by a driving mechanism, and vertically falling the spreading roller b along an intermediary track b of the sheet-forming piece b to enable the sheet jelly to fall in a wave shape;

cutting the sheet, starting a first transmission piece of the transmission assembly, extruding the force transmission piece b and the sheet forming piece b in a matched mode, and cutting the sheet jelly on the surface of the spreading roller b by a cutter b; meanwhile, a force transmission piece a arranged behind is matched with the sheet forming piece a for extrusion, the cutter a cuts the sheet jelly on the surface of the spreading roller a, and the sheet jelly falls vertically;

outputting the sheet jelly, enabling the cut sheet jelly to fall onto a first transmission piece, completing cooking in backward transmission work, and enabling the cooked sheet jelly to be automatically transmitted to leave a boiling box by utilizing a second transmission piece;

step five, circulating the material returning rods once, wherein the material paving rods b continuously fall onto the material returning parts b after finishing the sheet jelly supporting work synchronously with the step four, and the material paving rods b are conveyed into the first material paving component by the driving shaft b in a rotating mode under the linkage of the conveying-out component for recycling;

and step six, secondary roller returning circulation, wherein the material spreading roller a continues to fall onto the material returning part a after finishing the sheet jelly supporting work and is driven by the driving shaft a to rotate and send the material spreading roller a into the second material spreading assembly under the linkage of the rotating motor b for recycling.

Preferably, in the fourth step, the time difference between the sheet jelly falling into the first transmission piece and the sheet jelly leaving from the second transmission piece is 10-12 min.

Preferably, in the fourth step, the sheet jelly obtained after the cooking is dried by a fan, naturally aired for 22-26h, and then boxed and warehoused.

Preferably, in the fourth step, the rotation frequency of the rotating motor a of the outgoing assembly is equal to the rotation frequency of the rotating motor b in the sixth step, which is 1000-.

Preferably, in the third step, the force of the cutter b and the cutter a acting on the sheet jelly is 2N-3N.

Preferably, in the third step, the sheet-shaped sheet jelly is 1000mm +/-10 mm in length and 8000mm +/-10 mm in width.

Preferably, in the fourth step, the cooking temperature of the boiling box is 90-95 ℃, and the steam pressure is controlled to be 0.1-0.2 Mpa.

Preferably, the thickness of the sheet jelly obtained after the boiling in the boiling box is finished is 1-3 mm.

Preferably, in the fourth step, the cooking temperature of the boiling box is 80-90 ℃, and the steam pressure is controlled to be 0.2-0.3 Mpa.

Preferably, the thickness of the sheet jelly obtained after the boiling in the boiling box is finished is 18-20 mm.

The invention also provides a vermicelli cooking device with a cutting function, which is matched with the vermicelli cooking method with the cutting function, and comprises a sheet jelly conveyer belt, wherein the sheet jelly conveyer belt is erected at the top of a frame, the bottom of the sheet jelly conveyer belt is provided with a boiling box, and the frame is arranged in the boiling box and comprises:

the holding mechanism is fixedly arranged below the sheet jelly conveying belt and is installed on the rack, the holding mechanism is used for supporting the sheet jelly which is vertically output by the sheet jelly conveying belt and outputting the sheet jelly in an S shape, and the holding mechanism comprises a first spreading assembly and a second spreading assembly arranged below the first spreading assembly;

the driving mechanisms are symmetrically arranged below the sheet jelly conveying belt and arranged between the first spreading assembly and the second spreading assembly;

the shearing mechanism is positioned below the driving mechanism and comprises a slicing assembly, a delivery assembly and a control assembly, wherein the slicing assembly is fixed on the rack and arranged along the horizontal direction of the material holding mechanism, the delivery assembly is arranged below the slicing assembly, and the control assembly is fixedly arranged on the delivery assembly and matched with the slicing assembly; and

the circulating mechanism is located on two sides of the shearing assembly and is rotationally arranged on the rack and comprises a first material returning assembly and a second material returning assembly, the first material returning assembly is matched with the first material paving assembly, and the second material returning assembly is matched with the second material paving assembly.

Preferably, the sheet assembly comprises a sheet forming part a positioned below the outlet of the first paving assembly and a sheet forming part b positioned below the outlet of the second paving assembly and arranged at a height difference with the sheet forming part a;

the sheet forming part a comprises medium rails a which are symmetrically arranged along the center line of the length of the first paving component and the outlets of which face to the outside, cutters a which are positioned at the corners of the medium rails a and extend back to the outlets of the two medium rails a, and upper jacking units a which are positioned below the two ends of the cutters a and are symmetrically arranged, wherein each upper jacking unit a comprises a connecting plate a fixedly connected with the rack, a connecting shaft a of which the upper end is fixedly connected with the lower surface of the cutter a and is arranged on the connecting plate a in a vertically sliding manner, a convex block a fixedly arranged at the lower end of the connecting shaft a, and a spring a of which one end is fixedly connected with the lower surface of the connecting shaft a and the other end is fixedly connected with the upper surface of the convex block a, and the spring a is sleeved on the connecting shaft;

the sheet forming part b comprises medium rails b which are symmetrically arranged along the center line of the length of the second paving component and the outlets of which face to the outside, cutters b which are positioned at the corners of the medium rails b and extend back to the outlets of the two medium rails b, and upper jacking units b which are positioned below the two ends of the cutters b and are symmetrically arranged, each upper jacking unit b comprises a connecting plate b fixedly connected with the rack, a connecting shaft b, the upper end of which is fixedly connected with the lower surface of the cutter b and is arranged on the connecting plate b in a vertically sliding manner, a convex block b fixedly arranged at the lower end of the connecting shaft b, and a spring b, the lower end of which is fixedly connected with the lower surface of the connecting shaft b and the other end of which is fixedly connected with the upper surface of the convex block b, and the spring b is sleeved;

the corner sizes of the medium track a and the medium track b are A, and the angle is more than 90 degrees and less than A and less than 180 degrees.

Preferably, the control assembly comprises:

the two force transmission pieces a are arranged and correspond to the upper jacking unit a one by one respectively, and each force transmission piece a comprises a convex block c which is matched with the convex block a and is arranged along the same horizontal line and a bearing rod a, one end of the bearing rod a is fixedly connected with the convex block c, and the other end of the bearing rod a is fixedly connected with a discharging belt of the outgoing component; and

the force transmission pieces b are positioned behind the force transmission pieces b, are provided with two parts which are respectively arranged in one-to-one correspondence with the jacking units b and comprise convex blocks d which are arranged in a matching way with the convex blocks b and are arranged along the same horizontal line and carrying rods b, one ends of the carrying rods are fixedly connected with the convex blocks d, and the other ends of the carrying rods are fixedly connected with the discharging belts of the outgoing assembly;

the height difference between the bearing rod a and the bearing rod b is H1, the height difference between the intermediate rail a and the intermediate rail b is H2, and H1 is H2.

Preferably, the outgoing assembly further comprises:

the first transmission piece comprises a secondary shaft a and a secondary shaft b which are rotatably arranged on the boiling box through bearings, and the secondary shaft a and the secondary shaft b are respectively positioned at the two ends of the tail of the boiling box and are matched with the discharging belt;

the second transmission part is positioned above the output end of the discharging belt and comprises a main shaft a, a main shaft b, a main shaft c and a transmission belt a, wherein the main shaft a is positioned above the discharging belt and is rotatably arranged on the boiling box, the main shaft b is arranged above the tail end of the rack, the main shaft c is arranged in the same horizontal direction as the main shaft b and is positioned outside the boiling box, the transmission belt a is arranged in a transmission way with the main shaft a, the main shaft b and the main shaft c, and the main shaft b and the main shaft c are both rotatably arranged on the support legs through rotating shafts; and

and the third transmission part comprises a transmission belt b in transmission connection with the main shaft b and the secondary shaft b and a rotating motor which is fixedly arranged on the support leg and is arranged on the main shaft b.

Preferably, the first material return component comprises:

the driving shaft a is rotatably arranged on the mounting frame a; and

the material returning pieces a are symmetrically arranged in two groups along the center line of the length of the driving shaft a, and comprise a rotary disc a which is coaxial and fixedly arranged with the driving shaft a and a plurality of groups of rake hooks a which are arranged at equal intervals along the circumferential direction of the rotary disc a;

and the driving shaft a is fixedly connected with the output end of the rotating motor b.

Preferably, the second feed back component comprises:

the driving shaft b is rotatably arranged on the mounting frame b; and

the material returning pieces b are symmetrically arranged in two groups along the center line of the length of the driving shaft b and comprise a rotary disc b which is coaxial with and fixedly arranged on the driving shaft b and a plurality of groups of rake hooks b which are arranged at equal intervals along the circumferential direction of the rotary disc b;

the driving shaft b is in belt transmission connection with the outgoing assembly, and the rotating motor b and the outgoing assembly rotate in opposite directions.

Preferably, the first spreading component comprises input tracks a, the input tracks a are symmetrically arranged on the rack and are arranged in an L shape, a feeding port a is formed in the bottom of the input tracks a, the feeding port a is positioned above the turntable b, a translation unit a is arranged on one side of the turntable b, the translation unit a is an L-shaped push plate a which is respectively arranged on the input tracks a in a sliding mode, and one end of the L-shaped push plate a is horizontally and elastically connected with the input tracks a;

the second material paving assembly comprises input rails b, the input rails b are symmetrically arranged on the rack and are arranged in an L shape, and openings of the input rails a and the input rails b are oppositely arranged; the feeding hole b is formed in the bottom of the input track b, the feeding hole is located a translation unit b is arranged above the turntable a and on one side of the turntable a, the translation unit b is an L-shaped push plate b which is arranged on the input track b in a sliding mode respectively, and one end of the L-shaped push plate b is in horizontal elastic connection with the input track b.

Preferably, the first paving assembly further comprises:

the spreading rods a are arranged on the input track a in a sliding mode through clamping parts a which are symmetrically arranged at two ends of the spreading rods a, and are arranged along the input track a in a plurality of groups and sequentially output one by one;

the rolling shaft a is positioned outside the clamping part a and is fixedly connected with the clamping part a;

the limiting rod piece a is arranged on the input track a and used for limiting and fixing the spreading rod a, and comprises a fixing block a fixedly connected with the input track a, a slope block a vertically arranged on the fixing block a in a sliding mode and a telescopic unit a arranged between the fixing block a and the slope block a in a butting mode.

Preferably, the second paving assembly further comprises:

the spreading sticks b are arranged on the input track b in a sliding mode through clamping parts b symmetrically arranged at two ends of the spreading sticks b, and a plurality of groups of the spreading sticks are arranged along the input track b and sequentially output one by one;

the rolling shaft b is positioned outside the clamping part b and is fixedly connected with the clamping part b;

the rod limiting piece b is arranged on the input track b and used for limiting and fixing the spreading rod b, and comprises a fixed block b fixedly connected with the input track b, a slope block b vertically and slidably arranged on the fixed block b, and a telescopic unit b abutted between the fixed block b and the slope block b;

and the spreading roller a and the spreading roller b vertically fall along the guide post.

Still preferably, the drive mechanism includes:

the linear motor is arranged along the motion direction of the material holding rod a and the material holding rod b, a sliding block is arranged on the linear motor in a reciprocating mode, and a square sliding groove is vertically formed in the middle of the sliding block;

the guide plate is arranged in parallel with the linear motor, three guide grooves which are communicated end to end are formed in the guide plate, and guide shafts are arranged in two adjacent guide grooves in a sliding mode;

the guide block is arranged across the sliding chute, and one end of the guide block is arranged in the guide plate in a sliding manner; and

the special-shaped driving piece is vertically connected with the other end of the guide block, the lower end of the special-shaped driving piece is in slope-shaped arrangement, and the special-shaped driving piece is in sliding fit with the jacking block located at the output end of the input track b to enable the special-shaped driving piece to be lifted upwards, and the side push blocks with opposite directions at two ends in the vertical direction of the special-shaped driving piece are in extrusion fit with the slope-shaped block a and the slope-shaped block b respectively.

The invention has the beneficial effects that:

(1) compared with the traditional sheet jelly cooking process, the sheet jelly cooking process has the advantages that the cooking and cutting work are combined together, the cutting work is perfectly integrated in the cooking work by utilizing the linkage between the mechanisms, the cutting and forming work after cooking is omitted, and the work efficiency is improved;

(2) compared with the traditional sheet jelly cooking process, the sheet jelly cooking process has the advantages that after the spreading roller a and the spreading roller b for supporting the sheet jelly complete the sheet jelly spreading work, the sheet jelly cooking process can automatically return to the sheet forming assembly to replace the manual work of placing and returning the spreading roller a and the spreading roller b, so that the whole work cycle is repeated, the continuity is realized, and the effect of high-degree automation is realized;

(3) compared with the traditional sheet jelly cooking process, the sheet jelly cooking process has the advantages that the drying, falling and cooking processes of the sheet jelly are programmed into the wave-shaped conveying route, so that the sheet jelly cannot be overlapped, the sheet jelly is not easy to separate after being cooked and output, and the quality of the sheet jelly is improved.

In conclusion, the equipment has the advantages of high automation degree and cutting forming, and is particularly suitable for the technical field of sheet jelly making.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a process flow chart of the vermicelli cooking device with the cutting function.

Fig. 2 is a schematic structural diagram of a vermicelli cooking device with a cutting function.

Fig. 3 is a schematic structural diagram of the shearing mechanism.

Fig. 4 is a schematic structural view of the efferent component.

Fig. 5 is a schematic structural view of the sheet-forming member a.

Fig. 6 is a schematic structural view of the sheet-forming member b.

Fig. 7 is a schematic view of a state of a material returning operation of the first material returning assembly.

Fig. 8 is a schematic view of the state of the feeding back operation of the second feeding back assembly.

Fig. 9 is a schematic structural view of the circulation mechanism.

Fig. 10 is a schematic diagram of the state of the cutting operation of the vermicelli cooking device with the cutting function.

Fig. 11 is a schematic structural diagram of the first spreading assembly.

Fig. 12 is a schematic structural view of the second spreading assembly.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, a vermicelli cooking method with a cutting function comprises the following steps:

firstly, holding and loading materials once, vertically conveying the sheet jelly downwards by a sheet jelly conveying belt 12, starting a linear motor 31 of a driving mechanism 3, driving the paving roller a215 to output discontinuously by the driving mechanism 3 and support the sheet jelly for the first time, and then vertically falling the paving roller a215 along an intermediary track a4111 of a piece a 411;

secondly, carrying out secondary material holding and loading, resetting the linear motor 31, driving the spreading roller b225 by the driving mechanism 3 to carry out secondary support on the sheet jelly, and vertically falling the spreading roller b225 along the intermediate track b4121 of the sheet forming piece b412 to enable the sheet jelly to fall in a wave shape;

cutting into pieces, starting the first transmission piece 421 of the transmission assembly 42, extruding the transmission piece b432 and the piece forming piece b412 in a matched manner, and cutting the sheet jelly on the surface of the spreading stick b225 by the cutter b 4122; meanwhile, a force transmission piece a431 arranged behind is matched with a sheet forming piece a411 for extrusion, a cutter a4112 cuts the sheet jelly on the surface of the spreading stick a215, and the sheet jelly falls vertically;

step four, sheet jelly is output, the cut sheet jelly falls onto the first transmission piece 421, cooking operation is finished in backward transmission work, and the cooked sheet jelly is automatically transmitted to leave the boiling box 13 by utilizing the second transmission piece 422;

step five, circulating the material returning once, wherein synchronously with the step four, the spreading roller b225 continues to fall onto the material returning part b523 after finishing the sheet jelly supporting work, and the driving shaft b521 feeds the spreading roller b225 into the first spreading component 21 in a rotating manner under the linkage of the transmission component 42 for recycling;

and step six, performing secondary roller returning circulation, wherein in synchronization with the step five, the spreading roller a215 continues to fall onto the returning part a513 after finishing the sheet jelly supporting work, and the driving shaft a511 rotates the spreading roller a215 under the linkage of the rotating motor b4233 to be sent into the second spreading assembly 22 for recycling.

Further, in the fourth step, the time difference between the sheet jelly falling into the first transmission piece 421 and the sheet jelly leaving from the second transmission piece 422 is 10-12 min.

Further, in the fourth step, the sheet jelly obtained after the cooking is dried by a fan, naturally aired for 22-26h, and then boxed and warehoused.

Further, in the fourth step, the rotation frequency of the rotary motor a4232 of the outlet assembly 42 is equal to the rotation frequency of the rotary motor b4233 in the sixth step, which is 1000-.

Further, in the third step, the force of the cutter b4122 and the cutter a4112 on the sheet jelly is 2N-3N.

Further, in the third step, the length of the sheet-formed sheet jelly is 1000mm +/-10 mm, and the width thereof is 8000mm +/-10 mm.

Further, in the fourth step, the cooking temperature of the boiling box 13 is 90-95 ℃, and the steam pressure is controlled to be 0.1-0.2 Mpa.

Further, the thickness of the sheet jelly obtained after the boiling in the boiling box 13 is finished is 1-3 mm.

Example two

Wherein the same or corresponding parts as those of the first embodiment are designated by the same reference numerals as those of the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

further, in the fourth step, the cooking temperature of the boiling box 13 is 80-90 ℃, and the steam pressure is controlled to be 0.2-0.3 Mpa.

Further, the thickness of the sheet jelly obtained after the boiling in the boiling box 13 is finished is 18-20 mm.

EXAMPLE III

The first embodiment is referred to, and the vermicelli cooking device with the cutting function is described.

As shown in fig. 2, a bean vermicelli cooking device with cutting function, including sheet jelly conveyer belt 12, its erect with the top of frame 11, and its bottom is provided with boiling box 13, frame 11 installs in boiling box 13, still includes:

the material holding mechanism 2 is fixedly arranged below the sheet jelly conveyer belt 12 and is installed on the rack 11, the material holding mechanism 2 is used for supporting the sheet jelly vertically output by the sheet jelly conveyer belt 12 and outputting the sheet jelly in an S shape, and the material holding mechanism 2 comprises a first material spreading assembly 21 and a second material spreading assembly 22 arranged below the first material spreading assembly 21;

the driving mechanisms 3 are symmetrically arranged below the sheet jelly conveying belt 12, and are arranged between the first spreading component 21 and the second spreading component 22;

the shearing mechanism 4 is positioned below the driving mechanism 3 and comprises a slicing assembly 41 which is fixed on the frame 11 and arranged along the horizontal direction of the material holding mechanism 2, a delivery assembly 42 which is arranged below the slicing assembly 41 and a control assembly 43 which is fixedly arranged on the delivery assembly 42 and is matched with the slicing assembly 41; and

and the circulating mechanism 5 is positioned on two sides of the shearing mechanism 4 and is rotationally arranged on the rack 11, and comprises a first material returning component 51 matched with the first material paving component 21 and a second material returning component 52 matched with the second material paving component 22.

In this embodiment, hold material mechanism 2 to be the wave downwardly conveying with the sheet jelly through the setting, cooperate again to cut the mechanism 4 and cut the sheet jelly that struts into pieces, cut out the back and cook the output to utilize circulation mechanism 5 to carry out continuity recycle with stone material rod b225 with the stone material rod a215 after will cuting the completion, whole device is continuous high, and degree of automation is high, improves work efficiency.

Further, as shown in fig. 5 and 6, the sheeting assembly 41 includes a sheeting a411 located below the outlet of the first paving assembly 21 and a sheeting b412 located below the outlet of the second paving assembly 22 and at a height different from the sheeting a 411;

the sheet forming member a411 comprises an intermediary rail a4111 symmetrically arranged along a center line of the length of the first paving component 21 and having an outlet facing outwards, a cutter a4112 located at a corner of the intermediary rail a4111 and extending away from two outlets of the intermediary rail a4111, and an upper jacking unit a4113 symmetrically arranged below two ends of the cutter a4112, wherein the upper jacking unit a4113 comprises a connecting plate a4114 fixedly connected with the frame 11, a connecting shaft a4115 fixedly connected with the lower surface of the cutter a4112 at the upper end and slidably arranged on the connecting plate a4114 up and down, a protrusion a4116 fixedly arranged at the lower end of the connecting shaft a4115, and a spring a4117 fixedly connected with the lower surface of the connecting shaft a4115 at one end and fixedly connected with the upper surface of the protrusion a4116 at the other end, and the spring a4117 is sleeved on the connecting shaft a 4115;

the sheet forming part b412 comprises intermediate rails b4121 which are symmetrically arranged along a center line of the length of the second spreading component 22 and the outlets of which face outward, cutting knives b4122 which are positioned at corners of the intermediate rails b4121 and extend back to the outlets of the two intermediate rails b4121, and upper jacking units b4123 which are positioned below two ends of the cutting knives b4122 and symmetrically arranged, wherein each upper jacking unit b4123 comprises a connecting plate b4124 fixedly connected with the frame 11, a connecting shaft b4125, the upper end of which is fixedly connected with the lower surface of the cutting knife b4122 and is arranged on the connecting plate b4124 in a vertically sliding manner, a convex block b4126 fixedly arranged at the lower end of the connecting shaft b4125, and a spring b4127, the other end of which is fixedly connected with the lower surface of the connecting shaft b4125 and the upper surface of the convex block b4126, and the spring b4127 is sleeved on the connecting shaft b 4125.

In this embodiment, the force transmission piece a431 is arranged to be matched with the sheet piece a411, so that under the action of the convex block a4116, the convex block a4116 is lifted upwards, meanwhile, the compression spring a4117 is interlocked with the connecting shaft a4116 fixedly connected with the convex block a4116, the cutter a4112 is synchronously driven to move upwards, the cutting of the sheet jelly is realized, and when the force transmission piece a431 is not in contact with the convex block a4116, the compression spring a4117 automatically resets, so that the structure is simple and ingenious, and the motility is high; the force transmission piece b432 is matched with the sheet piece b412 to realize the same cutting working principle, which is not described in detail herein, so that the sheet jelly is cut into pieces, and the pieces automatically fall into the discharging belt 420 to perform boiling work.

It should be noted that, by arranging the protrusion a4116 and the protrusion c4311 along the same horizontal line, the protrusion b4126 and the protrusion d4321 along the same horizontal line, and the protrusion a4116 and the protrusion b4126 are not arranged at the same horizontal line, during the actual sliding process, mutual interference will not occur, the control component 43 with a larger height is located at the outer side, and the control component 43 with a smaller height is located at the outer side.

Further, as shown in fig. 10, the control assembly 43 includes:

two force transmission pieces a431 are arranged on each force transmission piece a431, are respectively arranged in one-to-one correspondence with the upper top unit a4113 and comprise a convex block c4311 which is matched with the convex block a4116 and is arranged along the same horizontal line, and a carrying rod a4312, one end of which is fixedly connected with the convex block c4311, and the other end of which is fixedly connected with the discharging belt 420 of the discharging assembly 42; and

the force transmission piece b432 is positioned behind the force transmission piece b432, two force transmission pieces b432 are arranged and are respectively arranged in one-to-one correspondence with the upper jacking unit b4123, and each force transmission piece b432 comprises a lug d4321 which is arranged in a matching way with the lug b4126 and is arranged along the same horizontal line and a bearing rod b4322, one end of the bearing rod is fixedly connected with the lug d4321, and the other end of the bearing rod b4322 is fixedly connected with the discharging belt 420;

the height difference between the receiving rod a4312 and the receiving rod b4322 is H1, the height difference between the intermediate rail a4111 and the intermediate rail b4121 is H2, and H1 is H2.

Further, as shown in fig. 4, the outgoing component 42 further includes:

the first transmission piece 421 includes a secondary shaft a4211 and a secondary shaft b4212 which are rotatably arranged on the boiling box 13 through bearings, and the secondary shaft a4211 and the secondary shaft b4212 are respectively located at two terminal ends of the boiling box 13 and are matched with the discharging belt 420;

the second transmission piece 422 is positioned above the output end of the discharging belt 420, and comprises a main shaft a4221 positioned above the discharging belt 420 and rotatably arranged on the boiling box 13, a main shaft b4222 arranged above the tail end of the frame 11, a main shaft c4223 arranged in the same horizontal direction as the main shaft b4222 and positioned outside the boiling box 13, and a transmission belt a in transmission arrangement with the main shaft a4221, the main shaft b4222 and the main shaft c4223, wherein the main shaft b4222 and the main shaft c4223 are both rotatably arranged on a support leg 4225 through rotating shafts; and

a third transmission member 423, wherein the third transmission member 423 includes a transmission belt b4231 in transmission connection with the main shaft b4222 and the secondary shaft b4212, and a rotating motor a4232 fixedly arranged with the main shaft b4222 and arranged on the support leg 4225.

In this embodiment, transmit to the rear end through setting up first driving medium 421 at first will cutting good one-tenth sheet of sheet jelly, at the second driving medium 422 that utilizes the tail end to set up, cut good one-tenth sheet of jelly along with ejection of compact belt 420's power propelling movement, transmission to transmission band a, transmission band a's slope length is less than the length of cutting good one-tenth sheet of jelly, and then avoids the jelly to retreat and detain on ejection of compact belt 420, has also realized the effect of collecting the automatic transmission of the good jelly that cooks simultaneously.

In addition, through setting up third driving medium 423 for synchronous rotation under the effect of a rotating electrical machines a4232, and then be favorable to realizing the automatic output work of sheet jelly, practice thrift labour's output, save the cost.

Further, as shown in fig. 8, the first material returning assembly 51 includes:

the driving shaft a511 is rotatably arranged on the mounting frame a 512; and

the material returning part a513, two groups of material returning parts a513 are symmetrically arranged along the middle line of the length of the driving shaft a511, and comprise a rotary disc a5131 which is coaxial with and fixedly arranged on the driving shaft a511 and a plurality of groups of rake hooks a5132 which are arranged at equal intervals along the circumferential direction of the rotary disc a 5131.

The drive shaft a511 is fixedly connected to an output end of the rotary electric machine b 4233.

Further, as shown in fig. 7, the second material returning assembly 52 includes:

the driving shaft b521, the driving shaft b521 is rotatably arranged on the mounting bracket b 522; and

the feed back pieces b523 are symmetrically arranged in two groups along the middle line of the length of the driving shaft b521, and each feed back piece b523 comprises a rotary disc b5231 which is coaxial with and fixedly arranged on the driving shaft b521 and a plurality of groups of rake hooks b5232 which are arranged at equal intervals along the circumferential direction of the rotary disc b 5231.

The driving shaft b521 is in belt transmission connection with the outgoing assembly 42, and the rotating motor b4233 rotates in the opposite direction to the outgoing assembly 42.

Further, as shown in fig. 7 and 8, the first spreading assembly 21 includes an input rail a211, the input rail a211 is symmetrically disposed on the frame 11 and is L-shaped, a feeding opening a212 is disposed at the bottom of the input rail a211, the feeding opening a212 is located above the turntable b5231, and a translation unit a213 is disposed at one side of the feeding opening a212, the translation units a213 are L-shaped push plates a214 respectively slidably disposed on the input rail a211, and one end of each L-shaped push plate a214 is horizontally and elastically connected to the input rail a 211;

the second spreading assembly 22 comprises an input track b221, the input track b221 is symmetrically arranged on the rack 11 and is in an L-shaped arrangement, and the input track a211 and the input track b221 are oppositely arranged in an opening; the bottom of the input track b221 is provided with a feeding port b222, the feeding port b222 is located above the turntable a5131, and a translation unit b223 is arranged on one side of the turntable a5131, the translation unit b223 is an L-shaped push plate b224 which is respectively slidably arranged on the input track b221, and one end of the L-shaped push plate b224 is horizontally and elastically connected with the input track b 221.

In this embodiment, by providing the first material returning component 51, the spreading sticks a215 sliding down on the intermediary rail a4111 automatically fall into the rake hook a5132, under the action of the rotary disc a5131, the spreading sticks a215 rotate to the lower part of the feeding port b222, the rotary disc a5131 continues to rotate, the L-shaped push plate b224 compresses the spring, the L-shaped push plate b224 slides on the input rail b221, the spreading sticks a215 enter the input rail b221, then the rotary disc a5131 smoothly rotates, and the L-shaped push plate b224 resets under the elastic action, thereby achieving the automatic transmission effect of the spreading sticks a 215.

In addition, the working principle of the second feeding back component 52 is the same as that of the first feeding back component 51, and is not described herein.

It is worth mentioning that the rotating direction of the rotating motor b4233 is opposite to that of the outgoing assembly 42, so that the spreading sticks a215 and b225 are prevented from falling and sliding down in the rotating process of the rotating disc b5231 and the rotating disc a5131, and the implementation stability of the device is ensured.

Further, as shown in fig. 11, the first paving assembly 21 further includes:

the spreading sticks a215 are arranged on the input track a211 in a sliding mode through clamping parts a216 symmetrically arranged at two ends of each spreading stick a215, and a plurality of groups of the spreading sticks a215 are arranged along the input track a211 and sequentially output one by one;

the rolling shaft a217 is positioned outside the clamping part a216 and is fixedly connected with the clamping part a 216;

the roller limiting piece a218 is arranged on the input track a211 and used for limiting and fixing the spreading roller a215, and comprises a fixed block a2181 fixedly connected with the input track a211, a slope block a2182 vertically and slidably arranged on the fixed block a2181, and a telescopic unit 2183 butted between the fixed block a2181 and the slope block a 2182.

Further, as shown in fig. 12, the second paving assembly 22 further includes:

the spreading sticks b225 are arranged on the input track b221 in a sliding mode through clamping parts b226 symmetrically arranged at two ends of the spreading sticks b225, and a plurality of groups of the spreading sticks b are arranged along the input track b221 and output one by one in order;

a rolling shaft b227, wherein the rolling shaft b227 is positioned outside the engaging part b226 and is fixedly connected with the engaging part b 226;

the rod limiting piece b228 is arranged on the input track b221 and used for limiting and fixing the spreading rod b225, and comprises a fixed block b2281 fixedly connected with the input track b221, a slope-shaped block b2282 vertically and slidably arranged on the fixed block b2281, and a telescopic unit b2283 abutted between the fixed block b2281 and the slope-shaped block b 2282;

the paving stick a215 and the paving stick b225 vertically fall along the intermediary rail a4111 and the intermediary rail b4121, respectively.

Sheet jelly conveyer belt 11 carries through the sheet jelly of emergency steaming, the vertical sheet jelly conveyer belt 11 that breaks away from of the end of sheet jelly conveyer belt 11 of sheet jelly is dropped perpendicularly, at the in-process that drops, actuating mechanism 3 drives stone material rod a215 earlier and exports and support the sheet jelly, afterwards, at the in-process that actuating mechanism 3 replied, drive stone material rod b225 and support the sheet jelly, make the sheet jelly present the wave, be favorable to shearing mechanism 4 simultaneously and tailor work to it, make the sheet jelly fall into on spreading out subassembly 42 for one slice, avoid cooking the in-process, take place the bonding between the sheet jelly, and then influence product quality, and the work efficiency is improved.

It should be noted that, the material spreading stick a215 is clamped with the input track a211 through the clamping part a216, and the blocking stick member a218 limits and fixes the material spreading stick a215, when the material spreading stick a215 needs to be output, the driving mechanism 3 squeezes the blocking stick member a218 to lift the blocking stick member a218, and compresses the telescopic unit a2183, so that the material spreading stick a215 is separated from the limit of the input track a211 and is driven by the driving mechanism 3 to output, and then the next material spreading stick a215 is limited by the resetting blocking stick member a218 again.

Still further, as shown in fig. 11, the drive mechanism 3 includes:

the linear motor 31 is arranged along the motion direction of the material spreading roller a215 and the material spreading roller b225, a sliding block 32 reciprocates on the linear motor 31, and a square sliding groove 33 is vertically arranged in the middle of the sliding block 32;

the guide plate 34 is arranged in parallel with the linear motor 31, three guide grooves 35 which are communicated end to end are formed in the guide plate 34, and guide shafts 36 are arranged in the two adjacent guide grooves 35 in a sliding mode;

a guide block 37, wherein the guide block 37 is arranged across the sliding chute 33, and one end of the guide block 37 is arranged in the guide plate 34 in a sliding manner; and

the special-shaped driving element 38 is vertically connected to the other end of the guide block 37, the lower end of the special-shaped driving element 38 is in a slope shape, and the special-shaped driving element is in sliding fit with a jacking block 381 located at the output end of the input track b221, so that the special-shaped driving element 38 is lifted upwards, and the side pushing blocks 382, opposite to each other in the vertical direction, of the special-shaped driving element 38 are respectively in extrusion fit with the slope block a2182 and the slope block b 2282.

It should be noted that, when the paving stick a215 is driven to output, the driving mechanism 3 is matched with the jacking block 381, so that the driving mechanism 3 is lifted, the guide shaft 36 is engaged with the two adjacent guide grooves 35 at the top of the guide plate 34, along with the operation of the linear motor 31, the slider 32 drives the special-shaped driving member 38 to move, the top of the special-shaped driving member 38 hooks the two adjacent guide grooves 35 a2182 at the two ends of the paving stick a215 to roll, after the paving stick a215 finishes outputting, the special-shaped driving member 38 moves to the end of the guide groove 35 and descends, the guide shaft 36 is engaged with the two adjacent guide grooves 35 at the bottom of the guide plate 34, the linear motor 31 rotates reversely to drive the special-shaped driving member 38 to reset, and in the resetting process, the bottom of the special-shaped driving member 38 hooks the two adjacent guide grooves b2282 of the paving stick b225 to roll and output.

Example four

As shown in fig. 7 and 8, wherein the same or corresponding components as those in the second embodiment are denoted by the same reference numerals as those in the second embodiment, only the differences from the second embodiment will be described below for the sake of convenience. The third embodiment is different from the second embodiment in that:

further, the corner sizes of the intermediary rail a4111 and the intermediary rail b4121 are A, 90 ° < A < 180 °.

It is worth to say that by setting the angle of 90 degrees to be more than A and less than 180 degrees, on one hand, the spreading roller a215 and the spreading roller b225 can automatically fall down by utilizing gravitational potential energy, and on the other hand, the spreading rollers have initial speed, namely, a parabola can fall onto the circulating mechanism 5, and the working stability is ensured.

The working process is as follows:

sheet jelly conveyer belt 12 conveys the sheet jelly that has passed through the rapid steaming, the sheet jelly drops perpendicularly from the vertical sheet jelly conveyer belt 12 that breaks away from in the end of sheet jelly conveyer belt 12, in the in-process that drops, actuating mechanism 3 drives stone roller a215 earlier and exports and support the sheet jelly, later, in the in-process that actuating mechanism 3 replied, drive stone roller b225 and support the sheet jelly, make the sheet jelly present the wave whereabouts, ejection of compact belt 420 rotates, piece a411 and the piece b412 of cooperation piece subassembly 41 cut the sheet jelly, the sheet jelly falls into ejection of compact belt 420 and sends out through the transmission of second driving medium 422, simultaneously, the stone roller a215 after the sheet jelly is accomplished to cut can reach the position of second stone subassembly 22 at first return subassembly 51, stone roller b225 returns to the position of first stone subassembly 21 under the effect of second return subassembly 52.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A vermicelli cooking method with a cutting function is characterized by comprising the following steps:

firstly, holding and loading materials once, vertically and downwards conveying the sheet jelly by a sheet jelly conveyer belt (12), starting a linear motor (31) of a driving mechanism (3), driving the spreading roller a (215) to discontinuously output and support the sheet jelly for the first time by the driving mechanism (3), and vertically and downwards dropping the spreading roller a (215) along an intermediary track a (4111) of a sheet forming piece a (411);

secondly, carrying out secondary holding and loading, resetting the linear motor (31), driving a material spreading roller b (225) to carry out secondary support on the sheet jelly by a driving mechanism (3), and then enabling the material spreading roller b (225) to vertically fall along a medium track b (4121) of the sheet forming piece b (412) so that the sheet jelly falls in a wave shape;

cutting into pieces, starting a first transmission piece (421) of the transmission assembly (42), extruding a force transmission piece b (432) and a piece forming piece b (412) in a matched mode, and cutting the sheet jelly on the surface of the spreading stick b (225) by a cutter b (4122); meanwhile, a force transmission piece a (431) arranged behind is matched with the sheet forming piece a (411) for extrusion, a cutter a (4112) cuts the sheet jelly on the surface of the spreading stick a (215), and the sheet jelly falls vertically;

step four, sheet jelly is output, the cut sheet jelly falls into a first transmission piece (421), cooking action is finished in backward transmission work, and the cooked sheet jelly is automatically transmitted to leave a boiling box (13) by utilizing a second transmission piece (422);

step five, circulating once, synchronously with the step four, continuously dropping the spreading roller b (225) onto a returning part b (523) after finishing the sheet jelly supporting work, and rotationally sending the spreading roller b (225) into the first spreading component (21) by the driving shaft b (521) under the linkage of the transmission component (42) for recycling;

and step six, secondary roller returning circulation, wherein in synchronization with the step five, the spreading roller a (215) continues to fall onto a returning part a (513) after finishing the sheet jelly supporting work, and the driving shaft a (511) rotates the spreading roller a (215) under the linkage of the rotating motor b (4233) to be sent into the second spreading assembly (22) for recycling.

2. The method for cooking vermicelli with cutting function according to claim 1, wherein in the fourth step, the time difference between the sheet jelly falling into the first transmission member (421) and the sheet jelly leaving from the second transmission member (422) is 10-12 min.

3. The method for cooking vermicelli with the cutting function according to claim 1, wherein in the fourth step, the sheet jelly obtained after cooking is dried by a fan with water on the surface, naturally aired for 22-26h, boxed and warehoused.

4. The vermicelli cooking method according to claim 1, wherein in the fourth step, the rotation frequency of the rotating motor a (4232) of the outlet assembly (42) is equal to the rotation frequency of the rotating motor b (4233) in the sixth step, which are 1000- > 1200 r/min.

5. The method for cooking vermicelli with cutting function according to claim 1, wherein in the third step, the force of the cutter b (4122) and the cutter a (4112) on the sheet jelly is 2N-3N.

6. The method for cooking vermicelli according to claim 1, wherein in the third step, the length of the sheet jelly is 1000mm ± 10mm, and the width thereof is 8000mm ± 10 mm.

7. The cooking method of vermicelli with cutting function as claimed in claim 1, wherein in the fourth step, the cooking temperature of the boiling box (13) is 90-95 ℃, and the steam pressure is controlled to be 0.1-0.2 Mpa.

8. The cooking method of vermicelli with cutting function as claimed in claim 7, wherein the thickness of sheet jelly obtained after the cooking in the boiling box (13) is 1-3 mm.

9. The vermicelli cooking method with cutting function according to claim 1, wherein in the fourth step, the cooking temperature of the boiling box (13) is 80-90 ℃, and the steam pressure is controlled to be 0.2-0.3 Mpa.

10. The cooking method of vermicelli with cutting function as claimed in claim 9, wherein the thickness of sheet jelly obtained after the cooking in the boiling box (13) is 18-20 mm.

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