CN220734215U - Fresh wet noodle machine - Google Patents
Fresh wet noodle machine Download PDFInfo
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- CN220734215U CN220734215U CN202322114798.XU CN202322114798U CN220734215U CN 220734215 U CN220734215 U CN 220734215U CN 202322114798 U CN202322114798 U CN 202322114798U CN 220734215 U CN220734215 U CN 220734215U
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- 235000012149 noodles Nutrition 0.000 title claims abstract description 113
- 230000004927 fusion Effects 0.000 claims abstract description 137
- 230000007246 mechanism Effects 0.000 claims abstract description 123
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 83
- 238000005520 cutting process Methods 0.000 claims abstract description 72
- 239000000843 powder Substances 0.000 claims abstract description 61
- 238000003825 pressing Methods 0.000 claims abstract description 56
- 238000004898 kneading Methods 0.000 claims abstract description 30
- 238000007599 discharging Methods 0.000 claims abstract description 21
- 238000001125 extrusion Methods 0.000 claims abstract description 20
- 238000003756 stirring Methods 0.000 claims description 72
- 235000013312 flour Nutrition 0.000 claims description 53
- 239000002994 raw material Substances 0.000 claims description 17
- 238000003860 storage Methods 0.000 claims description 14
- 238000007790 scraping Methods 0.000 claims description 13
- 238000002156 mixing Methods 0.000 claims description 11
- 239000007921 spray Substances 0.000 claims description 2
- 238000004519 manufacturing process Methods 0.000 abstract description 10
- 230000006835 compression Effects 0.000 description 12
- 238000007906 compression Methods 0.000 description 12
- 238000000034 method Methods 0.000 description 4
- 230000005540 biological transmission Effects 0.000 description 3
- 235000008446 instant noodles Nutrition 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 238000004080 punching Methods 0.000 description 2
- 238000010008 shearing Methods 0.000 description 2
- 230000007704 transition Effects 0.000 description 2
- 230000004323 axial length Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 235000005911 diet Nutrition 0.000 description 1
- 230000037213 diet Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000036541 health Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000005457 optimization Methods 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 238000005507 spraying Methods 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
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- Manufacturing And Processing Devices For Dough (AREA)
Abstract
The utility model provides a fresh wet noodle machine; comprises a cabinet, a water-powder fusion mechanism, a noodle pressing mechanism and a noodle cutting mechanism; two end covers of the water-powder fusion mechanism are respectively arranged at two sides of the dough kneading barrel body, the fusion roller is positioned in the dough kneading barrel body, the dough kneading barrel body is respectively provided with a powder inlet, a water inlet and a powder outlet which are communicated with the fusion chamber, and the side wall of the fusion roller positioned in the discharging area is fixedly connected with a discharging poking piece; two press rolls of the dough pressing mechanism are respectively supported on the machine cabinet, an extrusion channel for the dough to pass through is formed between the two press rolls, and the dough is extruded into dough sheets after passing through the extrusion channel; two section rollers of section mechanism support respectively on the rack, and two section roller lateral walls are mutually supported and two section rollers rotate in opposite directions. The fresh wet noodle machine reduces labor intensity, improves production efficiency, achieves unified sanitary standard and realizes industrialized mass production on the premise of meeting the taste of people on fresh wet noodles. Fresh and wet noodles with various specifications can be produced simultaneously according to the demands of customers.
Description
Technical Field
The utility model belongs to the technical field of fresh wet noodle manufacturing equipment, and particularly relates to a fresh wet noodle machine.
Background
At present, along with the continuously improved material living requirements of people, the awareness of diet health is continuously improved, and the requirements of fresh noodles on demand, quality and productivity are increasingly higher. Fresh wet noodles are cool and have elastic mouthfeel, and are more and more popular with people. However, the processing technology of fresh wet noodles mainly comprises the steps that the dough sheets are pressed and cut by workers from top to bottom in a stacking manner, so that time and labor are wasted, and labor intensity is high. Such a production method is highly in need of a new device.
The utility model patent with the application number of CN202210561972.2 discloses a novel fresh wet noodle production machine, which comprises a pressing wheel set integrated machine, a dough sheet automatic folding machine and a dough sheet stepping punching machine, wherein the pressing wheel set integrated machine comprises a first pressing wheel set, a second pressing wheel set and a third pressing wheel set, and if a non-noodle product (a paper wrapper or a dumpling wrapper) is produced, the first pressing wheel set, the second pressing wheel set, the dough sheet automatic folding machine and the dough sheet stepping punching machine in the pressing wheel set integrated machine are started; if the noodle products need to be produced, a first pressing wheel set, a second pressing wheel set, a third pressing wheel set, a turning conveyor and other equipment of the noodle automatic cutting and piling machine in the pressing wheel set integrated machine are started and do not run.
However, the technical scheme described in the patent only changes the processing of the formed dough into fresh wet noodles, and the whole processing technology of the fresh wet noodles cannot be finished by means of the equipment, so that the method has the defects of complicated manufacturing process, high labor intensity, low efficiency, incapability of meeting the unified requirement of sanitary standards, difficulty in forming industrialized mass production and the like.
Disclosure of Invention
The utility model aims to solve the technical problem of providing the fresh wet noodle machine with reasonable structure, which can complete all processing procedures from flour to fresh wet noodles, has simple manufacturing process and is convenient to clean.
In order to solve the technical problems, the utility model provides a fresh wet noodle machine;
the machine comprises a cabinet, a water-powder fusion mechanism, a noodle pressing mechanism and a noodle cutting mechanism, wherein the water-powder fusion mechanism, the noodle pressing mechanism and the noodle cutting mechanism are all arranged in the cabinet;
the water powder fusion mechanism comprises a dough kneading barrel body, a fusion roller and two end covers, wherein the two end covers are respectively arranged at two sides of the dough kneading barrel body, the fusion roller is positioned in the dough kneading barrel body, two end surfaces of the fusion roller are respectively extended with half shafts matched with the end covers at two sides, a fusion chamber for mixing flour raw materials and water is formed by the outer wall of the fusion roller, the inner wall of the dough kneading barrel body and the space between the two end covers, the fusion chamber is sequentially divided into a powder inlet region, a fusion region and a discharging region from beginning to end, the dough kneading barrel body is respectively provided with a powder inlet, a water inlet and a discharging opening which are communicated with the fusion chamber, the powder inlet is aligned with the powder inlet region of the fusion chamber, the water inlet is aligned with the starting end of the fusion region of the fusion chamber, the discharging opening is aligned with the discharging region of the fusion chamber, the side wall of the fusion roller in the powder inlet region is fixedly connected with auger blades, the auger blades drive powder in the powder inlet region to the end direction of the fusion chamber, the side wall of the fusion roller in the fusion region is fixedly connected with a plurality of groups of stirring poking sheets, the plurality of groups of stirring poking sheets are circumferentially distributed along the axis direction of the fusion roller, and the side wall of the fusion roller side wall in the discharging poking track in the discharging region is fixedly connected with the discharging poking sheet in the discharging position close to the discharging position;
the dough pressing mechanism comprises two pressing rollers which are respectively supported on the cabinet, the two pressing rollers rotate in opposite directions, an extrusion channel for dough to pass through is formed between the two pressing rollers, the water-powder fusion mechanism and the dough outlet of the dough barrel body are aligned to the upper side of the extrusion channel, and the dough is extruded into dough sheets after passing through the extrusion channel;
the dough cutting mechanism comprises two dough cutting rollers, the two dough cutting rollers are respectively supported on the cabinet, the side walls of the two dough cutting rollers are mutually abutted and the two dough cutting rollers rotate in opposite directions, a plurality of circumferentially extending cutting grooves are sequentially formed in the side walls of the dough cutting rollers along the axial direction of the side walls of the dough cutting rollers, the lower sides of extrusion channels of the dough pressing mechanism are aligned to the upper sides of the areas between the two dough cutting rollers, and dough sheets are sheared into noodles after being cut by the cutting grooves of the two dough cutting rollers.
As the preference of the fresh wet noodle machine, the cutting grooves on the side wall surfaces of the two cutting rolls in the cutting mechanism are distributed in a staggered way.
As the preference of this bright wet noodle machine, this bright wet noodle machine still includes conveying mechanism, and conveying mechanism installs on the rack, and conveying mechanism's conveyer belt conveying track passes the below of the region between two section rollers in the section mechanism.
As the optimization of the fresh noodle machine, the fresh noodle machine also comprises a water inlet mechanism and a noodle inlet mechanism;
the water inlet mechanism comprises a water storage tank, a water pump, a nozzle and a water inlet pipeline, a water source is stored in the water storage tank, the nozzle is arranged at a water inlet on the dough kneading barrel body, the water inlet pipeline is connected with the nozzle, the water pump and the water storage tank, the water pump changes water stored in the water storage tank into a high-pressure water source to be conveyed to the nozzle, and the nozzle sprays water into a fusion cavity of the water-powder fusion mechanism;
the flour feeding mechanism comprises a flour barrel, an auger conveyor and a flour feeding pipeline, flour raw materials are stored in the flour barrel, the flour barrel is connected with the auger conveyor and a flour feeding port on the flour mixing barrel body through the flour feeding pipeline, and the auger conveyor conveys the flour raw materials in the flour barrel into a fusion cavity of the water-flour fusion mechanism.
As the preference of this bright wet noodle machine, this bright wet noodle machine still includes scrapes the face subassembly, scrape the face subassembly and include two scrapers and guide frame, two scrapers respectively with two compression rollers one-to-one of dough pressing mechanism, two scraper blade lower extreme fixed connection is in the rack both sides, two scraper blade upper portions are respectively supported and are leaned on the corresponding compression roller lateral wall that is close to the extrusion passageway position of dough pressing mechanism, guide frame and rack fixed connection, the guide frame upper end stretches to the extrusion passageway downside of dough pressing mechanism, the guide frame lower extreme stretches to the top between two tangent plane rollers that are close to tangent plane mechanism, the guide frame surface constitutes the guide passageway of transportation dough sheet to tangent plane mechanism.
As the preference of the fresh wet noodle machine, each group of stirring paddles comprises a plurality of first stirring paddles and a plurality of second stirring paddles, the plurality of first stirring paddles and the plurality of second stirring paddles are sequentially distributed at intervals, an inclination angle is formed between the first stirring paddles and the radial section of the fusion roller, and an inclination angle is formed between the second stirring paddles and the radial section of the fusion roller;
the inclination angle between the radial sections of the first stirring pulling piece and the fusion roller is larger than that between the radial sections of the second stirring pulling piece and the fusion roller.
As the preference of this bright wet noodle machine, the first stirring plectrum in two arbitrary adjacent groups stirring plectrums is crisscross to be distributed in the axial direction of fusion roller lateral wall, and the second stirring plectrum in two arbitrary adjacent groups stirring plectrums is crisscross to be distributed in the axial direction of fusion roller lateral wall also.
As the preference of this bright wet noodle machine, keep away from and fuse a plurality of archs outward on the first stirring plectrum terminal surface of roller lateral wall one side, keep away from and fuse a plurality of archs also outward on the second stirring plectrum terminal surface of roller lateral wall one side.
As the preference of this bright wet noodle machine, two end covers are respectively being in the first end cover of top and being in the second end cover of terminal, and first end cover side is equipped with the blender seat, is equipped with in the blender seat with first end cover complex spacing groove, can dismantle between blender seat and the bright wet noodle machine rack and be connected, and second end cover one side is equipped with the locking wheel of being connected with bright wet noodle machine rack.
As the preference of the fresh noodle machine, the mixer seat is detachably connected with the cabinet of the fresh noodle machine through a pull rod.
After the structure is adopted, the powder raw material on the inner surface of the powder barrel is conveyed into a fusion cavity of the water-powder fusion mechanism through a packing auger conveyor of the flour inlet mechanism, the powder raw material and water on the inner surface of the fusion cavity are fully and uniformly stirred to become dough, and then the dough enters an extrusion channel of the flour pressing mechanism to be extruded into a sheet through a compression roller;
the dough sheet that scrapes the dough subassembly with adhesion on the compression roller lateral wall surface is scraped to two scrapers, and the dough sheet falls into between two tangent planes rollers of tangent plane mechanism through the guide frame, and the shearing length of dough sheet is controlled to tangent plane mechanism, and the dough sheet is sheared into noodless after the grooving of two tangent planes rollers simultaneously, and noodless fall onto conveying mechanism's conveyer belt, accomplishes the preparation of bright wet noodles at last.
The fresh wet noodle machine reduces labor intensity, improves production efficiency, achieves unified sanitary standard and realizes industrialized mass production on the premise of meeting the taste of people on fresh wet noodles. Fresh and wet noodles with various specifications can be produced simultaneously according to the demands of customers.
In addition, powder in a powder inlet area can be driven to be conveyed towards the tail end direction of the fusion chamber by utilizing auger blades on the side wall of the fusion roller, a plurality of groups of stirring paddles on the side wall of the fusion roller are utilized for mixing flour raw materials and water, and as the first stirring paddles and the second stirring paddles are respectively inclined with the radial section of the fusion roller, the first stirring paddles and the second stirring paddles can extrude and fault-tolerant the fused flour raw materials and water, the first stirring paddles and the second stirring paddles are matched with the protrusions extending from the end faces of the first stirring paddles and the second stirring paddles, the protrusions can simulate the joint shape of hands of a person, and the artificial flour mixing process is simulated when the fusion roller rotates.
The fresh wet noodle machine has the beneficial technical effects that:
1. the flour stirring cutters in the water-powder fusion mechanism are arranged according to a certain rule and simulate manual full stirring of flour and water to obtain dough with uniform particle size; 2. the water content and the cutters can be switched at will, so that fresh wet noodles with various specifications can be made; 3. visual, full transparent dough making, safety and sanitation and eating safety; 4. the flour and the noodles only take a few seconds, so that the noodle is efficient and convenient; 5. the mixing proportion of water and flour is ensured to be accurate during working; 6. the process of stirring the flour is visualized, so that the flour is safe and sanitary and is safe to eat.
Drawings
Fig. 1 is a front view of an embodiment of the instant fresh noodle maker.
Fig. 2 is a rear view of an embodiment of the instant fresh noodle maker.
FIG. 3 is one of the perspective views of the water-powder fusion mechanism in the embodiment of the instant fresh noodle machine.
FIG. 4 is a second perspective view of a water-powder fusion mechanism in an embodiment of the instant noodle machine.
Fig. 5 is a third perspective view of the dough mixing mechanism (the dough kneading barrel is omitted in the drawing) in the embodiment of the instant noodle machine.
Fig. 6 is a rear view of the dough mixing mechanism (the dough kneading bucket is omitted in the drawing) in the embodiment of the instant noodle maker.
Fig. 7 is a cross-sectional view of a front view of a toner fusion mechanism (the mixer housing is omitted from the drawing) of an embodiment of the instant fresh noodle machine.
Fig. 8 is a perspective view of a mixer base in an embodiment of the instant fresh wet noodle machine.
Fig. 9 is a perspective view of a dough pressing mechanism and a dough scraping assembly in an embodiment of the instant fresh-wet noodle machine.
FIG. 10 is a perspective view of a dough cutting mechanism in an embodiment of the instant fresh noodle machine.
FIG. 11 is a perspective view of a slitting roller in an embodiment of the instant wet noodle machine.
FIG. 12 is a perspective view of a dough feeding mechanism in an embodiment of the instant fresh noodle machine.
Key number description: a water-powder fusion mechanism-1000; dough kneading ladle body-1100; powder inlet-1110; a water inlet-1120; a mouth-1130; a first end cap-1210; a second end cap-1220; a mixer base-1230; locking wheel-1240; limit groove-1231; fusion roller-1300; half-shafts-1310; auger blade-1320; a first stirring paddle-1331; a second stirring paddle-1332; discharge paddle-1340; powder feeding area-1410; fusion region-1420; a discharge region-1430; sensor-1500; a pull rod-1600; fusion motor-1700; a cabinet-2000; top plate-2100; back plate-2200; noodle pressing mechanism-3000; a press roll-3100; a dough pressing motor-3200; extrusion channel-3300; a dough cutting mechanism-4000; cut roll-4100; grooving-4110; cut surface motor-4200; a conveying mechanism-5000; storage water tank-6100; water pump-6200; nozzle-6300; drive motor-7100; powder barrel-7200; auger conveyor-7300; scraper-8100; guide frame-8200.
Detailed Description
In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit or scope of the utility model, which is therefore not limited to the specific embodiments disclosed below.
The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.
Please refer to fig. 1 to 12.
The fresh wet noodle machine comprises a cabinet 2000, a water-powder fusion mechanism 1000, a noodle pressing mechanism 3000, a noodle cutting mechanism 4000, a conveying mechanism 5000, a noodle scraping assembly, a water inlet mechanism and a noodle inlet mechanism.
The cabinet 2000 is substantially rectangular, the cabinet 2000 is made of stainless steel, and the water-powder fusion mechanism 1000, the noodle pressing mechanism 3000 and the noodle cutting mechanism 4000 are all disposed in the cabinet 2000.
The water-powder fusion mechanism 1000 further comprises a fusion motor 1700, a dough bowl 1100, a fusion roller 1300, a mixer base 1230, and two end caps.
The two end covers are respectively positioned at two sides of the dough kneading barrel body 1100, the two end covers are respectively positioned at a first end cover 1210 at a starting end and a second end cover 1220 at a tail end, a limiting groove 1231 matched with the first end cover 1210 is arranged in the mixer base 1230, the mixer base 1230 is detachably connected with the fresh wet noodle machine frame through a pull rod 1600, a locking wheel 1240 connected with the fresh wet noodle machine frame is arranged at one side of the second end cover 1220, and the positions of the dough kneading barrel body 1100, the fusion roller 1300, the mixer base 1230 and the two end covers are limited by the locking wheel 1240 and the limiting groove 1231 of the mixer base 1230 together.
The fusion roller 1300 is positioned in the dough kneading barrel body 1100, two end faces of the fusion roller 1300 are respectively extended with half shafts 1310 matched with two side end covers, the two half shafts 1310 of the fusion roller 1300 are respectively matched with the first end cover 1210 and the second end cover 1220 through bearings, the outer wall of the fusion roller 1300, the space between the inner wall of the dough kneading barrel body 1100 and the two end covers form a fusion chamber for mixing flour raw materials and water, and the fusion chamber is sequentially divided into a flour inlet area 1410, a fusion area 1420 and a discharging area 1430 from beginning to end.
The dough kneading barrel body 1100 is respectively provided with a powder inlet 1110, a water inlet 1120 and a dough outlet 1130 which are communicated with the fusion chamber, the powder inlet 1110 is communicated with a material box for storing flour raw materials outside, the powder inlet 1110 is aligned with a powder inlet area 1410 of the fusion chamber, the water inlet 1120 is communicated with an external water storage tank 6100, the water inlet 1120 is aligned with the beginning end of a fusion area 1420 of the fusion chamber, and the dough outlet 1130 is aligned with a discharging area 1430 of the fusion chamber.
The side wall of the fusion roller 1300 in the powder feeding area 1410 is fixedly connected with an auger blade 1320, and the auger blade 1320 drives powder in the powder feeding area 1410 to be conveyed towards the tail end of the fusion chamber.
The side wall of the fusion roller 1300 in the fusion area 1420 is fixedly connected with a plurality of groups of stirring paddles, and the plurality of groups of stirring paddles are uniformly distributed circumferentially along the axis direction of the fusion roller 1300.
Each set of stirring paddles includes a plurality of first stirring paddles 1331 and a plurality of second stirring paddles 1332, the plurality of first stirring paddles 1331 and the plurality of second stirring paddles 1332 are sequentially distributed at intervals, and a gap is also formed between each adjacent first stirring paddle 1331 and each adjacent second stirring paddle 1332 in the same set of stirring paddles, an inclination angle is formed between each first stirring paddle 1331 and a radial section of the fusion roller 1300, the inclination directions of the first stirring paddles 1331 and each second stirring paddle 1332 are opposite, the inclination angle between each first stirring paddle 1331 and the radial section of the fusion roller 1300 is 25-35 degrees, an inclination angle is formed between each second stirring paddle 1332 and the radial section of the fusion roller 1300, and an inclination angle between each second stirring paddle 1332 and the radial section of the fusion roller 1300 is 5-15 degrees (the inclination angle between each first stirring paddle 1331 and the radial section of the fusion roller 1300 is larger than the inclination angle between each second stirring paddle 1332 and the radial section of the fusion roller 1300).
In addition, the first stirring paddles 1331 of any two adjacent stirring paddles are staggered in the axial direction of the side wall of the fusion roller 1300, and the second stirring paddles 1332 of any two adjacent stirring paddles are also staggered in the axial direction of the side wall of the fusion roller 1300.
A plurality of smooth transition protrusions extend outwards from the end face of the first stirring blade 1331 far away from the side wall of the fusion roller 1300, and a plurality of smooth transition protrusions also extend outwards from the end face of the second stirring blade 1332 far away from the side wall of the fusion roller 1300.
The side wall of the fusion roller 1300 in the discharging area 1430 is fixedly connected with a discharging pulling piece 1340, and the rotating track of the discharging pulling piece 1340 passes through the area close to the outlet 1130.
And the outer wall of the dough kneading barrel 1100 is provided with a sensor 1500 for detecting the position of the second end cover 1220, the fusion motor 1700 is fixedly arranged on the backboard 2200 of the cabinet 2000, and the fusion motor 1700 drives the fusion roller 1300 to rotate through a belt transmission mechanism.
The dough pressing mechanism 3000 is located the water powder and fuses mechanism 1000 downside, dough pressing mechanism 3000 includes two compression rollers 3100, dough pressing motor 3200 passes through bolt fixed mounting on cabinet 2000 backplate 2200, two compression rollers 3100 support respectively on cabinet 2000, the trend direction of compression rollers 3100 is unanimous with the fore-and-aft direction, two compression rollers 3100 parallel arrangement, two compression rollers 3100 receive the drive of dough pressing motor 3200, two compression rollers 3100 rotate in opposite directions, constitute the extrusion passageway 3300 that supplies the dough to pass through between two compression rollers 3100, the face mouth 1130 of water powder fuses mechanism 1000 and face ladle body 1100 aligns extrusion passageway 3300 upside, the dough is extruded into the face skin after extrusion passageway 3300.
The dough cutting mechanism 4000 comprises two dough cutting rollers 4100 and a dough cutting motor 4200, the dough cutting motor 4200 is fixedly mounted on the back plate 2200 of the cabinet 2000 through bolts, the two dough cutting rollers 4100 are respectively supported on the cabinet 2000, the two dough cutting rollers 4100 are arranged in parallel, the dough cutting motor 4200 drives the two dough cutting rollers 4100 through a belt transmission mechanism, the side walls of the two dough cutting rollers 4100 are abutted against each other and the two dough cutting rollers 4100 rotate in opposite directions, a plurality of circumferentially extending cutting grooves 4110 are sequentially formed in the side walls of the dough cutting rollers 4100 along the axial direction of the side walls of the dough cutting rollers 4100, the cutting grooves 4110 on the side wall surfaces of the two dough cutting rollers 4100 in the dough cutting mechanism 4000 are distributed in a staggered manner, the lower side of a pressing channel 3300 of the dough pressing mechanism 3000 is aligned to the upper side of an area between the two dough cutting rollers 4100, and dough is cut into noodles after passing through the cutting grooves 4110 of the two dough cutting rollers 4100.
The conveying mechanism 5000 is also mounted on the cabinet 2000, the conveying mechanism 5000 is a belt conveyor, a conveying track of a conveying belt of the conveying mechanism 5000 passes through the lower part of a region between two cutting rollers 4100 in the cutting mechanism 4000, and the tail end of the conveying belt of the conveying mechanism 5000 extends out of the cabinet 2000.
The water inlet mechanism comprises a water storage tank 6100, a water pump 6200, a nozzle 6300 and a water inlet pipeline, wherein a water source is stored in the water storage tank 6100, the nozzle 6300 is arranged at a water inlet 1120 on the dough kneading barrel body 1100, the water inlet pipeline is connected with the nozzle 6300, the water pump 6200 and the water storage tank 6100, the water pump 6200 is used for conveying water stored in the water storage tank 6100 into a high-pressure water source to the nozzle 6300, the nozzle 6300 is used for spraying water into a fusion cavity of the water-powder fusion mechanism 1000, and the water pump 6200 is fixedly arranged on a top plate 2100 of the cabinet 2000.
The flour feeding mechanism comprises a driving motor 7100, a flour bucket 7200, an auger conveyor 7300 and a flour feeding pipeline, wherein the feeding motor is fixedly arranged on a backboard 2200 of the machine cabinet 2000 through bolts, the flour bucket 7200 is fixedly arranged at the top end of the machine cabinet 2000, flour raw materials are stored in the flour bucket 7200, the flour bucket 7200 is connected with the auger conveyor 7300 and a flour feeding port 1110 on the flour mixing bucket 1100 through the flour feeding pipeline, the driving motor 7100 drives the auger conveyor 7300 and a water pump 6200 of the water feeding mechanism to rotate through a transmission mechanism, the auger conveyor 7300 conveys the flour raw materials in the flour bucket 7200 into a fusion cavity of the water-flour fusion mechanism 1000, and the driving motor 7100 and the auger conveyor 7300 are fixedly arranged on a top plate 2100 of the machine cabinet 2000.
The scraping assembly comprises two scraping plates 8100 and a guide frame 8200, the two scraping plates 8100 are respectively in one-to-one correspondence with the two pressing rollers 3100 of the dough pressing mechanism 3000, the lower ends of the two scraping plates 8100 are fixedly connected to two sides of the machine cabinet 2000, the upper parts of the two scraping plates 8100 respectively lean against the side walls of the corresponding pressing rollers 3100 close to the position of the pressing channel 3300 of the dough pressing mechanism 3000, the length direction of the scraping plates 8100 is consistent with the axial length direction of the pressing rollers 3100, the guide frame 8200 is fixedly connected with the machine cabinet 2000, the upper ends of the guide frame 8200 extend to the lower side of the pressing channel 3300 of the dough pressing mechanism 3000, the lower ends of the guide frame 8200 extend to the upper part between the two dough cutting rollers 4100 close to the dough cutting mechanism 4000, and the surface of the guide frame 8200 forms a guide channel for transporting dough sheets to the dough cutting mechanism 4000.
Before the fresh noodle machine is used, the fusion roller 1300 of the water-powder fusion mechanism 1000 is placed into the dough kneading barrel body 1100, so that the water-powder fusion mechanism and the dough kneading barrel body simultaneously press the mixer seat 1230, the fusion roller 1300 and the dough kneading barrel body 1100 are coaxial, then the second end cover 1220 is locked by the locking wheel 1240, and finally the pull rod 1600 is pulled, so that the outlet of the material box and the water inlet pipe are aligned with the water inlet 1120 and the powder inlet 1110 of the dough kneading barrel body 1100 respectively.
When the fresh wet noodle machine works, the powder raw material on the inner surface of the powder barrel 7200 is conveyed into a fusion cavity of the water-powder fusion mechanism 1000 through the auger conveyor 7300 of the noodle inlet mechanism, the powder raw material and water on the inner surface of the fusion cavity are fully and uniformly stirred to become dough, and then the dough enters the extrusion channel 3300 of the noodle pressing mechanism 3000 to be extruded into a sheet through the compression roller 3100;
the two scrapers 8100 of the dough scraping assembly scrape the dough sheets adhered to the side wall surfaces of the press roller 3100, the dough sheets fall between the two dough cutting rollers 4100 of the dough cutting mechanism 4000 through the guide frame 8200, the dough cutting mechanism 4000 controls the shearing length of dough sheets, meanwhile, the dough sheets are sheared into noodles after passing through the cutting grooves 4110 of the two dough cutting rollers 4100, the noodles fall onto a conveying belt of the conveying mechanism 5000, and finally the fresh wet noodles are manufactured; wherein the dough cutting mechanism 4000 can replace the dough cutting roller 4100 as required.
The fresh wet noodle machine can be added with a control circuit, and the control circuit controls the water inlet mechanism and the noodle inlet mechanism, namely controls the inlet amount and the inlet flow of flour raw materials so as to adjust the water content of each noodle and produce fresh wet noodle strips with various specifications.
After the operation of the water-powder fusion mechanism 1000 is completed, the pull rod 1600 is pushed inwards, then the dough kneading head is held by hands, the locking wheel 1240 is loosened, the first end cover 1210 is opened, and finally the fusion roller 1300 and the dough kneading barrel 1100 are taken out for cleaning.
The platen motor 3200, the tangent plane motor 4200, and the drive motor 7100 are all gear motors.
The foregoing is merely one embodiment of the utility model, and it should be noted that variations and modifications could be made by those skilled in the art without departing from the principles of the utility model, which would also be considered to fall within the scope of the utility model.
Claims (10)
1. A fresh wet noodle machine is characterized in that:
the machine comprises a machine cabinet (2000), a water powder fusion mechanism (1000), a noodle pressing mechanism (3000) and a noodle cutting mechanism (4000), wherein the water powder fusion mechanism (1000), the noodle pressing mechanism (3000) and the noodle cutting mechanism (4000) are all arranged in the machine cabinet (2000);
the water powder fusion mechanism (1000) comprises a dough kneading barrel body (1100), a fusion roller (1300) and two end covers, wherein the two end covers are respectively arranged at two sides of the dough kneading barrel body (1100), the fusion roller (1300) is positioned in the dough kneading barrel body (1100), two end faces of the fusion roller (1300) are respectively extended with half shafts (1310) matched with the end covers at two sides, the outer wall of the fusion roller (1300), the inner wall of the dough kneading barrel body (1100) and the space between the two end covers form a fusion chamber for mixing flour raw materials and water, the fusion chamber is sequentially divided into a flour inlet region (1410), a fusion region (1420) and a discharging region (1430) from beginning to end, powder inlet (1110), water inlet (1120) and outlet (1130) which are communicated with the fusion chamber are respectively arranged on the dough mixing barrel body (1100), the powder inlet (1110) is aligned to a powder inlet area (1410) of the fusion chamber, the water inlet (1120) is aligned to the beginning end of a fusion area (1420) of the fusion chamber, the outlet (1130) is aligned to a discharging area (1430) of the fusion chamber, the side wall of the fusion roller (1300) in the powder inlet area (1410) is fixedly connected with a auger blade (1320), the auger blade (1320) drives powder in the powder inlet area (1410) to be conveyed towards the tail end of the fusion chamber, the side wall of the fusion roller (1300) in the fusion area (1420) is fixedly connected with a plurality of groups of stirring paddles, the plurality of groups of stirring paddles are circumferentially distributed along the axis direction of the fusion roller (1300), the side wall of the fusion roller (1300) in the discharging area (1430) is fixedly connected with a discharging paddle (1340), and the rotating track of the discharging paddle (1340) passes through the position area close to the surface opening (1130);
the dough pressing mechanism (3000) comprises two pressing rollers (3100), the two pressing rollers (3100) are respectively supported on the machine cabinet (2000), the two pressing rollers (3100) rotate in opposite directions, an extrusion channel (3300) for dough to pass through is formed between the two pressing rollers (3100), a water-powder fusion mechanism (1000) and a dough outlet (1130) of the dough barrel body (1100) are aligned to the upper side of the extrusion channel (3300), and the dough is extruded into dough sheets after passing through the extrusion channel (3300);
the dough cutting mechanism (4000) comprises two dough cutting rollers (4100), the two dough cutting rollers (4100) are respectively supported on the cabinet (2000), the side walls of the two dough cutting rollers (4100) are mutually abutted against and the two dough cutting rollers (4100) rotate in opposite directions, a plurality of circumferentially extending slots (4110) are sequentially formed in the side walls of the dough cutting rollers (4100) along the axial direction of the side walls, the lower side of an extrusion channel (3300) of the dough pressing mechanism (3000) is aligned with the upper side of an area between the two dough cutting rollers (4100), and dough sheets are sheared into noodles after passing through the slots (4110) of the two dough cutting rollers (4100).
2. The fresh wet noodle machine according to claim 1, characterized in that:
the cutting grooves (4110) on the side wall surfaces of the two cutting rollers (4100) in the cutting mechanism (4000) are distributed in a staggered mode.
3. The fresh wet noodle machine according to claim 1, characterized in that:
the cutting machine further comprises a conveying mechanism (5000), the conveying mechanism (5000) is arranged on the cabinet (2000), and a conveying track of a conveying belt of the conveying mechanism (5000) passes through the lower part of an area between two cutting rollers (4100) in the cutting mechanism (4000).
4. The fresh wet noodle machine according to claim 1, characterized in that:
the device also comprises a water inlet mechanism and a surface inlet mechanism;
the water inlet mechanism comprises a water storage tank (6100), a water pump (6200), a nozzle (6300) and a water inlet pipeline, wherein a water source is stored in the water storage tank (6100), the nozzle (6300) is arranged at a water inlet (1120) on the dough kneading barrel body (1100), the water inlet pipeline is connected with the nozzle (6300), the water pump (6200) and the water storage tank (6100), the water pump (6200) changes water stored in the water storage tank (6100) into a high-pressure water source to be conveyed to the nozzle (6300), and the nozzle (6300) sprays water into a fusion cavity of the water-powder fusion mechanism (1000);
the flour feeding mechanism comprises a flour barrel (7200), an auger conveyor (7300) and a flour feeding pipeline, flour raw materials are stored in the flour barrel (7200), the flour barrel (7200) is connected with the auger conveyor (7300) and a flour feeding port (1110) on a flour barrel body (1100) through the flour feeding pipeline, and the auger conveyor (7300) conveys the flour raw materials in the flour barrel (7200) into a fusion cavity of the water-flour fusion mechanism (1000).
5. The fresh wet noodle machine according to claim 1, characterized in that:
the noodle scraping device comprises a noodle scraping mechanism, and is characterized by further comprising a noodle scraping assembly, wherein the noodle scraping assembly comprises two scrapers (8100) and a guide frame (8200), the two scrapers (8100) are respectively in one-to-one correspondence with two press rollers (3100) of a noodle pressing mechanism (3000), the lower ends of the two scrapers (8100) are fixedly connected to two sides of a cabinet (2000), the upper parts of the two scrapers (8100) respectively lean against the side walls of the corresponding press rollers (3100) close to the extrusion channel (3300) of the noodle pressing mechanism (3000), the guide frame (8200) is fixedly connected with the cabinet (2000), the upper end of the guide frame (8200) extends to the lower side of the extrusion channel (3300) of the noodle pressing mechanism (3000), and the lower end of the guide frame (8200) extends to the upper part between the two noodle cutting rollers (4100) close to the noodle cutting mechanism (4000), and the surface of the guide frame (8200) forms a guide channel for conveying a noodle to the noodle cutting mechanism (4000).
6. The fresh wet noodle machine according to claim 1, characterized in that:
each group of stirring paddles comprises a plurality of first stirring paddles (1331) and a plurality of second stirring paddles (1332), the plurality of first stirring paddles (1331) and the plurality of second stirring paddles (1332) are sequentially distributed at intervals, an inclination angle is formed between the first stirring paddles (1331) and the radial section of the fusion roller (1300), and an inclination angle is formed between the second stirring paddles (1332) and the radial section of the fusion roller (1300);
the inclination angle between the first stirring blade (1331) and the radial section of the fusion roller (1300) is larger than the inclination angle between the second stirring blade (1332) and the radial section of the fusion roller (1300).
7. The fresh wet noodle machine according to claim 6, wherein:
the first stirring paddles (1331) in any two adjacent groups of stirring paddles are distributed in a staggered manner in the axial direction of the side wall of the fusion roller (1300), and the second stirring paddles (1332) in any two adjacent groups of stirring paddles are also distributed in a staggered manner in the axial direction of the side wall of the fusion roller (1300).
8. The fresh wet noodle machine according to claim 7, wherein:
a plurality of protrusions extend outwards from the end face of the first stirring pulling piece (1331) on one side far away from the side wall of the fusion roller (1300), and a plurality of protrusions also extend outwards from the end face of the second stirring pulling piece (1332) on one side far away from the side wall of the fusion roller (1300).
9. The fresh wet noodle machine according to claim 1, characterized in that:
the two end covers are respectively a first end cover (1210) at a start end and a second end cover (1220) at a tail end, a mixer seat (1230) is arranged at the side of the first end cover (1210), a limiting groove (1231) matched with the first end cover (1210) is arranged in the mixer seat (1230), the mixer seat (1230) is detachably connected with a fresh-wet noodle machine cabinet (2000), and a locking wheel (1240) connected with the fresh-wet noodle machine cabinet (2000) is arranged at one side of the second end cover (1220).
10. The fresh wet noodle machine according to claim 9, characterized in that:
the mixer base (1230) is detachably connected with the cabinet (2000) of the fresh wet noodle machine through a pull rod (1600).
Priority Applications (1)
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CN202322114798.XU CN220734215U (en) | 2023-08-04 | 2023-08-04 | Fresh wet noodle machine |
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CN202322114798.XU CN220734215U (en) | 2023-08-04 | 2023-08-04 | Fresh wet noodle machine |
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CN220734215U true CN220734215U (en) | 2024-04-09 |
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CN202322114798.XU Active CN220734215U (en) | 2023-08-04 | 2023-08-04 | Fresh wet noodle machine |
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2023
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