CN113598400B - Stirring pressure equalizing type rice noodle uniform discharging device - Google Patents

Abstract

The invention relates to the technical field of rice noodle extruding, and particularly discloses a stirring pressure equalizing type rice noodle uniform discharging device which comprises a feeding barrel, a rice noodle extruding barrel communicated with the feeding barrel, and a first material shaft rotatably arranged in the feeding barrel, wherein the feeding barrel and the rice noodle extruding barrel are arranged in a crossed manner, and the first material shaft is used for conveying rice noodle gel materials in the feeding barrel into the rice noodle extruding barrel; the rice noodle maker further comprises a wire extruding plate arranged in the wire extruding cylinder and a second material shaft arranged in the wire extruding cylinder in a swinging or rotating mode, the second material shaft conveys rice flour gel along the length direction of the wire extruding cylinder, and the rice flour gel is discharged from the rice noodle maker through the wire extruding hole; the second material shaft swings or rotates, so that the rice flour gel material conveyed by the first material shaft moves along the length direction of the vermicelli extruding plate, rice vermicelli is uniformly extruded at different parts of the vermicelli extruding plate, the increase of subsequent treatment cost caused by nonuniform vermicelli extrusion is reduced, the manufacturing efficiency of the rice vermicelli is improved, and the production and processing cost of the rice vermicelli is reduced.

Description

Stirring pressure equalizing type rice noodle uniform discharging device

Technical Field

The invention relates to the technical field of rice noodle extruding, and particularly discloses a stirring pressure equalizing type uniform rice noodle discharging device.

Background

In the daily life process of people, various strip-shaped food materials are one of common food forms, for example, noodles and rice noodles are common strip-shaped food materials, and in the production and processing process of rice noodles, rice flour powder materials are steamed and cooked into rice flour gel materials, and then the rice flour gel materials are processed and extruded into rice noodles.

In the prior art, the rice noodle extruding device is unreasonable in design, rice noodles extruded from different extruding areas of the rice noodle extruding device are uneven, so that the rice noodle extruding quality is unstable on one hand, and the subsequent packaging treatment difference is very large due to the fact that the rice noodles extruded from the different extruding areas of the rice noodle extruding device are uneven on the other hand. In addition, the outer surface of the extruded rice-flour noodles can be exposed to a conjunctiva, the rice-flour noodles after the conjunctiva can reduce the adhesion among the rice-flour noodles, the rice-flour noodles are easy to loosen, and the conjunctiva is unstable due to the uneven extruded rice-flour noodles.

The uneven extrusion of the rice vermicelli in different extrusion areas of the extrusion equipment can cause the complexity of the subsequent rice vermicelli processing procedure, the low manufacturing efficiency of the rice vermicelli and the increase of the processing cost.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide the stirring and pressure-equalizing type rice noodle uniform discharging device, the second material shaft is used for swinging or rotating, so that rice noodle gel conveyed by the first material shaft moves along the length direction of the extruding plate, the pressure of the rice noodle gel corresponding to each part along the length direction of the extruding plate is uniform, rice noodle strips are uniformly extruded from different parts of the extruding plate, the manufacturing efficiency of the rice noodle strips is improved, and the production and processing cost of the rice noodle strips is reduced.

In order to achieve the purpose, the stirring pressure equalizing type rice flour uniform discharging device comprises a feeding cylinder, a rice flour extruding cylinder communicated with the feeding cylinder, and a first material shaft rotatably arranged in the feeding cylinder, wherein the central axis of the feeding cylinder is crossed with the central axis of the rice flour extruding cylinder, and the first material shaft is used for conveying rice flour gel materials in the feeding cylinder into the rice flour extruding cylinder; the rice flour vermicelli extruding device is characterized by further comprising a vermicelli extruding plate arranged in the vermicelli extruding cylinder and a second material shaft arranged in the vermicelli extruding cylinder in a swinging or rotating mode, wherein the second material shaft is used for conveying rice flour gel materials input by the first material shaft along the length direction of the vermicelli extruding cylinder, and the rice flour gel materials in the vermicelli extruding cylinder are discharged outside the vermicelli extruding cylinder through the vermicelli extruding hole of the vermicelli extruding plate.

The second material shaft is located in the material containing cavity, the extruding plate is used for covering an opening of the material containing cavity far away from one end of the material containing cavity, and rice flour gel materials in the feeding cylinder enter the pressure equalizing cavity through the material containing cavity.

The second material shaft comprises a shaft body part which is arranged in a rotating mode and a spiral blade which is arranged on the outer side of the shaft body part and extends spirally along the length direction of the shaft body part, and the spiral blade is formed by a plurality of stirring blades which are arranged in sequence.

The stirring blade is wedge-shaped, and the thickness of one end of the stirring blade is smaller than that of the other end of the stirring blade along the radial direction of the shaft body part.

Wherein, have the clearance of stepping down between two adjacent stirring blades.

Wherein, stirring vane is spiral arc, and stirring vane encircles axle somatic part and extends the setting along the length direction of axle somatic part.

The feeding cylinder is communicated with the middle of the wire extruding cylinder, the number of the spiral blades is two, the communication position of the feeding cylinder and the wire extruding cylinder is located between the two groups of spiral blades, and the spiral directions of the two groups of spiral blades are opposite.

Wherein, the quantity of pay-off section of thick bamboo is a plurality of, a plurality of pay-off section of thick bamboo parallel arrangement, all is equipped with the first stub axle of pivoted in each pay-off section of thick bamboo, and a plurality of pay-off section of thick bamboos all communicate the crowded silk section of thick bamboo.

The invention has the beneficial effects that: in the rice noodle extruding process, the second material shaft is utilized to swing or rotate, so that the rice noodle gel material conveyed by the first material shaft moves along the length direction of the noodle extruding plate, rice noodles are uniformly extruded from different parts of the noodle extruding plate, the increase of subsequent treatment cost caused by nonuniform extrusion is reduced, the manufacturing efficiency of the rice noodles is improved, and the production and processing cost of the rice noodles is reduced.

Drawings

FIG. 1 is a right side view of a cartridge of the present invention;

FIG. 2 is a front view of a cartridge of the present invention;

fig. 3 is a schematic structural diagram of two feed cylinders of the present invention.

The reference numerals include:

1-feeding cylinder 2-extruding cylinder 3-first material shaft

4-first power unit 5-wire extruding plate 6-second material shaft

7-second power unit 8-material containing cavity 9-pressure equalizing cavity

11-helical blade 12-inlet opening.

Detailed Description

For the understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

Referring to fig. 1 to 3, the stirring pressure equalizing type rice flour uniform discharging device of the present invention includes a feeding barrel 1, a extruding barrel 2 communicated with the feeding barrel 1, and a first material shaft 3 rotatably disposed in the feeding barrel 1, wherein the feeding barrel 1 and the extruding barrel 2 are made of metal materials, for example, the feeding barrel 1 and the extruding barrel 2 are made of stainless steel, the feeding barrel 1 and the extruding barrel 2 are both substantially hollow and cylindrical, a central axis of the feeding barrel 1 is crossed with a central axis of the extruding barrel 2, preferably, the central axis of the feeding barrel 1 is perpendicular to the central axis of the extruding barrel 2, in this embodiment, the feeding barrel 1 and the extruding barrel 2 are substantially arranged to form a T-shaped structure, the first material shaft 3 is used for conveying rice flour gel material in the feeding barrel 1 into the extruding barrel 2, of course, the feeding barrel 1 may be provided with a first power unit 4, and the first power unit 4 is used for driving the first material shaft 3 to rotate.

The stirring pressure equalizing type rice noodle uniform discharging device further comprises a extruding plate 5 arranged on the extruding cylinder 2 and a second material shaft 6 arranged in the extruding cylinder 2 in a swinging or rotating mode, a second power unit 7 can be installed and configured on the extruding cylinder 2, the second power unit 7 is used for driving the second material shaft 6 to move, and according to actual needs, the second power unit 7 can drive the second material shaft 6 to rotate in a forward and reverse reciprocating mode, namely the second material shaft 6 swings relative to the extruding cylinder 2; of course, the second power unit 7 can also drive the second material shaft 6 to rotate continuously in the clockwise direction or the counterclockwise direction.

The wire extruding plate 5 is a rectangular flat plate, the wire extruding plate 5 is provided with a plurality of wire extruding holes, the wire extruding holes penetrate through the wire extruding plate 5 along the thickness direction of the wire extruding plate 5, and the wire extruding holes are arranged along the length direction of the wire extruding cylinder 2; the second material shaft 6 is used for conveying the rice flour gel material input by the first material shaft 3 along the length direction of the extruding cylinder 2, and the rice flour gel material in the extruding cylinder 2 is discharged out of the extruding cylinder 2 through the extruding hole of the extruding plate 5 to form rice flour strips.

In the rice noodle extruding process, the first power unit 4 drives the first material shaft 3 to rotate, the first material shaft 3 automatically conveys rice noodle gel in the feeding cylinder 1 into the extruding cylinder 2, because the length of the extruding cylinder 2 is greater than the width of a communication part between the feeding cylinder 1 and the extruding cylinder 2, the pressures of the rice noodle gel at different parts of the extruding cylinder 2 in the length direction are unequal, that is, the pressures of the rice noodle corresponding to the extruding holes at different parts of the extruding plate 5 in the length direction are unequal, at the moment, the second power unit 7 drives the second material shaft 6 to swing or rotate, and the second material shaft 6 is used for swinging or rotating, so that the rice noodle gel conveyed into the extruding cylinder 2 by the first material shaft 3 moves along the length direction of the extruding plate 5, the gel can flow and fill by means of the pressure difference between the rice noodles at different parts of the extruding plate 5 in the length direction, the pressure between the rice noodle gel at different parts of the extruding plate 5 in the length direction is even, the rice noodle gel can flow and fill, further, the rice noodle extruding efficiency of the rice noodle producing is improved, the rice noodle producing cost is reduced, and the rice noodle producing cost is reduced.

The wire extruding cylinder 2 is provided with a material accommodating cavity 8, a pressure equalizing cavity 9 communicated with the material accommodating cavity 8 and located below the material accommodating cavity 8, the main body profile of the material accommodating cavity 8 is cylindrical, the main body shape of the pressure equalizing cavity 9 is cuboid, the second material shaft 6 is located in the material accommodating cavity 8, the wire extruding plate 5 is used for covering the opening of the pressure equalizing cavity 9 far away from one end of the material accommodating cavity 8, the inner diameter of the material accommodating cavity 8 is larger than the width of the pressure equalizing cavity 9, and rice gel in the feeding cylinder 1 enters the pressure equalizing cavity 9 through the material accommodating cavity 8.

Through the structural design of the material containing cavity 8 and the pressure equalizing cavity 9, the rice flour coagulation material in the material containing cavity 8 can quickly and continuously enter the pressure equalizing cavity 9, and the rice flour coagulation material in the pressure equalizing cavity 9 can move along the length direction of the wire extruding plate 5 by means of the second material shaft 6, so that the rice flour coagulation material in the pressure equalizing cavity 9 is in a dense state, and the wire extruding uniformity of wire extruding holes in different areas of the wire extruding plate 5 is further improved.

The second material shaft 6 includes a shaft portion provided rotatably, and a helical blade 11 provided outside the shaft portion and extending helically in the longitudinal direction of the shaft portion, the shaft portion being substantially cylindrical, and the helical blade 11 being formed by a plurality of stirring blades arranged in this order.

In the rotation process of the second material shaft 6, on one hand, the rice flour gel material moves along the length direction of the vermicelli extruding plate 5, and on the other hand, the rice flour gel material is sheared by the aid of the stirring blade of the spiral blade 11, so that the particle size of the rice flour gel material is reduced, and the uniformity of vermicelli extrusion is further improved in an auxiliary manner.

Preferably, the stirring blade has a wedge shape, and a thickness of one end of the stirring blade is smaller than a thickness of the other end of the stirring blade in a radial direction of the shaft body portion. With the help of the wedge-shaped structure of the stirring blade, the stirring blade can conveniently enter the rice flour gel, and the convenience and high efficiency of shearing the rice flour gel by the stirring blade are improved.

Preferably, a clearance is reserved between two adjacent stirring blades. In the conveying process of the second material shaft 6 to the rice flour gel, the rice flour gel can move through the abdicating gap, and the stirring and mixing yield of the rice flour gel is further improved.

The middle parts of the feeding barrel 1 and the thread extruding barrel 2 are communicated, the number of the spiral blades 11 is two, the communication position of the feeding barrel 1 and the thread extruding barrel 2 is positioned between the two groups of spiral blades 11, and the spiral directions of the two groups of spiral blades 11 are opposite. After the rice flour gel material in the feeding cylinder 1 enters the extruding cylinder 2, the second material shaft 6 drives the two groups of helical blades 11 to rotate, so that the rice flour gel material input by the feeding cylinder 1 moves towards two ends of the extruding cylinder 2 respectively, and compared with the rice flour gel material moving towards one end of the extruding cylinder 2, the rice flour gel material feeding device improves the extruding efficiency and assists in improving the extruding uniformity.

In this embodiment, a feed inlet 12 is arranged at one end of the feed cylinder 1 far away from the filament extruding cylinder 2, external rice flour gel enters the feed cylinder 1 through the feed inlet 12, and the first rotating material shaft 3 can convey the rice flour gel entering through the feed inlet 12 to the filament extruding cylinder 2.

The quantity of feed cylinder 1 is a plurality of, a plurality of feed cylinder 1 parallel arrangement, all is equipped with first stub axle 3 of pivoted in each feed cylinder 1, and a plurality of feed cylinders 1 all communicate crowded silk section of thick bamboo 2. By increasing the number of the feeding cylinders 1, the sufficiency of the rice flour gel material input into the extruding cylinder 2 is ensured, and the phenomenon that the rice flour gel material in the extruding cylinder 2 is insufficient to cause discontinuous disconnection in the rice noodle extruding process is avoided.

The steam exhaust device further comprises a steam exhaust pipe communicated with the feeding barrel 1, the steam exhaust pipe and the feeding barrel 1 are of an integrated structure, an included angle between the steam exhaust pipe and the feeding barrel 1 is an acute angle, for example, the included angle between the steam exhaust pipe and the feeding barrel 1 is an acute angle of 10 degrees, 20 degrees, 30 degrees, 45 degrees or 60 degrees, and the like, the steam exhaust hole is formed in the steam exhaust pipe and penetrates through the steam exhaust pipe.

In this embodiment, all the filament extruding holes of the filament extruding plate 5 are arranged in a collinear manner, that is, all the filament extruding holes on the filament extruding plate 5 are arranged in a straight line, all the filament extruding holes of the filament extruding plate 5 form a plurality of filament extruding areas, the filament extruding areas are arranged at intervals along the length direction of the filament extruding plate 5, each filament extruding area is provided with a plurality of filament extruding holes, the filament extruding holes of the same filament extruding area are arranged at equal intervals, and the distance between the filament extruding holes of two adjacent filament extruding areas is greater than the distance between two adjacent filament extruding holes in the same filament extruding area.

During the in-service use, the rice-flour noodle that each crowded silk district extrudes forms one, and the rice-flour noodle that a plurality of crowded silk districts extrude forms many, with the help of the even characteristic of rice-flour noodle of crowded silk hole discharge in different crowded silk districts, only need prescribe a limit to the length of the rice-flour noodle that crowded silk district extrudes, can realize the automatic calculation gravity to the rice-flour noodle, cancel the process of weighing among the prior art, reduction production and processing cost.

In addition, all crowded silk holes collineation on the crowded silk board 5 set up and arrange into the straight line for the rice noodle that crowded silk board 5 was extruded is in the individual layer state, and after the rice noodle that crowded silk board 5 was extruded discharged crowded silk section of thick bamboo 2, the air outside of individual layer rice noodle direct contact makes the rice noodle see the wind fast conjunctiva, forms the thin layer of cladding in the rice noodle outside promptly, promotes the cooling efficiency of rice noodle, avoids the rice noodle to adhere each other and uses badly.

The above description is only a preferred embodiment of the present invention, and it should not be understood that the present invention is limited to the details of the embodiment and the range of applications, which can be changed by those skilled in the art according to the spirit of the present invention.

Claims (3)

1. A stirring pressure equalizing type rice flour uniform discharging device comprises a feeding barrel, a rice flour extruding barrel communicated with the feeding barrel, and a first material shaft rotatably arranged in the feeding barrel, wherein the central axis of the feeding barrel is crossed with the central axis of the rice flour extruding barrel, and the first material shaft is used for conveying rice flour gel materials in the feeding barrel into the rice flour extruding barrel; the method is characterized in that: the rice flour vermicelli extruding device comprises a first material shaft, a second material shaft, a vermicelli extruding plate and a vermicelli extruding plate, wherein the first material shaft is arranged in the vermicelli extruding cylinder;

the wire extruding cylinder is provided with a material accommodating cavity and a pressure equalizing cavity which is communicated with the material accommodating cavity and is positioned below the material accommodating cavity, the second material shaft is positioned in the material accommodating cavity, the wire extruding plate is used for covering an opening of the pressure equalizing cavity, which is far away from one end of the material accommodating cavity, and rice flour gel material in the feeding cylinder enters the pressure equalizing cavity through the material accommodating cavity;

the inner diameter of the material containing cavity is larger than the width of the pressure equalizing cavity;

the steam exhaust pipe is communicated with the feeding barrel, the steam exhaust pipe and the feeding barrel are of an integrated structure, and an included angle between the steam exhaust pipe and the feeding barrel is an acute angle;

the second material shaft comprises a shaft body part which is arranged in a rotating way and a spiral blade which is arranged at the outer side of the shaft body part and extends spirally along the length direction of the shaft body part, and the spiral blade is formed by a plurality of stirring blades which are arranged in sequence;

the stirring blade is wedge-shaped, and the thickness of one end of the stirring blade is smaller than that of the other end of the stirring blade along the radial direction of the shaft body part;

a yielding gap is formed between every two adjacent stirring blades;

the quantity of pay-off section of thick bamboo is a plurality of, a plurality of pay-off section of thick bamboo parallel arrangement, all is equipped with the first stub axle of pivoted in each pay-off section of thick bamboo, and a plurality of pay-off section of thick bamboos all communicate a crowded silk section of thick bamboo.

2. The stirring pressure equalizing type rice flour uniform discharging device according to claim 1, characterized in that: the stirring blade is spiral arc, and the stirring blade encircles axle somatic part and extends the setting along the length direction of axle somatic part.

3. The stirring pressure equalizing type rice flour uniform discharging device according to claim 1, characterized in that: the feeding cylinder is communicated with the middle of the wire extruding cylinder, the number of the spiral blades is two, the communication position of the feeding cylinder and the wire extruding cylinder is positioned between the two groups of spiral blades, and the spiral directions of the two groups of spiral blades are opposite.

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