CN115606609A

CN115606609A - Special processing system of whole dry noodle food of coarse cereals

Info

Publication number: CN115606609A
Application number: CN202211403948.2A
Authority: CN
Inventors: 王洁; 季新兵
Original assignee: Shanxian Luyixin Flour Co ltd
Current assignee: Shanxian Luyixin Flour Co ltd
Priority date: 2022-11-10
Filing date: 2022-11-10
Publication date: 2023-01-17
Anticipated expiration: 2042-11-10
Also published as: CN115606609B

Abstract

The invention relates to the technical field of production of full-dry wide noodles, in particular to a special processing system for coarse cereal full-dry noodle food, which comprises a coarse cereal dough feeding mechanism, a dough forming output mechanism and a power transmission mechanism, wherein the bottom of the dough forming output mechanism is fixedly arranged at the top of a rack, a belt feeding mechanism is arranged at the downstream of a discharge port of the dough forming output mechanism and is used for driving noodle blanks output after being formed by the dough forming output mechanism to be transported downstream, and a plurality of noodle blank rolling mechanisms, noodle cutting mechanisms and noodle drying chambers which are fixed at the top of a hanging frame are sequentially arranged above the belt feeding mechanism from upstream to downstream. This system can carry out extrusion to coarse cereal dough, face embryo, can realize rolling into the face to the quick of face embryo after the shaping simultaneously, then cut into bright wide noodless, finally can realize the drying and shaping to wide noodless by the drying chamber, is convenient for send into follow-up packaging process.

Description

Special processing system of whole dry noodle food of coarse cereals

Technical Field

The invention relates to the technical field of production of full-dry wide noodles, in particular to full-dry wide noodle processing equipment capable of quickly rolling and slitting extruded noodles, and particularly relates to a special processing system for coarse cereal full-dry noodle food.

Background

The coarse cereal and coarse grain noodles can not only achieve the effect of promoting metabolism, but also have no special high fat and heat, are deeply loved by health-preserving people, and have a large number of coarse cereal and coarse grain noodles in the market at present.

At present, packaged coarse cereal whole-dried noodles on the market are generally long cylindrical noodles after being formed, and are mainly formed by extrusion forming of a noodle forming machine, and noodle forming equipment on the market at present is generally divided into two types.

The first kind is a pure manual apparatus, for example, in patent document with patent application number CN201610202371.7, a manual extrusion molding noodle machine is disclosed, the main structure of which includes a transmission mechanism connected with a rocking handle in a machine body connected by an upper cover, a lower cover and a cylinder barrel, characterized in that the transmission mechanism is composed of a ball screw nut pair at the upper end and a thrust bearing assembly connected with the end of a ball screw at the lower end, the thrust bearing assembly is connected with a piston into a whole, the piston is in clearance fit with the cylinder barrel, a fixing mechanism is fixed on the upper cover, the fixing mechanism is composed of a support ring fixed on the opposite wall of the cooker, the support ring is connected with one end of a support rod, and the other end of the support rod is fixed on the upper cover.

The second type is an automatic apparatus, for example, in patent document CN201810875706.0, a full-automatic noodle maker is disclosed, whose main structure includes a housing, a noodle-kneading device and a forming device; the shell is of a hollow structure, and a feed inlet is formed in the top of the shell; the flour kneading device is rotatably arranged on one side in the machine shell and used for uniformly stirring flour, and the forming device is arranged on the other side of the machine shell and used for extruding and forming the uniformly stirred flour; the machine shell is internally provided with a slope which pushes the flour at the forming device to the flour mixing device when the flour is mixed, and the slope is positioned at one side of the bottom in the machine shell and corresponds to the position below the forming device.

The noodle maker structure in the two prior arts can show that the noodle maker is generally only used for processing and forming traditional long and thin cylindrical noodles, but at present, people prefer wide noodles of handmade noodles due to the fact that people constantly increase the fondness of handmade noodles, and the existing noodle maker cannot effectively and quickly complete the preparation of the wide-noodle all-dry noodles.

Therefore, the invention provides full-dry wide noodle processing equipment capable of quickly rolling and cutting extruded noodles so as to better solve the problems in the prior art.

Disclosure of Invention

In order to solve one of the technical problems, the invention adopts the technical scheme that: the utility model provides a special processing system of whole dry noodle food of coarse cereals, includes that the material mechanism is thrown to the coarse cereals dough, dough shaping output mechanism, power drive mechanism, the bottom fixed mounting of dough shaping output mechanism is at the top of a frame, the material mechanism is thrown to the coarse cereals dough is installed dough shaping output mechanism's feed inlet department, power drive mechanism installs just be used for the drive in the frame dough shaping output mechanism operates a belt feeding mechanism is installed to dough shaping output mechanism's discharge gate low reaches, belt feeding mechanism be used for driving by the noodless embryo of dough shaping output mechanism output transports downstream the top of belt feeding mechanism has set gradually a plurality of from upper reaches to low reaches and has fixed face embryo roll-pressing mechanism, noodless blank mechanism, noodless drying chamber at the hanger top.

In any of the above schemes, preferably, the coarse cereal dough feeding mechanism comprises a dough feeding bin, and a discharge port at the bottom of the dough feeding bin is connected with a top feeding port of the dough forming and outputting mechanism.

Preferably, in any one of the above schemes, the dough forming and outputting mechanism includes a horizontal spiral forming machine fixedly mounted at the top of the frame, a discharge port at the right end of the horizontal spiral forming machine is connected with a guiding elbow for conveying the strip-shaped dough blanks outwards, the tail end of the guiding elbow is located above the belt feeding mechanism, a spiral conveying shaft is mounted in an inner cavity of the horizontal spiral forming machine, and the left end of the spiral conveying shaft movably penetrates out of a left end cover of the horizontal spiral forming machine to the left and is connected with an output end of the power transmission mechanism through a coupler.

In any of the above schemes, preferably, the power transmission mechanism includes a forming driving motor fixedly mounted on the frame, a forming driving pulley is fixedly mounted at a motor shaft end of the forming driving motor, a forming driven pulley is movably hinged at the frame at the left side of the forming driving pulley, the forming driven pulley is connected with the forming driving pulley through a forming driving belt, a reversing mechanism is connected to the inner end of a central shaft of the forming driven pulley, and an output end of the reversing mechanism is connected with the left end of the spiral conveying shaft through a coupling.

It is preferred in any one of the above-mentioned schemes, reversing mechanism includes a fixed mounting and is in gear box in the frame a bottom bevel gear is installed to the bottom of gear box, the gear shaft level of bottom bevel gear is outwards moved and is worn out behind the gear box and with shaping driven pulleys's center pin links firmly bottom bevel gear's right side meshing has a reversing bevel gear's right side has linked firmly a reversing spur gear reversing bevel gear's top meshing has a transmission spur gear, transmission spur gear's spur gear axle right-hand member activity is worn out the gear box and through the shaft coupling with the spiral conveying axle is connected.

In any of the above schemes, preferably, the belt feeding mechanism includes a belt conveyor, a plurality of fixed-axis rotating supporting rollers are installed at intervals at the bottom of the upper layer and the bottom layer of the belt conveyor along the conveying direction of the belt conveyor, a driving conveying belt pulley and a driven conveying belt pulley are installed at two ends of the conveying belt respectively, and the driving conveying belt pulley is driven by an external driving conveying motor.

In any of the above schemes, preferably, the dough rolling mechanism includes two rolling positioning cylinders which are respectively arranged along the width direction of the conveying belt at intervals and have tops fixed at the bottom of the suspension frame, the two rolling positioning cylinders move synchronously, the bottoms of piston rods of the two rolling positioning cylinders are respectively and fixedly connected with a rolling bearing seat, a dough rolling roller is movably installed between the two rolling bearing seats, and the bottom of the dough rolling roller is used for abutting against and pressing the conveyed strip-shaped dough and pressing the strip-shaped dough into a sheet shape to be conveyed forward continuously.

In any of the above schemes, preferably, a protective baffle is fixedly installed on the top of each of two sides of the conveying belt.

In any of the above aspects, preferably, the noodle cutting mechanism is used for cutting the noodle blanks rolled into thin sheets into a plurality of wide noodles;

the noodle cutting mechanism comprises two noodle control cylinders which are arranged at intervals along the width direction of a conveying belt respectively, the tops of the two noodle control cylinders are fixed at the bottom of a suspension frame, the two noodle control cylinders move synchronously, a noodle bearing seat is fixedly connected to the bottoms of piston rods of the two noodle control cylinders, a noodle roller is movably hinged between the two noodle bearing seats, the noodle roller movably penetrates out of the noodle bearing seat at the corresponding position through a noodle rotating shaft fixedly connected with the center of the noodle roller, one end of the noodle rotating shaft is connected with a position adjusting unit, a plurality of noodle cutters are sequentially arranged on the outer side walls of the upper portion and the lower portion of the noodle roller at intervals along the width direction of the conveying belt, and each noodle cutter at the lower portion is used for realizing quick cutting of thin noodle blanks sent by the conveying belt into a plurality of wide noodles by following the lifting of the two noodle control cylinders.

It is preferred in any of the above-mentioned schemes that each in the lower part a pressure face antiseized mechanism is installed to the bottom of tangent plane cutter, pressure face antiseized mechanism includes an antiseized pressure face sheet metal, the both ends of antiseized pressure face sheet metal upwards perk and be horizontal hanging part antiseized pressure face sheet metal's bottom has set up the scraped surface elongated slot that a plurality of is located corresponding tangent plane cutter bottom respectively along its width direction interval in proper order, each the scraped surface elongated slot is followed the direction of delivery of noodless sets up and can not cause the transposition of upper portion and lower part tangent plane cutter to interfere, can scrape the face embryo of tangent plane cutter both sides adhesion when individual tangent plane cutter passes by the scraped surface elongated slot that corresponds.

In any of the above schemes, preferably, the tops of the two horizontal hanging portions of the anti-sticking surface thin plate are respectively fixed to a stand column, the tops of the two stand columns both extend above the suspension frame in a movable manner, a hanging spring is respectively sleeved on the outer side wall of each stand column, the tops of the two hanging springs are respectively fixed to the bottom of the suspension frame, and the bottoms of the two hanging springs are respectively fixed to the tops of the horizontal hanging portions at corresponding positions.

In any of the above schemes, preferably, the cutter position adjusting unit includes a cutter position adjusting motor fixedly installed at one side of a piston rod of the tangent plane control cylinder at a corresponding position, a motor shaft of the cutter position adjusting motor is fixedly connected with an end of the tangent plane rotating shaft, and the cutter position adjusting motor drives the tangent plane roller to rotate through rotation, so as to achieve the purpose of driving each tangent plane cutter at each lower part of each tangent plane cutter at the upper part to rotate and change positions.

The discharge gate department of derivation return bend still is provided with a face embryo cutting mechanism, face embryo cutting mechanism includes fixed mounting and is in the control cylinder that cuts of mounted frame bottom the bottom fixed mounting who cuts the piston rod of control cylinder has a cutting motor, the motor shaft department that cuts the motor is connected with a rotatory cutter disc that cuts, rotatory bottom that cuts the cutter disc will be realized cutting as required by the face embryo that the discharge gate department of derivation return bend extrudes through the rotation.

The fixed mounting is still gone back to the below of the discharge gate department of derivation return bend has a protection stock guide, the protection stock guide is located rotatory cutterhead below of cutting sets up rather than the interval.

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

1. this system can carry out extrusion to coarse cereal dough, face embryo, can realize rolling into the face to the quick of face embryo after the shaping simultaneously, then cut into bright wide noodless, finally can realize the drying and shaping to wide noodless by the drying chamber, is convenient for send into follow-up packaging process.

2. When the dough forming output mechanism is used for conveying, the dough forming output mechanism can effectively realize quick spiral conveying and extrusion forming of dough blanks by the reversing mechanism on the power transmission mechanism, and then the dough blanks are led out, so that the speed of extruding strip-shaped dough blanks outwards is ensured.

3. Utilize dough rolling mechanism to become lamellar dough sheet with the quick roll-in of strip dough under the transport state in this system, wait for subsequent noodless blank mechanism can be cut into a plurality of wide noodless with its quick branch to can realize being similar to the hand of artifical making and roll wide noodless.

4. The noodle cutting machine has the advantages that the noodle pressing anti-sticking mechanism is further designed in the noodle cutting process by the noodle cutting mechanism to prevent noodles from being stuck in the noodle cutting process, and meanwhile, the noodle blocks standing on each noodle cutting tool can be effectively scraped and stripped, so that the noodle cutting effect of the noodle cutting process is guaranteed.

5. The dough cutting mechanism additionally arranged in the system can cut the periodically derived dough according to the length of the noodles required by setting, the length of the noodles meets the requirement, and meanwhile, the purpose of preventing the cutting cutter from directly contacting the conveying belt can be achieved by utilizing the protective guide plate in the process of cutting the noodles, so that the protective effect is better achieved.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or components are generally identified by like reference numerals. In the drawings, elements or components are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged schematic structural view of the noodle cutting mechanism of the present invention.

Fig. 3 is a side view partially schematic diagram of the noodle cutting mechanism in fig. 2.

Fig. 4 is a schematic view of the internal structure of the reversing mechanism of the present invention.

In the figure, 1, a frame; 2. a suspension bracket; 3. a noodle drying chamber; 4. dough feeding bin; 5. a horizontal spiral forming machine; 6. leading out a bent pipe; 7. a spiral delivery shaft; 8. a coupling; 9. a gear case; 10. a bottom bevel gear; 11. forming a driven belt wheel; 12. a reversing bevel gear; 13. a reversing spur gear; 14. a transmission spur gear; 15. a straight gear shaft; 16. a belt conveyor; 17. a conveyor belt; 18. supporting the carrier roller; 19. driving a conveyor belt pulley; 20. a driven conveyor belt pulley; 21. rolling a position adjusting cylinder; 22. rolling the bearing seat; 23. pressing the dough into a roller; 24. a protective baffle; 25. a section control cylinder; 26. cutting a bearing seat; 27. cutting a dough roller; 28. rotating the section; 29. a cutting tool; 30. sticking-resistant surface pressing thin plates; 31. a horizontal hanging part; 32. a long scraping groove; 33. a column; 34. hanging a spring; 35. a cutter positioning motor; 36. cutting off the control cylinder; 37. cutting off the motor; 38. rotating the cutter head; 39. protection stock guide.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby. The specific structure of the present invention is shown in fig. 1-4.

Example 1:

the utility model provides a special system of processing of whole dry noodle food of cereal, includes cereal dough feeding mechanism, dough shaping output mechanism, power transmission mechanism, dough shaping output mechanism's bottom fixed mounting is at the top of a frame 1, cereal dough feeding mechanism installs dough shaping output mechanism's feed inlet department, power transmission mechanism installs just be used for the drive in the frame 1 dough shaping output mechanism operates a belt feeding mechanism is installed to dough shaping output mechanism's discharge gate low reaches, belt feeding mechanism be used for drive by the noodless embryo of output is transported downstream after the shaping of dough shaping output mechanism the top of belt feeding mechanism has set gradually a plurality of from upper reaches to low reaches and has fixed dough rolling mechanism, noodless blank cutting mechanism, noodless drying chamber 3 at hanger bracket 2 tops. When the system works, a power supply is firstly switched on, and all parts of the whole system and sensor parts such as in-place switches and the like which are arranged at corresponding positions in a matched mode are started. Utilize coarse cereals dough to throw material mechanism and can throw in coarse cereals dough to inside, dough through throwing in can enter into dough shaping output mechanism, then can control dough shaping output mechanism to the control of dough shaping speed by power drive mechanism, fashioned strip dough can be outwards exported by dough shaping output mechanism, then fall into conveyor belt 17 feeding mechanism, roll-in dough sheet into through dough rolling mechanism, then carry out the roll-in dough sheet forward and make it become the bright noodless of a plurality of through the fast cut of noodless blank mechanism, each bright noodless continue to carry forward and enter into 3 inside processes after abundant stoving of noodless drying chamber and carry to the low reaches and pack the processing.

In any of the above schemes, preferably, the coarse cereal dough feeding mechanism comprises a dough feeding bin 4, and a bottom discharge port of the dough feeding bin 4 is connected with a top feed port of the dough forming and outputting mechanism.

Preferably, in any of the above schemes, the dough forming and outputting mechanism includes a horizontal spiral forming machine 5 fixedly mounted on the top of the frame 1, a discharge port at the right end of the horizontal spiral forming machine 5 is connected with a guiding elbow 6 for conveying the strip-shaped dough outwards, the end of the guiding elbow 6 is located above the belt feeding mechanism, a spiral conveying shaft 7 is mounted in an inner cavity of the horizontal spiral forming machine 5, and the left end of the spiral conveying shaft 7 penetrates out of a left end cover of the horizontal spiral forming machine 5 in a leftward moving manner and is connected with an output end of the power transmission mechanism through a coupler 8. When the dough forming and outputting mechanism works, the dough fed into the horizontal spiral forming machine 5 from the dough feeding bin 4 is continuously conveyed to the downstream direction under the action of the spiral conveying shaft 7 in a moving state, and finally the dough is led out into strip-shaped dough through the discharge port at the right end.

In any of the above schemes, preferably, the power transmission mechanism includes a forming driving motor fixedly mounted on the frame 1, a forming driving pulley is fixedly mounted at a motor shaft end of the forming driving motor, a forming driven pulley 11 is movably hinged at the frame 1 on the left side of the forming driving pulley, the forming driven pulley 11 is connected with the forming driving pulley through a forming driving belt, a reversing mechanism is connected to an inner end of a central shaft of the forming driven pulley 11, and an output end of the reversing mechanism is connected with a left end of the spiral conveying shaft 7 through a coupling 8. The speed of the dough blank led out can be regulated and controlled by controlling the running speed of the forming driving motor of the power transmission mechanism in the working process of the spiral conveying shaft 7 of the horizontal spiral forming machine 5, the forming driving motor drives the forming driving belt wheel and the forming driven belt wheel 11 to run and convey power to the reversing mechanism when working, and the power is conveyed to the spiral conveying shaft 7 after being reversed by the reversing mechanism.

In any of the above schemes, preferably, the belt feeding mechanism includes a belt conveyor 16, a plurality of supporting rollers 18 rotating in a fixed axis are installed at intervals at the bottom of the conveying belt 17 on the upper layer and the lower layer of the belt conveyor 16 along the conveying direction, a driving conveying belt pulley 19 and a driven conveying belt pulley 20 are installed at two ends of the conveying belt 17 respectively, and the driving conveying belt pulley 19 is driven by an external driving conveying motor. The belt feeding mechanism mainly depends on the operation of the belt conveyor 16 to drive the conveying belt 17 during operation, the purpose of arranging the supporting rollers 18 can ensure the good support performance of the conveying belt 17, and the conveying speed of the whole conveying belt 17 and dough blanks, dough sheets and broad noodles thereon can be controlled by controlling the conveying speed of the external driving conveying motor.

In any of the above schemes, preferably, the dough rolling mechanism includes two rolling positioning cylinders 21 that are respectively arranged at intervals along the width direction of the conveying belt 17 and have tops fixed at the bottom of the suspension frame 2, the two rolling positioning cylinders 21 move synchronously, the bottoms of the piston rods of the two rolling positioning cylinders 21 are respectively and fixedly connected with a rolling bearing seat 22, a dough rolling roller 23 is movably installed between the two rolling bearing seats 22, and the bottom of the dough rolling roller 23 is used for abutting against and pressing the conveyed strip-shaped dough and pressing the strip-shaped dough into a sheet shape to be conveyed forward continuously. The dough rolling mechanism is provided with a structure which can be driven by the two rolling positioning cylinders 21 to realize lifting at different heights, and can realize dough sheets with different thicknesses at rolling positions according to different requirements, so that the thickness of subsequent wide noodles is controlled. The high-efficiency rolling of the dough conveyed by the conveying belt 17 can be quickly realized in the rolling process of the dough pressing roller 23, and the rolling forming effect is ensured.

In any of the above aspects, preferably, the noodle cutting mechanism is used for cutting the noodle blanks rolled into thin sheets into a plurality of wide noodles; the noodle cutting mechanism comprises two noodle control cylinders 25 which are arranged at intervals along the width direction of the conveying belt 17 respectively, the tops of the two noodle control cylinders are fixed at the bottom of the suspension frame 2, the two noodle control cylinders 25 move synchronously, a noodle bearing seat 26 is fixedly connected to the bottoms of piston rods of the two noodle control cylinders 25, a noodle roller 27 is movably hinged between the two noodle bearing seats 26, the noodle roller 27 movably penetrates out of the noodle bearing seat 26 at the corresponding position through a noodle rotating shaft 28 fixedly connected with the center of the noodle roller 27, one end of the noodle rotating shaft 28 is connected with a cutter position adjusting unit, a plurality of noodle cutters 29 are sequentially arranged on the outer side walls of the upper portion and the lower portion of the noodle roller 27 at intervals along the width direction of the conveying belt 17, and each noodle cutter 29 at the lower portion is used for realizing quick cutting of a thin noodle blank sent by the conveying belt 17 into a plurality of wide noodles by following the lifting of the two noodle control cylinders 25. After the two noodle cutting control cylinders 25 on the noodle cutting mechanism are controlled by the outside to fall to the set positions as required, the noodle sheets entering the conveying belt 17 below the noodle cutting mechanism can be pressed and cut by the noodle cutting tools 29, and the thin noodle blanks are quickly cut into a plurality of wide noodles in the pressing and cutting process, so that the wide noodles are conveyed to the downstream continuously. After the lower section cutters 29 are used for a period of time and are bonded to the dough pieces, the cutter position adjusting unit can be controlled to rotate to adjust the upper section cutters 29, and then the cutting is continued. The depth and effect of the section can be controlled by controlling the downward extension amplitude of the two section control cylinders 25.

Example 2:

the utility model provides a special system of processing of whole dry noodle food of cereal, includes cereal dough feeding mechanism, dough shaping output mechanism, power transmission mechanism, dough shaping output mechanism's bottom fixed mounting is at the top of a frame 1, cereal dough feeding mechanism installs dough shaping output mechanism's feed inlet department, power transmission mechanism installs just be used for the drive in the frame 1 dough shaping output mechanism operates a belt feeding mechanism is installed to dough shaping output mechanism's discharge gate low reaches, belt feeding mechanism be used for drive by the noodless embryo of output is transported downstream after the shaping of dough shaping output mechanism the top of belt feeding mechanism has set gradually a plurality of from upper reaches to low reaches and has fixed dough rolling mechanism, noodless blank cutting mechanism, noodless drying chamber 3 at hanger bracket 2 tops.

Preferably, in any of the above schemes, the dough forming and outputting mechanism includes a horizontal spiral forming machine 5 fixedly mounted on the top of the frame 1, a discharge port at the right end of the horizontal spiral forming machine 5 is connected with a guiding elbow 6 for conveying the strip-shaped dough outwards, the end of the guiding elbow 6 is located above the belt feeding mechanism, a spiral conveying shaft 7 is mounted in an inner cavity of the horizontal spiral forming machine 5, and the left end of the spiral conveying shaft 7 penetrates out of a left end cover of the horizontal spiral forming machine 5 in a leftward moving manner and is connected with an output end of the power transmission mechanism through a coupler 8.

When the dough forming and outputting mechanism works, the dough fed into the horizontal spiral forming machine 5 from the dough feeding bin 4 is continuously conveyed to the downstream direction under the action of the spiral conveying shaft 7 in a moving state, and finally the dough is led out into strip-shaped dough through the discharge port at the right end.

In any of the above schemes, preferably, the power transmission mechanism includes a forming driving motor fixedly mounted on the frame 1, a forming driving pulley is fixedly mounted at a motor shaft end of the forming driving motor, a forming driven pulley 11 is movably hinged at the frame 1 on the left side of the forming driving pulley, the forming driven pulley 11 is connected with the forming driving pulley through a forming driving belt, a reversing mechanism is connected to an inner end of a central shaft of the forming driven pulley 11, and an output end of the reversing mechanism is connected with a left end of the spiral conveying shaft 7 through a coupling 8.

The speed of the dough blank led out can be regulated and controlled by controlling the running speed of the forming driving motor of the power transmission mechanism in the working process of the spiral conveying shaft 7 of the horizontal spiral forming machine 5, the forming driving motor drives the forming driving belt wheel and the forming driven belt wheel 11 to run and convey power to the reversing mechanism when working, and the power is conveyed to the spiral conveying shaft 7 after being reversed by the reversing mechanism.

It is preferred in any one of the above-mentioned schemes, reversing mechanism includes a fixed mounting and is in gear box 9 in the frame 1 a bottom bevel gear 10 is installed to the bottom of gear box 9, the gear shaft level of bottom bevel gear 10 is outwards moved and is worn out gear box 9 back and with the center pin of shaping driven pulley 11 links firmly bottom bevel gear 10's right side meshing has a reversing bevel gear 12's bevel gear shaft's right side has linked firmly a reversing spur gear 13's top meshing has a transmission spur gear 14, transmission spur gear 14's spur gear shaft 15 right-hand member activity is worn out gear box 9 and through shaft coupling 8 with spiral conveying shaft 7 is connected.

The bottom bevel gear 10 in the reversing mechanism is used as a power input part, and the power can be quickly switched by meshing the bottom bevel gear 10 with the reversing bevel gear 12 and meshing the reversing spur gear 13 with the transmission spur gear 14, so that the spiral conveying shaft 7 is driven.

The reversing mechanism additionally arranged can better realize the sinking type installation of the whole power driving piece, reduce the occupied space of the upper installation and facilitate the follow-up disassembly and maintenance.

In any of the above schemes, preferably, the belt feeding mechanism includes a belt conveyor 16, a plurality of supporting rollers 18 rotating in a fixed axis are installed at intervals at the bottom of the conveying belt 17 on the upper layer and the lower layer of the belt conveyor 16 along the conveying direction, a driving conveying belt pulley 19 and a driven conveying belt pulley 20 are installed at two ends of the conveying belt 17 respectively, and the driving conveying belt pulley 19 is driven by an external driving conveying motor.

The belt feeding mechanism mainly depends on the operation of the belt conveyor 16 to drive the conveying belt 17 during operation, the purpose of arranging the supporting rollers 18 can ensure the good support performance of the conveying belt 17, and the conveying speed of the whole conveying belt 17 and dough blanks, dough sheets and broad noodles thereon can be controlled by controlling the conveying speed of the external driving conveying motor.

In any of the above schemes, preferably, the dough rolling mechanism includes two rolling positioning cylinders 21 that are respectively arranged at intervals along the width direction of the conveying belt 17 and have tops fixed at the bottom of the suspension frame 2, the two rolling positioning cylinders 21 move synchronously, the bottoms of the piston rods of the two rolling positioning cylinders 21 are respectively and fixedly connected with a rolling bearing seat 22, a dough rolling roller 23 is movably installed between the two rolling bearing seats 22, and the bottom of the dough rolling roller 23 is used for abutting against and pressing the conveyed strip-shaped dough and pressing the strip-shaped dough into a sheet shape to be conveyed forward continuously.

The dough rolling mechanism is arranged to be a structure which can be driven by the two rolling position-adjusting cylinders 21 to realize lifting at different heights, and can realize rolling of dough sheets with different thicknesses according to different requirements, so that the thickness of subsequent wide noodles can be controlled. The high-efficiency rolling of the flour blanks conveyed by the conveying belt 17 can be quickly realized in the rolling process of the flour blank pressing roller 23, and the rolling forming effect is ensured.

In any of the above solutions, it is preferable that a guard plate 24 is fixedly installed on the top of both sides of the conveyor belt 17. Can effectively play a role of protection.

the noodle cutting mechanism comprises two noodle control cylinders 25 which are arranged at intervals along the width direction of the conveying belt 17 respectively, the tops of the two noodle control cylinders are fixed at the bottom of the suspension frame 2, the two noodle control cylinders 25 move synchronously, a noodle bearing seat 26 is fixedly connected to the bottoms of piston rods of the two noodle control cylinders 25, a noodle roller 27 is movably hinged between the two noodle bearing seats 26, the noodle roller 27 movably penetrates out of the noodle bearing seat 26 at the corresponding position through a noodle rotating shaft 28 fixedly connected with the center of the noodle roller 27, one end of the noodle rotating shaft 28 is connected with a cutter position adjusting unit, a plurality of noodle cutters 29 are sequentially arranged on the outer side walls of the upper portion and the lower portion of the noodle roller 27 at intervals along the width direction of the conveying belt 17, and each noodle cutter 29 at the lower portion is used for realizing quick cutting of a thin noodle blank sent by the conveying belt 17 into a plurality of wide noodles by following the lifting of the two noodle control cylinders 25.

After the two noodle cutting control cylinders 25 on the noodle cutting mechanism are controlled by the outside to fall to the set positions as required, the noodle sheets entering the conveying belt 17 below the noodle cutting mechanism can be pressed and cut by the noodle cutting tools 29, and the thin noodle blanks are quickly cut into a plurality of wide noodles in the pressing and cutting process, so that the wide noodles are conveyed to the downstream continuously.

After the lower section cutters 29 are used for a period of time and are bonded to the dough pieces, the cutter position adjusting unit can be controlled to rotate to adjust the upper section cutters 29, and then the cutting is continued.

The depth and effect of the section can be controlled by controlling the downward extension amplitude of the two section control cylinders 25.

In any of the above schemes, preferably, each in the lower part a pressure face anti-sticking mechanism is installed to the bottom of tangent plane cutter 29, pressure face anti-sticking mechanism includes an anti-sticking pressure face sheet 30, the both ends of anti-sticking pressure face sheet 30 upwards perk and be horizontal portion of hanging 31 anti-sticking pressure face sheet 30's bottom has set up a plurality of scraping surface slot 32 that are located corresponding tangent plane cutter 29 bottom respectively along its width direction interval in proper order, each scraping surface slot 32 is followed the direction of delivery of noodless sets up and can not cause the transposition interference to upper portion and tangent plane cutter 29 of lower part, can scrape the dough embryo of tangent plane cutter 29 both sides adhesion when individual tangent plane cutter 29 passes by corresponding scraping surface slot 32.

In order to ensure the continuity of the tangent planes and prevent the dough sheets from being adhered to the cutters in the tangent plane cutting process, a dough pressing anti-sticking mechanism is arranged, when the tangent planes work, the piston rods are controlled by the two tangent plane control cylinders 25 to extend downwards to drive the tangent plane roller 27 to downwards abut against the corresponding anti-sticking dough pressing sheet 30, so that the bottom of the anti-sticking dough pressing sheet 30 abuts against the dough sheets, the dough sheets can be conveyed downstream after abutting against the dough sheets, at the moment, the cutter positioning motor 35 of the cutter positioning unit is controlled to rotate to drive the slicing cutters at the upper part and the lower part to realize the state of rotating the tangent planes, the cutters can be directly kept fixed, the dough sheets are continuously conveyed forwards by the conveying belt 17 to achieve the purpose of the tangent planes, and reasonable selection is specifically carried out according to the current state.

The anti-sticking coating is sprayed on the bottom of the anti-sticking surface sheet 30, so that the purpose of the bottom anti-sticking surface thereof can be achieved.

In addition, because each long scraping groove 32 is matched with the corresponding tangent plane cutter 29, the purpose that the adhered surface blocks on the tangent plane cutter 29 can be directly scraped when the corresponding tangent plane cutter 29 rotates can be effectively realized, and the purpose of quickly realizing the anti-sticking of the tangent plane cutter 29 is achieved.

In any of the above schemes, preferably, the tops of the two horizontal hanging portions 31 of the anti-sticking surface thin plate 30 are respectively fixed to a column 33, the tops of the two columns 33 both extend above the suspension frame 2, a hanging spring 34 is respectively sleeved on the outer side wall of each column 33, the tops of the two hanging springs 34 are respectively fixed to the bottom of the suspension frame 2, and the bottoms of the two hanging springs 34 are both fixed to the tops of the horizontal hanging portions 31 at corresponding positions.

The hanging spring 34 arranged here can realize the purpose of controlling the anti-sticking surface thin plate 30 to be lifted under the action of external pressure, and can also realize reset after the external force disappears; the upright 33 provided at the same time can serve the purpose of axial positioning.

In any of the above schemes, preferably, the cutter position adjusting unit includes a cutter position adjusting motor 35 fixedly installed at one side of the piston rod of the tangent plane control cylinder 25 at the corresponding position, a motor shaft of the cutter position adjusting motor 35 is fixedly connected with an end of the tangent plane rotating shaft 28, and the cutter position adjusting motor 35 drives the tangent plane roller 27 to rotate through rotation, so as to achieve the purpose of driving each tangent plane cutter 29 at each lower part of each tangent plane cutter 29 at the upper part to rotate and shift.

When the cutter position adjusting unit works, the whole tangent plane rotating shaft 28 and the tangent plane roller 27 on the tangent plane rotating shaft can be driven to rotate mainly by the rotation of the cutter position adjusting motor 35, so that the purpose of driving each tangent plane cutter 29 on the upper part and the lower part to rotate and change positions can be realized, and the noodle blocks on the cutters can be scraped by using each long scraping surface groove 32 while the rotation and the change positions are realized.

Export return bend 6's discharge gate department still is provided with a face embryo cutting mechanism, face embryo cutting mechanism includes fixed mounting and is in the control cylinder 36 that cuts of 2 bottoms of mounted frame the bottom fixed mounting who cuts the piston rod of control cylinder 36 has a cutting motor 37, the motor shaft department that cuts motor 37 is connected with a rotation and cuts blade disc 38, the rotatory face embryo that will be extruded by the discharge gate department of exporting return bend 6 of cutting the bottom of blade disc 38 realizes cutting as required through the rotation.

The dough cutting mechanism can periodically control the cutting control cylinder 36 to ascend and descend according to the length of the noodles required by setting, so that the cutting control cylinder 36 in a corresponding running state can be driven to drive the rotary cutting cutterhead 38 to rotate while moving downwards, the guided dough is cut, and the length of the noodles is ensured to meet the requirement.

Still fixed mounting has a protection stock guide 39 in the below of the discharge gate department of derivation return bend 6, protection stock guide 39 is located rotatory truncation blade disc 38 below and rather than the interval setting.

The protective material guide plate 39 can be used for preventing the cutter head from directly contacting the conveying belt 17 in the noodle cutting process, so that the protective effect is better achieved.

The specific working principle is as follows:

when the system works, a power supply is firstly switched on, and all parts of the whole system and sensor parts such as in-place switches and the like which are arranged at corresponding positions in a matched mode are started.

Utilize coarse cereals dough to throw material mechanism and can throw in coarse cereals dough to inside, dough through throwing in can enter into dough shaping output mechanism, then can control dough shaping output mechanism to the control of dough shaping speed by power drive mechanism, fashioned strip dough can be outwards exported by dough shaping output mechanism, then fall into conveyor belt 17 feeding mechanism, roll-in dough sheet into through dough rolling mechanism, then carry out the roll-in dough sheet forward and make it become the bright noodless of a plurality of through the fast cut of noodless blank mechanism, each bright noodless continue to carry forward and enter into 3 inside processes after abundant stoving of noodless drying chamber and carry to the low reaches and pack the processing.

When the dough forming and outputting mechanism works, the dough fed into the horizontal spiral forming machine 5 from the dough feeding bin 4 is continuously conveyed to the downstream direction under the action of the spiral conveying shaft 7 in a moving state, and finally the dough is led out into strip-shaped dough through the discharge port at the right end. The speed of the dough blank led out can be regulated and controlled by controlling the running speed of the forming driving motor of the power transmission mechanism in the working process of the spiral conveying shaft 7 of the horizontal spiral forming machine 5, the forming driving motor drives the forming driving belt wheel and the forming driven belt wheel 11 to run and convey power to the reversing mechanism when working, and the power is conveyed to the spiral conveying shaft 7 after being reversed by the reversing mechanism. The belt feeding mechanism mainly depends on the operation of the belt conveyor 16 to drive the conveying belt 17 during operation, the purpose of arranging the supporting rollers 18 can ensure the good support performance of the conveying belt 17, and the conveying speed of the whole conveying belt 17 and dough blanks, dough sheets and broad noodles thereon can be controlled by controlling the conveying speed of the external driving conveying motor. The dough rolling mechanism is arranged to be a structure which can be driven by the two rolling position adjusting cylinders 21 to realize lifting at different heights, and can realize dough sheets with different thicknesses at rolling positions according to different requirements, so that the thickness of subsequent wide noodles is controlled. The high-efficiency rolling of the flour blanks conveyed by the conveying belt 17 can be quickly realized in the rolling process of the flour blank pressing roller 23, and the rolling forming effect is ensured. After the two section control cylinders 25 on the noodle cutting mechanism are controlled by the outside to fall to the set positions as required, the dough sheets entering the conveying belt 17 below the noodle cutting mechanism can be pressed and cut by each section cutter 29, and the thin dough blanks are quickly cut into a plurality of wide noodles in the pressing and cutting process, so that the wide noodles are continuously conveyed to the downstream. After the lower section cutters 29 are used for a period of time and are bonded to the dough pieces, the cutter position adjusting unit can be controlled to rotate to adjust the upper section cutters 29, and then the cutting is continued. The depth and effect of the section can be controlled by controlling the downward extension amplitude of the two section control cylinders 25. In order to ensure the continuity of the tangent planes and prevent the dough sheets from being adhered to the cutters in the tangent plane cutting process, a dough pressing anti-sticking mechanism is arranged, when the tangent planes work, the piston rods are controlled by the two tangent plane control cylinders 25 to extend downwards to drive the tangent plane roller 27 to downwards abut against the corresponding anti-sticking dough pressing sheet 30, so that the bottom of the anti-sticking dough pressing sheet 30 abuts against the dough sheets, the dough sheets can be conveyed downstream after abutting against the dough sheets, at the moment, the cutter positioning motor 35 of the cutter positioning unit is controlled to rotate to drive the slicing cutters at the upper part and the lower part to realize the state of rotating the tangent planes, the cutters can be directly kept fixed, the dough sheets are continuously conveyed forwards by the conveying belt 17 to achieve the purpose of the tangent planes, and reasonable selection is specifically carried out according to the current state. The anti-sticking coating is sprayed on the bottom of the anti-sticking surface thin plate 30, so that the purpose of the anti-sticking surface on the bottom can be realized. In addition, because each long scraping groove 32 is matched with the corresponding tangent plane cutter 29, the purpose that the adhered surface blocks on the tangent plane cutter 29 can be directly scraped when the corresponding tangent plane cutter 29 rotates can be effectively realized, and the purpose of quickly realizing the anti-sticking of the tangent plane cutter 29 is achieved. When the cutter position adjusting unit works, the whole tangent plane rotating shaft 28 and the tangent plane roller 27 on the tangent plane rotating shaft can be driven to rotate mainly by the rotation of the cutter position adjusting motor 35, so that the purpose of driving each tangent plane cutter 29 on the upper part and the lower part to rotate and change positions can be realized, and the noodle blocks on the cutters can be scraped by using each long scraping surface groove 32 while the rotation and the change positions are realized.

The system can extrude coarse cereal dough and flour blanks, can realize quick rolling of the flour blanks into flour after being formed, then can cut the flour blanks into fresh wide noodles, can realize drying and forming of the wide noodles by the drying chamber, and is convenient to send into a subsequent packaging process; when the dough forming output mechanism is used for conveying, the system can effectively realize quick spiral conveying and extrusion forming of dough blanks by virtue of the reversing mechanism on the power transmission mechanism, and then the dough blanks are led out, so that the speed of extruding strip-shaped dough blanks outwards is ensured; in the system, the dough rolling mechanism can be used for rapidly rolling the strip-shaped dough in a conveying state into a flaky dough sheet, and the subsequent noodle cutting mechanism can rapidly cut the noodle into a plurality of wide noodles after waiting, so that the manually rolled wide noodles similar to the manually made wide noodles can be realized; in the process of slitting the noodles by using the noodle cutting mechanism, the system is also provided with a noodle pressing anti-sticking mechanism to prevent the noodles from being stuck in the process of cutting the noodles, and simultaneously, the noodle blocks which are already standing on each noodle cutting tool 29 can be effectively scraped and stripped, so that the noodle cutting effect of the noodle cutting process is ensured; the dough cutting mechanism additionally arranged in the system can periodically cut the derived dough according to the length of the noodles required by setting, so that the length of the noodles meets the requirement, and meanwhile, the purpose of preventing the cutting cutter head from directly contacting the conveying belt 17 can be achieved by utilizing the protective material guide plate 39 in the process of cutting the noodles, so that the protective effect is better achieved.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or substitutions do not cause the essential features of the corresponding technical solutions to depart from the scope of the technical solutions of the embodiments of the present invention, and the technical solutions are all covered in the scope of the claims and the specification of the present invention; it will be apparent to those skilled in the art that any alternative modifications or variations to the embodiments of the present invention may be made within the scope of the present invention.

The present invention is not described in detail, but is known to those skilled in the art.

Claims

1. The utility model provides a special system of processing of whole dry noodle food of cereal which characterized in that: including coarse cereals dough feeding mechanism, dough shaping output mechanism, power drive mechanism, dough shaping output mechanism's bottom fixed mounting is at the top of a frame, coarse cereals dough feeding mechanism installs dough shaping output mechanism's feed inlet department, power drive mechanism installs just be used for the drive in the frame dough shaping output mechanism operates a belt feeding mechanism is installed to dough shaping output mechanism's discharge gate low reaches, belt feeding mechanism be used for drive by the noodless embryo of dough shaping output mechanism output transports downstream belt feeding mechanism's top has set gradually a plurality of from the upper reaches to low reaches and has fixed dough rolling mechanism, noodless blank cutting mechanism, noodless drying chamber at the hanger top.

2. The special processing system for the coarse cereal whole-dried noodle food according to claim 1, characterized in that: the coarse cereal dough feeding mechanism comprises a dough feeding bin, and a bottom discharging port of the dough feeding bin is connected with a top feeding port of the dough forming and outputting mechanism.

3. The special processing system for the coarse cereal whole-dried noodle food according to claim 2, characterized in that: dough shaping output mechanism includes fixed mounting and is in the horizontal spiral forming machine at frame top, the right-hand member discharge gate department of horizontal spiral forming machine is connected with one and is used for the derivation return bend of outwards carrying the strip face stock, the end that derives the return bend is located belt feeding mechanism's top install the defeated axle of spiral in the inner chamber of horizontal spiral forming machine, the left end activity of the defeated axle of spiral is worn out left behind the left end lid of horizontal spiral forming machine and through the shaft coupling with power transmission mechanism's output is connected.

4. The special processing system for the coarse cereal whole-dried noodle food according to claim 3, characterized in that: the power transmission mechanism comprises a forming driving motor fixedly mounted on the rack, a forming driving belt wheel is fixedly mounted at the motor shaft end of the forming driving motor, a forming driven belt wheel is movably hinged to the rack on the left side of the forming driving belt wheel, the forming driven belt wheel is connected with the forming driving belt wheel through a forming transmission belt, a reversing mechanism is connected to the inner end of a central shaft of the forming driven belt wheel, and the output end of the reversing mechanism is connected with the left end of the spiral conveying shaft through a coupler.

5. The special processing system for the whole dry coarse cereal noodle food according to claim 4, characterized in that: belt feeding mechanism includes a band conveyer belt conveyer's the equal interval of the conveying belt's of upper strata and lower floor of band conveyer bottom is installed the rotatory support roller of a plurality of dead axle along its direction of delivery, drive conveyor belt wheel, driven conveyor belt wheel are installed respectively to conveying belt's both ends, drive conveyor belt wheel is realized the drive by outside drive conveyor motor.

6. The special processing system for the coarse cereal whole-dried noodle food according to claim 5, characterized in that: the dough rolling mechanism comprises two rolling positioning cylinders which are arranged at intervals along the width direction of the conveying belt respectively, the tops of the two rolling positioning cylinders are fixed at the bottom of the suspension frame, the two rolling positioning cylinders move synchronously, rolling bearing seats are fixedly connected to the bottoms of piston rods of the two rolling positioning cylinders respectively, a dough pressing roller is movably mounted between the two rolling bearing seats, and the bottom of the dough pressing roller is used for abutting against and pressing a conveyed strip-shaped dough to press the strip-shaped dough into a sheet shape to be conveyed forwards continuously.

7. The special processing system for the coarse cereal whole-dried noodle food according to claim 6, characterized in that: protective baffles are fixedly arranged at the tops of two sides of the conveying belt.

8. The special processing system for the coarse cereal whole-dried noodle food according to claim 7, characterized in that: the noodle cutting mechanism is used for cutting the rolled flaky noodle blanks into a plurality of wide noodles;

9. The special processing system for the coarse cereal whole-dried noodle food according to claim 8, characterized in that: the cutter position adjusting unit comprises a cutter position adjusting motor fixedly arranged on one side of a piston rod of the tangent plane control cylinder at a corresponding position, a motor shaft of the cutter position adjusting motor is fixedly connected with the end part of the tangent plane rotating shaft, and the cutter position adjusting motor drives the tangent plane roller to rotate through rotation, so that the purpose of driving each tangent plane cutter at each lower part of each tangent plane cutter at the upper part to rotate and replace is achieved.