CN113068730A - Material device is mixed in processing of manual vermicelli end of a noodle - Google Patents

Abstract

The invention discloses a material mixing device for processing handmade fine dried noodle heads, which comprises a base, an oil draining cylinder and a material mixing cylinder, wherein the oil draining cylinder is arranged on the base; the base is provided with an oil draining cylinder and a mixing cylinder, and the oil draining cylinder is positioned at the front end of the mixing cylinder; an oil leaching inner barrel is arranged in the oil leaching barrel, and an oil leaching feeding port and an oil leaching discharging port are respectively arranged at the front end and the rear end of the oil leaching inner barrel; the front end of the oil draining cylinder is provided with an oil draining rotating shaft motor, the center of the oil draining rotating shaft motor penetrates through an oil draining feeding port, and the front end of the oil draining feeding port penetrates out of the oil draining rotating shaft motor; a mixing inner cylinder is arranged in the mixing cylinder, and a mixing material inlet and a mixing material outlet are respectively arranged at the front end and the rear end of the mixing inner cylinder; a material mixing rotating shaft motor is installed at the rear end of the material mixing barrel, a material mixing discharge port penetrates through the center of the material mixing rotating shaft motor, and the rear end of the material mixing discharge port penetrates out of the material mixing rotating shaft motor; the invention has the characteristics of quick oil leaching, low oil residue, automatic noodle scraps elimination, uniform material mixing, high seasoning utilization rate and strong production cost reduction capability.

Description

Material device is mixed in processing of manual vermicelli end of a noodle

Technical Field

The invention relates to a noodle head processing and mixing device for manual fine dried noodles, in particular to a noodle head processing and mixing device for manual fine dried noodles, which has the advantages of quick oil draining, low oil liquid residue, automatic noodle head scrap removing, uniform material mixing, high seasoning utilization rate and strong production cost reducing capability.

Background

The hand-made dried noodles are made up of wheat flour, edible salt and water through manual drawing, hanging, drying and cutting to obtain dried noodles. The hand-made fine dried noodles are cooked after being boiled for two to three minutes by boiled water, are suitable for fast food, can be eaten by marinating, can be fished out after being cooked excessively in summer to be used as cold noodles by cold water, can also be used as spicy noodles after being used as cold water, and the like, are not tired of eating all the time, and are deeply popular with the masses.

When the traditional manual fine dried noodles are processed, the remaining noodle heads on the noodle chopsticks can be hung after the noodles are cut; the flour head is easy to firmly adhere to the surface of the flour hanging chopsticks in the drying process; the firmly adhered dough often needs to be peeled off from the flour hanging chopsticks by a knife, and the breakage rate of the peeled dough is high. In the process of making the fine dried noodles, the mass ratio of the noodle heads to the fine dried noodles is usually 13-20: 85, and the noodle heads serving as waste materials are reused to be made into fried flavor snacks; after the dough is fried, oil needs to be drained, and seasonings need to be mixed with seasonings;

oil is always remained on the surface of the fried dough, and the traditional standing oil leaching time is long and much oil remains; the dough heads on which the oil is drained need to be uniformly stirred with seasonings, the dough heads are continuously turned over or stirred by a stirring paddle in the prior art, the stirring time is long, the uniformity is poor, a large amount of dough head scraps are easily generated and mixed into the dough heads to be packaged with the mixed materials, and a screening process needs to be added; the seasoning is mixed with the oil liquid remained on the surface of the dough head to easily generate seasoning paste or seasoning blocks, which causes seasoning waste, and the seasoning is easily mixed into the dough head and packaged into a bag.

Disclosure of Invention

The invention aims to provide the material mixing device for processing the noodle heads of the manual fine dried noodles, which has the advantages of quick oil leaching, low oil residue, automatic noodle head scraps removing, uniform material mixing, high seasoning utilization rate and strong production cost reduction capability. The purpose of the invention can be realized by the following technical scheme:

a material mixing device for processing the noodle heads of manual fine dried noodles comprises a base, an oil draining cylinder, a material mixing cylinder, an oil draining cylinder lifting column, a oil collecting port, a material mixing cylinder lifting column, a material mixing cylinder angle adjusting wheel, a material penetrating contraction pipe, an oil draining material inlet, an oil draining rotating shaft motor, a material mixing cylinder supporting rotating shaft, an oil draining material outlet, a material mixing material inlet, a seasoning injection bin door, an outer ring tooth of the material mixing cylinder, a material mixing rotating shaft motor, a material mixing material outlet, an oil draining inner cylinder, an oil draining net, a material mixing inner cylinder, a seasoning draining net, a seasoning mixing inner cylinder outer scraping plate, a material mixing cylinder inner scraping plate and a grinding sieve;

the base is provided with an oil draining cylinder and a mixing cylinder, and the oil draining cylinder is positioned at the front end of the mixing cylinder;

an oil leaching inner barrel is arranged in the oil leaching barrel, and an oil leaching feeding port and an oil leaching discharging port are respectively arranged at the front end and the rear end of the oil leaching inner barrel; the front end of the oil draining cylinder is provided with an oil draining rotating shaft motor, the center of the oil draining rotating shaft motor penetrates through an oil draining feeding port, and the front end of the oil draining feeding port penetrates out of the oil draining rotating shaft motor; the oil leaching rotating shaft motor drives the oil leaching inner barrel to rotate around the central shaft; an oil collecting port is arranged below the oil draining cylinder;

a mixing inner cylinder is arranged in the mixing cylinder, and a mixing material inlet and a mixing material outlet are respectively arranged at the front end and the rear end of the mixing inner cylinder; a material mixing rotating shaft motor is installed at the rear end of the material mixing barrel, a material mixing discharge port penetrates through the center of the material mixing rotating shaft motor, and the rear end of the material mixing discharge port penetrates out of the material mixing rotating shaft motor; the stirring rotating shaft motor drives the stirring inner cylinder to rotate around the central shaft;

a seasoning injection bin gate and a seasoning mixing barrel outer wheel ring gear are arranged on the outer side of the seasoning mixing barrel, and the seasoning mixing barrel is arranged in a seasoning mixing outer rotating shaft motor on a seasoning mixing barrel lifting column through the seasoning mixing barrel outer wheel ring gear; the stirring barrel is driven to rotate by the stirring outer rotating shaft motor; a seasoning injection bin door is arranged on one side of the outer wheel ring teeth of the seasoning barrel;

an inner scraping plate of the material mixing barrel is arranged on the inner wall of the material mixing barrel on the inner side of the seasoning injection bin door, and an abrasive screen is arranged below the inner scraping plate of the material mixing barrel; the inner scraper and the abrasive screen of the material mixing barrel are fixed in the material mixing barrel outside the material mixing inner barrel; the top end of the scraping plate in the mixing cylinder props against the inner surface of the mixing cylinder;

the grinding material sieve comprises a material homogenizing groove, an upper grinding material screen plate, a material leaking groove and a lower grinding material screen plate, wherein the material homogenizing groove is positioned above the material leaking groove, and the material homogenizing groove and the material leaking groove are mutually attached; the material homogenizing groove and the material leaking groove mutually reciprocate and horizontally move; an upper abrasive screen plate and a lower abrasive screen plate are respectively arranged on the opposite surfaces of the material homogenizing groove and the material leaking groove; two ends of the scraper in the mixing cylinder above the material homogenizing groove do not exceed the range of the material homogenizing groove;

an outer scraping plate of the mixing inner cylinder is arranged in the mixing cylinder below the mixing inner cylinder, and the top end of the outer scraping plate of the mixing inner cylinder props against the outer surface of the mixing inner cylinder;

the stirring inner cylinder is a cylinder with two narrowed ends, a seasoning draining net of the stirring inner cylinder is arranged on the stirring inner cylinder, and the seasoning draining net of the stirring inner cylinder is used as a middle straight cylinder part of the stirring inner cylinder; meshes on the seasoning draining net of the inner seasoning mixing barrel penetrate through the inside and the outside of the inner seasoning mixing barrel;

two stirring barrel supporting rotating shafts are arranged on the outer side of the oil draining barrel, the two stirring barrel supporting rotating shafts are respectively positioned at the front end and the rear end of the oil draining barrel, and the stirring barrel supporting rotating shafts are fixedly arranged on the base through oil draining barrel lifting columns;

a rotating shaft material mixing barrel angle adjusting wheel is arranged outside a material mixing outer rotating shaft motor on the outer side of the material mixing barrel, the material mixing barrel angle adjusting wheel is arranged on a material mixing barrel lifting column, and the bottom end of the material mixing barrel lifting column is arranged on the upper surface of the base;

the oil leaching discharge port is provided with a material penetrating shrinkage pipe, the material penetrating shrinkage pipe comprises an oil leaching discharge port connecting pipe, a telescopic pipe barrel and a material mixing and feeding port connecting pipe, and the oil leaching discharge port connecting pipe and the material mixing and feeding port connecting pipe are connected through the telescopic pipe barrel; the oil leaching discharge port connecting pipe and the material mixing feed port connecting pipe are respectively matched with the oil leaching discharge port and the material mixing feed port;

the scraper in the material mixing barrel covers the middle straight barrel area in the material mixing barrel;

the outer scraper of the mixing inner cylinder covers the middle straight cylinder area outside the mixing inner cylinder.

The invention provides a noodle head processing and mixing device for manual fine dried noodles, which has the characteristics of quick oil draining, low oil liquid residue, automatic noodle head scrap removal, uniform mixing, high seasoning utilization rate and production cost reduction. The invention has the beneficial effects that: oil is always remained on the surface of the fried dough, and the traditional standing oil leaching time is long and much oil remains; the fried dough heads are placed into the oil leaching inner barrel, the oil leaching inner barrel rotates along with the oil leaching rotating shaft motor in a variable speed mode, the dough heads in the oil leaching inner barrel are turned over at a low rotating speed and centrifugally thrown at a high rotating speed in the oil leaching inner barrel, and the thrown oil passes through an oil leaching net, falls into the bottom side of the oil leaching inner barrel and is discharged through an oil collecting port; the fried dough scraps are thrown out through the high-speed rotation of the material mixing inner cylinder, and the dough scraps are automatically removed;

the dough heads of which the oil is drained need to be uniformly stirred with seasonings, the traditional method of continuously turning or stirring by a stirring paddle is long in stirring time and poor in uniformity, a large amount of dough head scraps are easily generated and mixed into the dough heads of which the materials are stirred to be packaged, a screening process needs to be added, the yield is reduced, and the manufacturing cost is increased; putting the dough heads with the dry oil into the stirring inner barrel from a stirring material feeding port, rotating the stirring inner barrel to flatly spread the dough heads on a seasoning draining net of the stirring inner barrel, and turning the dough heads continuously along with the rotation of the seasoning draining net of the stirring inner barrel so that the seasonings are uniformly adhered to the surfaces of the dough heads;

the seasoning is added into the seasoning barrel after the seasoning injection bin door is opened, and then the seasoning injection bin door is closed, so that the seasoning is prevented from leaking out of the seasoning injection bin; the seasonings are poured into a bin and spread on the inner seasoning mixing barrel from the upper part of the seasoning draining net of the inner seasoning mixing barrel; the seasonings penetrate through meshes of the seasoning draining net of the seasoning stirring inner barrel and fall on the surface of the dough in the seasoning stirring inner barrel; in the rotation process of the inner stirring barrel, redundant seasonings pass through the inner stirring barrel seasoning draining net and fall onto the inner side wall of the stirring barrel to be mixed with a small amount of oil thrown out of the inner head of the stirring barrel into paste or blocks;

pasty or blocky seasonings scraped by a scraper in the stirring barrel fall into a material homogenizing groove in a grinding sieve, horizontally reciprocate along with the material homogenizing groove, are spread on the material homogenizing groove, and after being extruded and cut on the contact surface of the material homogenizing groove and the material leaking groove, the pasty or blocky seasonings fall into a seasoning draining net in the stirring inner barrel from the lower part of the material leaking groove and fall onto a surface head in the stirring inner barrel again, so that the seasoning utilization rate is improved, and the production cost is reduced;

when the dough head in the oil draining cylinder is transferred into the mixing cylinder, the connecting pipe of the mixing material inlet is unfastened, and the connecting pipe of the mixing material inlet is arranged on the mixing material inlet; then adjusting the oil draining cylinder lifting column, the material mixing cylinder lifting column and the material mixing cylinder angle adjusting wheel, inclining the oil draining cylinder and the material mixing cylinder, and enabling the oil draining cylinder to be higher than the material mixing cylinder; then the dough head in the oil leaching inner cylinder falls into the material stirring inner cylinder through the shaking of the oil leaching cylinder lifting column; after the dough head is transported, the material mixing feeding port connecting pipe is separated from the material mixing feeding port, and the material mixing feeding port connecting pipe is folded and fixed on the oil leaching discharging port connecting pipe again, so that the damage of the material penetrating shrinkage pipe along with the rotation of the oil leaching inner cylinder is avoided.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of a device for mixing dough for processing handmade fine dried noodles of the present invention;

FIG. 2 is a perspective structural schematic view of an oil draining cylinder of the device for processing and mixing the noodle heads of the manual fine dried noodles;

FIG. 3 is a perspective structural diagram of a material mixing barrel of the device for processing and mixing the noodle heads of the hand-made fine dried noodles;

FIG. 4 is an enlarged view of FIG. 2 at A;

fig. 5 is an enlarged view of fig. 3 at B.

Detailed Description

The purpose of the invention can be realized by the following technical scheme:

a manual fine dried noodle dough processing and mixing device is shown in figures 1-5 and comprises a base 1, an oil draining cylinder 2, a mixing cylinder 3, an oil draining cylinder lifting column 4, an oil collecting port 5, a mixing cylinder lifting column 6, a mixing cylinder angle adjusting wheel 7, a material penetrating and contracting pipe 8, an oil draining inlet 9, an oil draining rotating shaft motor 10, a mixing cylinder supporting rotating shaft 11, an oil draining outlet 12, a mixing inlet 13, a seasoning injection bin door 14, a mixing cylinder outer wheel ring gear 15, a mixing rotating shaft motor 16, a mixing outlet 17, an oil draining inner cylinder 18, an oil draining net 19, a mixing inner cylinder 20, a mixing inner cylinder seasoning draining net 21, a mixing inner cylinder outer scraping plate 22, a mixing cylinder inner scraping plate 23 and a grinding material sieve 24;

the base 1 is provided with an oil draining cylinder 2 and a stirring cylinder 3, and the oil draining cylinder 2 is positioned at the front end of the stirring cylinder 3; after the fried dough heads are quickly drained in the oil draining cylinder 2, the fried dough heads are transferred into the material mixing cylinder 3 to be uniformly mixed with seasonings;

an oil leaching inner barrel 18 is arranged in the oil leaching barrel 2, and an oil leaching feeding port 9 and an oil leaching discharging port 12 are respectively arranged at the front end and the rear end of the oil leaching inner barrel 18; the front end of the oil draining cylinder 2 is provided with an oil draining rotating shaft motor 10, the center of the oil draining rotating shaft motor 10 penetrates through an oil draining feeding port 9, and the front end of the oil draining feeding port 9 penetrates out of the oil draining rotating shaft motor 10; the oil leaching rotating shaft motor 10 drives the oil leaching inner barrel 18 to rotate around the central shaft; an oil receiving port 5 is arranged below the oil draining cylinder 2; oil is always remained on the surface of the fried dough, and the traditional standing oil leaching time is long and much oil remains; the fried dough sticks are placed into the oil leaching inner barrel 18, the oil leaching inner barrel 18 rotates with the oil leaching rotating shaft motor 10 in a variable speed mode, the dough sticks in the oil leaching inner barrel 18 are turned over at a low rotating speed and centrifugally thrown at a high rotating speed in the oil leaching inner barrel 18, and the thrown oil passes through an oil leaching net 19, falls into the inner bottom side of the oil leaching barrel 2 and is discharged through an oil collecting port 5; the fried flour head scraps are also thrown out through the high-speed rotation of the material mixing inner cylinder 20, and the flour head scraps are automatically removed;

a material mixing inner cylinder 20 is arranged in the material mixing cylinder 3, and a material mixing feeding port 13 and a material mixing discharging port 17 are respectively arranged at the front end and the rear end of the material mixing inner cylinder 20; a material mixing rotating shaft motor 16 is arranged at the rear end of the material mixing barrel 3, a material mixing discharge port 17 penetrates through the center of the material mixing rotating shaft motor 16, and the rear end of the material mixing discharge port 17 penetrates out of the material mixing rotating shaft motor 16; the stirring rotating shaft motor 16 drives the stirring inner cylinder 20 to rotate around the central shaft; the dough heads of which the oil is drained need to be uniformly stirred with seasonings, the traditional method of continuously turning or stirring by a stirring paddle is long in stirring time and poor in uniformity, a large amount of dough head scraps are easily generated and mixed into the dough heads of which the materials are stirred to be packaged, a screening process needs to be added, the yield is reduced, and the manufacturing cost is increased; putting the dough head with the drained oil into the stirring inner cylinder 20 from the stirring material feeding port 13, rotating the stirring inner cylinder 20 to flatly spread the dough head on the seasoning draining net 21 of the stirring inner cylinder, and turning the dough head continuously along with the rotation of the seasoning draining net 21 of the stirring inner cylinder to ensure that the seasoning is uniformly adhered on the surface of the dough head;

a seasoning injection bin gate 14 and a seasoning mixing barrel outer wheel ring gear 15 are arranged on the outer side of the seasoning mixing barrel 3, and the seasoning mixing barrel 3 is arranged in a seasoning mixing outer rotating shaft motor on the seasoning mixing barrel lifting column 6 through the seasoning mixing barrel outer wheel ring gear 15; the stirring barrel 3 is driven to rotate by a stirring outer rotating shaft motor; a seasoning injection bin door 14 is arranged on one side of an outer ring gear 15 of the seasoning barrel, seasoning is added into the seasoning barrel 3 after the seasoning injection bin door 14 is opened, and then the seasoning injection bin door 14 is closed, so that the seasoning is prevented from leaking out of the seasoning injection bin; the seasonings are spread on the inner stirring barrel 20 from the upper part of the inner stirring barrel seasoning draining net 21 through a seasoning filling bin; the seasonings pass through meshes of the seasoning draining net 21 of the seasoning mixing inner barrel and fall on the surface of the dough in the seasoning mixing inner barrel 20; in the rotation process of the stirring inner cylinder 20, redundant seasonings pass through the stirring inner cylinder seasoning draining net 21 and fall onto the inner side wall of the stirring cylinder 3 to be mixed with a small amount of oil thrown out of the inner head of the stirring cylinder 3 into paste or block;

an inner scraping plate 23 of the mixing barrel is arranged on the inner wall of the mixing barrel 3 at the inner side of the seasoning injection bin door 14, and an abrasive screen 24 is arranged below the inner scraping plate 23 of the mixing barrel; the inner scraping plate 23 and the abrasive screen 24 of the material mixing barrel are fixed in the material mixing barrel 3 outside the material mixing inner barrel 20; the top end of the scraping plate 23 in the stirring cylinder props against the inner surface of the stirring cylinder 3; the stirring cylinder 3 rotates, the seasoning belt on the inner side wall of the stirring cylinder 3 is conveyed to the scraping plate 23 in the stirring cylinder, and the seasoning belt is scraped by the scraping plate 23 in the stirring cylinder and falls into the grinding sieve 24;

the abrasive screen 24 comprises a material homogenizing groove 241, an upper abrasive screen plate 242, a material leaking groove 243 and a lower abrasive screen plate 244, wherein the material homogenizing groove 241 is positioned above the material leaking groove 243, and the material homogenizing groove 241 and the material leaking groove 243 are mutually attached; the material homogenizing groove 241 and the material leaking groove 243 reciprocate horizontally in opposite directions; the opposite surfaces of the material homogenizing groove 241 and the material leaking groove 243 are respectively provided with an upper abrasive screen plate 242 and a lower abrasive screen plate 244; two ends of the scraping plate 23 in the mixing barrel above the homogenizing groove 241 do not exceed the range of the homogenizing groove 241; pasty or blocky seasonings scraped by the scraping plate 23 in the stirring barrel fall into the material homogenizing groove 241 in the grinding sieve 24, horizontally reciprocate along with the material homogenizing groove 241, are spread on the material homogenizing groove 241, and after being extruded and cut on the contact surface of the material homogenizing groove 241 and the material leaking groove 243, the pasty or blocky seasonings pass through the seasoning draining net 21 of the stirring inner barrel from the lower part of the material leaking groove 243 and fall onto the surface head in the stirring inner barrel 20 again, so that the seasoning utilization rate is improved, and the production cost is reduced;

a stirring inner cylinder outer scraper 22 is arranged in the stirring cylinder 3 below the stirring inner cylinder 20, and the top end of the stirring inner cylinder outer scraper 22 props against the outer surface of the stirring inner cylinder 20; pasty or blocky seasonings which are easy to remain on the outer surface of the seasoning draining net 21 of the inner stirring barrel are scraped into the seasoning barrel 3 below the seasoning draining net 21 of the inner stirring barrel by the outer scraping plate 22 of the inner stirring barrel;

the stirring inner cylinder 20 is a cylinder with two narrowed ends, the stirring inner cylinder 20 is provided with a stirring inner cylinder seasoning draining net 21, and the stirring inner cylinder seasoning draining net 21 is used as a middle straight cylinder part of the stirring inner cylinder 20; the meshes on the seasoning draining net 21 of the inner stirring barrel penetrate through the inside and the outside of the inner stirring barrel 20;

two stirring barrel supporting rotating shafts 11 are arranged on the outer side of the oil draining barrel 2, the two stirring barrel supporting rotating shafts 11 are respectively positioned at the front end and the rear end of the oil draining barrel 2, and the stirring barrel supporting rotating shafts 11 are fixedly arranged on the base 1 through oil draining barrel lifting columns 4; when the oil leaching cylinders 2 are used for injecting or discharging materials, the heights of the two oil leaching cylinder lifting columns 4 are adjusted, so that the materials are conveniently injected or discharged;

a rotating shaft material mixing barrel angle adjusting wheel 7 is mounted outside the material mixing outer rotating shaft motor on the outer side of the material mixing barrel 3, the material mixing barrel angle adjusting wheel 7 is arranged on a material mixing barrel lifting column 6, and the bottom end of the material mixing barrel lifting column 6 is mounted on the upper surface of the base 1; the inclination angle of the stirring cylinder 3 is changed by adjusting the angle adjusting wheel 7 of the stirring cylinder, so that the material can be conveniently injected or discharged from the stirring cylinder 3;

the oil leaching discharge port 12 is provided with a material penetrating shrinkage pipe 8, the material penetrating shrinkage pipe 8 comprises an oil leaching discharge port connecting pipe 81, a telescopic pipe barrel 82 and a material mixing and feeding port connecting pipe 83, and the oil leaching discharge port connecting pipe 81 and the material mixing and feeding port connecting pipe 83 are connected through the telescopic pipe barrel 82; the oil leaching discharge port connecting pipe 81 and the material mixing and feeding port connecting pipe 83 are respectively matched with the oil leaching discharge port 12 and the material mixing and feeding port 13; when the dough head in the oil leaching barrel 2 is transferred into the material mixing barrel 3, the material mixing and feeding port connecting pipe 83 is unfastened, and the material mixing and feeding port connecting pipe 83 is installed on the material mixing and feeding port 13; then adjusting an oil draining cylinder lifting column 4, a material mixing cylinder lifting column 6 and a material mixing cylinder angle adjusting wheel 7, inclining the oil draining cylinder 2 and the material mixing cylinder 3, and enabling the oil draining cylinder 2 to be higher than the material mixing cylinder 3; then the dough head in the oil leaching inner cylinder 18 falls into the material stirring inner cylinder 20 through the shaking of the oil leaching cylinder lifting column 4; after the dough is transported, the material mixing and feeding port connecting pipe 83 is separated from the material mixing and feeding port 13 and is folded and fixed on the oil leaching and discharging port connecting pipe 81 again, so that the material penetrating shrinkage pipe 8 is prevented from rotating and being damaged along with the oil leaching inner cylinder 18;

the inner scraper 23 of the mixing barrel covers the middle straight barrel area in the mixing barrel 3;

the stirring inner barrel outer scraper 22 covers the middle straight barrel area outside the stirring inner barrel 20.

The working principle of the invention is as follows:

the invention is provided with an oil draining cylinder 2 and a stirring cylinder 3 on a base 1, wherein the oil draining cylinder 2 is positioned at the front end of the stirring cylinder 3; after the fried dough heads are quickly drained in the oil draining cylinder 2, the fried dough heads are transferred into the material mixing cylinder 3 to be uniformly mixed with seasonings;

oil is always remained on the surface of the fried dough, and the traditional standing oil leaching time is long and much oil remains; the fried dough sticks are placed into the oil leaching inner barrel 18, the oil leaching inner barrel 18 rotates with the oil leaching rotating shaft motor 10 in a variable speed mode, the dough sticks in the oil leaching inner barrel 18 are turned over at a low rotating speed and centrifugally thrown at a high rotating speed in the oil leaching inner barrel 18, and the thrown oil passes through an oil leaching net 19, falls into the inner bottom side of the oil leaching barrel 2 and is discharged through an oil collecting port 5; the fried flour head scraps are also thrown out through the high-speed rotation of the material mixing inner cylinder 20, and the flour head scraps are automatically removed;

the dough heads of which the oil is drained need to be uniformly stirred with seasonings, the traditional method of continuously turning or stirring by a stirring paddle is long in stirring time and poor in uniformity, a large amount of dough head scraps are easily generated and mixed into the dough heads of which the materials are stirred to be packaged, a screening process needs to be added, the yield is reduced, and the manufacturing cost is increased; putting the dough head with the drained oil into the stirring inner cylinder 20 from the stirring material feeding port 13, rotating the stirring inner cylinder 20 to flatly spread the dough head on the seasoning draining net 21 of the stirring inner cylinder, and turning the dough head continuously along with the rotation of the seasoning draining net 21 of the stirring inner cylinder to ensure that the seasoning is uniformly adhered on the surface of the dough head;

the seasoning is added into the seasoning barrel 3 after the seasoning injection bin door 14 is opened, and then the seasoning injection bin door 14 is closed, so that the seasoning is prevented from leaking out of the seasoning injection bin; the seasonings are spread on the inner stirring barrel 20 from the upper part of the inner stirring barrel seasoning draining net 21 through a seasoning filling bin; the seasonings pass through meshes of the seasoning draining net 21 of the seasoning mixing inner barrel and fall on the surface of the dough in the seasoning mixing inner barrel 20; in the rotation process of the stirring inner cylinder 20, redundant seasonings pass through the stirring inner cylinder seasoning draining net 21 and fall onto the inner side wall of the stirring cylinder 3 to be mixed with a small amount of oil thrown out of the inner head of the stirring cylinder 3 into paste or block;

the stirring cylinder 3 rotates, the seasoning belt on the inner side wall of the stirring cylinder 3 is conveyed to the scraping plate 23 in the stirring cylinder, and the seasoning belt is scraped by the scraping plate 23 in the stirring cylinder and falls into the grinding sieve 24;

pasty or blocky seasonings scraped by the scraping plate 23 in the stirring barrel fall into the material homogenizing groove 241 in the grinding sieve 24, horizontally reciprocate along with the material homogenizing groove 241, are spread on the material homogenizing groove 241, and after being extruded and cut on the contact surface of the material homogenizing groove 241 and the material leaking groove 243, the pasty or blocky seasonings pass through the seasoning draining net 21 of the stirring inner barrel from the lower part of the material leaking groove 243 and fall onto the surface head in the stirring inner barrel 20 again, so that the seasoning utilization rate is improved, and the production cost is reduced;

pasty or blocky seasonings which are easy to remain on the outer surface of the seasoning draining net 21 of the inner stirring barrel are scraped into the seasoning barrel 3 below the seasoning draining net 21 of the inner stirring barrel by the outer scraping plate 22 of the inner stirring barrel;

when the oil leaching cylinders 2 are used for injecting or discharging materials, the heights of the two oil leaching cylinder lifting columns 4 are adjusted, so that the materials are conveniently injected or discharged;

the inclination angle of the stirring cylinder 3 is changed by adjusting the angle adjusting wheel 7 of the stirring cylinder, so that the material can be conveniently injected or discharged from the stirring cylinder 3;

when the dough head in the oil leaching barrel 2 is transferred into the material mixing barrel 3, the material mixing and feeding port connecting pipe 83 is unfastened, and the material mixing and feeding port connecting pipe 83 is installed on the material mixing and feeding port 13; then adjusting an oil draining cylinder lifting column 4, a material mixing cylinder lifting column 6 and a material mixing cylinder angle adjusting wheel 7, inclining the oil draining cylinder 2 and the material mixing cylinder 3, and enabling the oil draining cylinder 2 to be higher than the material mixing cylinder 3; then the dough head in the oil leaching inner cylinder 18 falls into the material stirring inner cylinder 20 through the shaking of the oil leaching cylinder lifting column 4; after the dough is transported, the material mixing and feeding port connecting pipe 83 is separated from the material mixing and feeding port 13 and is folded and fixed on the oil leaching and discharging port connecting pipe 81 again, so that the damage of the material penetrating shrinkage pipe 8 caused by the rotation of the oil leaching inner cylinder 18 is avoided.

The invention provides a noodle head processing and mixing device for manual fine dried noodles, which has the characteristics of quick oil draining, low oil liquid residue, automatic noodle head scrap removal, uniform mixing, high seasoning utilization rate and production cost reduction. The invention has the beneficial effects that: oil is always remained on the surface of the fried dough, and the traditional standing oil leaching time is long and much oil remains; the fried dough heads are placed into the oil leaching inner barrel, the oil leaching inner barrel rotates along with the oil leaching rotating shaft motor in a variable speed mode, the dough heads in the oil leaching inner barrel are turned over at a low rotating speed and centrifugally thrown at a high rotating speed in the oil leaching inner barrel, and the thrown oil passes through an oil leaching net, falls into the bottom side of the oil leaching inner barrel and is discharged through an oil collecting port; the fried dough scraps are thrown out through the high-speed rotation of the material mixing inner cylinder, and the dough scraps are automatically removed;

the dough heads of which the oil is drained need to be uniformly stirred with seasonings, the traditional method of continuously turning or stirring by a stirring paddle is long in stirring time and poor in uniformity, a large amount of dough head scraps are easily generated and mixed into the dough heads of which the materials are stirred to be packaged, a screening process needs to be added, the yield is reduced, and the manufacturing cost is increased; putting the dough heads with the dry oil into the stirring inner barrel from a stirring material feeding port, rotating the stirring inner barrel to flatly spread the dough heads on a seasoning draining net of the stirring inner barrel, and turning the dough heads continuously along with the rotation of the seasoning draining net of the stirring inner barrel so that the seasonings are uniformly adhered to the surfaces of the dough heads;

the seasoning is added into the seasoning barrel after the seasoning injection bin door is opened, and then the seasoning injection bin door is closed, so that the seasoning is prevented from leaking out of the seasoning injection bin; the seasonings are poured into a bin and spread on the inner seasoning mixing barrel from the upper part of the seasoning draining net of the inner seasoning mixing barrel; the seasonings penetrate through meshes of the seasoning draining net of the seasoning stirring inner barrel and fall on the surface of the dough in the seasoning stirring inner barrel; in the rotation process of the inner stirring barrel, redundant seasonings pass through the inner stirring barrel seasoning draining net and fall onto the inner side wall of the stirring barrel to be mixed with a small amount of oil thrown out of the inner head of the stirring barrel into paste or blocks;

pasty or blocky seasonings scraped by a scraper in the stirring barrel fall into a material homogenizing groove in a grinding sieve, horizontally reciprocate along with the material homogenizing groove, are spread on the material homogenizing groove, and after being extruded and cut on the contact surface of the material homogenizing groove and the material leaking groove, the pasty or blocky seasonings fall into a seasoning draining net in the stirring inner barrel from the lower part of the material leaking groove and fall onto a surface head in the stirring inner barrel again, so that the seasoning utilization rate is improved, and the production cost is reduced;

when the dough head in the oil draining cylinder is transferred into the mixing cylinder, the connecting pipe of the mixing material inlet is unfastened, and the connecting pipe of the mixing material inlet is arranged on the mixing material inlet; then adjusting the oil draining cylinder lifting column, the material mixing cylinder lifting column and the material mixing cylinder angle adjusting wheel, inclining the oil draining cylinder and the material mixing cylinder, and enabling the oil draining cylinder to be higher than the material mixing cylinder; then the dough head in the oil leaching inner cylinder falls into the material stirring inner cylinder through the shaking of the oil leaching cylinder lifting column; after the dough head is transported, the material mixing feeding port connecting pipe is separated from the material mixing feeding port, and the material mixing feeding port connecting pipe is folded and fixed on the oil leaching discharging port connecting pipe again, so that the damage of the material penetrating shrinkage pipe along with the rotation of the oil leaching inner cylinder is avoided.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (9)

1. A material mixing device for processing noodle heads of manual fine dried noodles comprises a base (1), an oil draining cylinder (2), a material mixing cylinder (3), an oil draining cylinder lifting column (4), an oil collecting port (5), a material mixing cylinder lifting column (6), a material mixing cylinder angle adjusting wheel (7), a material penetrating shrinkage pipe (8), an oil draining feeding port (9), an oil draining rotating shaft motor (10), a material mixing cylinder supporting rotating shaft (11), an oil draining discharging port (12), a material mixing feeding port (13), a seasoning injection bin door (14), a material mixing cylinder outer wheel ring tooth (15), a material mixing rotating shaft motor (16), a material mixing discharging port (17), an oil draining inner cylinder (18), an oil draining net (19), a material mixing inner cylinder (20), a material mixing inner cylinder seasoning draining net (21), a material mixing inner cylinder outer scraping plate (22), a material mixing cylinder inner scraping plate (23) and a grinding material sieve (24), and is characterized in that;

the base (1) is provided with an oil draining cylinder (2) and a stirring cylinder (3), and the oil draining cylinder (2) is positioned at the front end of the stirring cylinder (3);

an oil leaching inner barrel (18) is arranged in the oil leaching barrel (2), and an oil leaching feeding port (9) and an oil leaching discharging port (12) are respectively arranged at the front end and the rear end of the oil leaching inner barrel (18); an oil draining rotating shaft motor (10) is installed at the front end of the oil draining cylinder (2), an oil draining feeding port (9) penetrates through the center of the oil draining rotating shaft motor (10), and the front end of the oil draining feeding port (9) penetrates out of the oil draining rotating shaft motor (10); the oil leaching rotating shaft motor (10) drives the oil leaching inner barrel (18) to rotate around the central shaft; an oil receiving port (5) is arranged below the oil draining cylinder (2);

a material mixing inner cylinder (20) is arranged in the material mixing cylinder (3), and a material mixing feeding port (13) and a material mixing discharging port (17) are respectively arranged at the front end and the rear end of the material mixing inner cylinder (20); a material mixing rotating shaft motor (16) is installed at the rear end of the material mixing barrel (3), a material mixing discharge port (17) penetrates through the center of the material mixing rotating shaft motor (16), and the rear end of the material mixing discharge port (17) penetrates out of the material mixing rotating shaft motor (16); the stirring rotating shaft motor (16) drives the stirring inner cylinder (20) to rotate around the central shaft;

a seasoning injection bin door (14) and a seasoning mixing barrel outer wheel annular tooth (15) are arranged on the outer side of the seasoning mixing barrel (3), and the seasoning mixing barrel (3) is arranged in a seasoning mixing outer rotating shaft motor on a seasoning mixing barrel lifting column (6) through the seasoning mixing barrel outer wheel annular tooth (15); the stirring barrel (3) is driven to rotate by the stirring outer rotating shaft motor; a seasoning injection bin door (14) is arranged on one side of the outer wheel ring tooth (15) of the seasoning mixing barrel.

2. The device for processing and mixing the fine dried noodle ends according to claim 1, wherein an inner scraping plate (23) of the mixing barrel is arranged on the inner wall of the mixing barrel (3) at the inner side of the seasoning injection bin door (14), and an abrasive screen (24) is arranged below the inner scraping plate (23) of the mixing barrel; an inner scraper (23) and an abrasive screen (24) of the material mixing barrel are fixed in the material mixing barrel (3) at the outer side of the material mixing inner barrel (20); the top end of the scraper (23) in the stirring cylinder is propped against the inner surface of the stirring cylinder (3).

3. The device for processing and mixing the noodle heads of the hand-made noodles according to claim 1, wherein the abrasive screen (24) comprises a material homogenizing groove (241), an upper abrasive screen plate (242), a material leaking groove (243) and a lower abrasive screen plate (244), the material homogenizing groove (241) is positioned above the material leaking groove (243), and the material homogenizing groove (241) and the material leaking groove (243) are mutually attached; the material homogenizing groove (241) and the material leaking groove (243) reciprocate horizontally in opposite directions; the opposite surfaces of the material homogenizing groove (241) and the material leaking groove (243) are respectively provided with an upper abrasive screen plate (242) and a lower abrasive screen plate (244); the two ends of the scraping plate (23) in the mixing barrel above the uniform trough (241) do not exceed the range of the uniform trough (241).

4. The device for processing and stirring the fine dried noodle ends according to claim 1, wherein a stirring inner barrel outer scraper (22) is arranged in the stirring barrel (3) below the stirring inner barrel (20), and the top end of the stirring inner barrel outer scraper (22) is propped against the outer surface of the stirring inner barrel (20).

5. The device for processing and stirring the fine dried noodle dough according to claim 1, wherein the stirring inner cylinder (20) is a cylinder with two narrowed ends, the stirring inner cylinder (20) is provided with a stirring inner cylinder seasoning draining net (21), and the stirring inner cylinder seasoning draining net (21) is used as the middle straight cylinder part of the stirring inner cylinder (20); the meshes on the seasoning draining net (21) of the inner stirring barrel penetrate through the inside and outside of the inner stirring barrel (20).

6. The device for processing and stirring the fine dried noodle heads manually according to claim 1, wherein two stirring barrel supporting rotating shafts (11) are arranged on the outer side of the oil draining barrel (2), the two stirring barrel supporting rotating shafts (11) are respectively positioned at the front end and the rear end of the oil draining barrel (2), and the stirring barrel supporting rotating shafts (11) are fixedly arranged on the base (1) through the oil draining barrel lifting column (4).

7. The device for processing and mixing the dough ends of hand-made fine dried noodles according to claim 1, wherein a rotating shaft material mixing barrel angle adjusting wheel (7) is installed outside a material mixing external rotating shaft motor outside the material mixing barrel (3), the material mixing barrel angle adjusting wheel (7) is arranged on a material mixing barrel lifting column (6), and the bottom end of the material mixing barrel lifting column (6) is installed on the upper surface of the base (1).

8. The device for processing and mixing the noodle heads of the hand-made fine dried noodles according to claim 1, wherein the oil leaching outlet (12) is provided with a material penetrating shrinkage pipe (8), the material penetrating shrinkage pipe (8) comprises an oil leaching outlet connecting pipe (81), a telescopic pipe barrel (82) and a material mixing inlet connecting pipe (83), and the oil leaching outlet connecting pipe (81) and the material mixing inlet connecting pipe (83) are connected through the telescopic pipe barrel (82); the oil leaching discharge port connecting pipe (81) and the material mixing feeding port connecting pipe (83) are respectively installed in a matching way with the oil leaching discharge port (12) and the material mixing feeding port (13).

9. The device for processing and mixing the fine dried noodle heads manually according to claim 1, characterized in that the scraping plate (23) in the mixing cylinder covers the middle straight cylinder area in the mixing cylinder (3);

the outer scraper (22) of the mixing inner cylinder covers the middle straight cylinder area outside the mixing inner cylinder (20).

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