CN113080360A

CN113080360A - High-speed shearing and steaming self-curing device

Info

Publication number: CN113080360A
Application number: CN202110345244.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-29
Filing date: 2021-03-29
Publication date: 2021-07-09

Abstract

The invention relates to the technical field of material steaming, and particularly discloses a high-speed shearing steaming self-curing device which comprises a material barrel part and a material supply shaft which is rotatably arranged in the material barrel part; the device also comprises a feeding blade and a shearing blade which are spirally wound on the outer side of the feeding shaft; the shearing blade comprises a plurality of blades, the feeding shaft is provided with a first hole body, and the blades are provided with second hole bodies communicated with the first hole bodies; the material to be steamed enters the material containing cavity through the feeding hole, steam enters the material containing cavity through the first hole body and the second hole body and steams the material in the material containing cavity, the feeding blade is used for conveying the material entering the material containing cavity through the feeding hole to the shearing blade, the shearing blade carries out shearing treatment on the material conveyed by the feeding blade, and the material after the shearing treatment of the shearing blade is discharged through the discharging hole; the blade realizes in step that the automatic cutout and the steaming of material promote the steamed efficiency and the homogeneity that evaporates of material, and on the other hand realizes the automatic transport of material when cuting, promotes the conveying efficiency of material.

Description

High-speed shearing and steaming self-curing device

Technical Field

The invention relates to the technical field of material steaming, and particularly discloses a high-speed shearing steaming self-curing device.

Background

Rice flour and the like are one of common food in daily life processes of people, rice flour needs to be steamed in the manufacturing process of the rice flour, the process of steaming the rice flour in the prior art is troublesome and labor-consuming, on one hand, the steaming efficiency of the rice flour is low, on the other hand, the raw rice flour is not uniform, on the other hand, the conveying efficiency in the rice flour processing process is relatively low, and the requirements of actual production cannot be met.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide the high-speed shearing steaming self-curing device.

In order to achieve the purpose, the high-speed shearing and steaming self-curing device comprises a material barrel part and a material supply shaft which is rotatably arranged in the material barrel part; the feeding blade and the shearing blade are spirally wound on the outer side of the feeding shaft and are arranged along the length direction of the feeding shaft; the shearing blade comprises a plurality of blades, the blades are spirally arranged along the length direction of the feeding shaft and around the central axis of the feeding shaft, the feeding shaft is provided with a first hole body, and the blades are provided with second hole bodies communicated with the first hole body; the feed cylinder spare has the material chamber of holding, with feed port and the discharge opening that holds the material chamber intercommunication, wait to evaporate ripe material and get into via the feed port and hold the material intracavity, external steam is held the material intracavity and is used for evaporating ripe material that holds via first hole body, second hole body entering, and feed vane is used for will holding the material of expecting the intracavity via the feed port and carries to shearing blade, and shearing blade carries the material to shearing blade, and shearing blade shears the material of handling back material via the discharge opening and discharges.

The number of the second hole bodies is multiple, and each blade corresponds to the second hole bodies.

Wherein, still including setting up in the tailstock of feed cylinder spare one end, the one end of feed shaft rotates and sets up in the tailstock, and the feed shaft is provided with the steam pipe with first hole body intercommunication, and the steam pipe runs through the tailstock, and the steam pipe is provided with the rotary joint who is located outside the tailstock, and external steam supply equipment rotates the setting with the steam pipe via rotary joint.

Wherein, still including the spiral around establishing the blade of maturing certainly in the feed shaft outside, the shearing blade is located feed blade and the blade of maturing certainly between, and the blade of maturing certainly is used for carrying out extrusion friction to the material that the shearing blade was carried, and the material after the blade extrusion friction of maturing certainly discharges via the discharge opening.

The self-curing type feeding device is characterized by further comprising a counter-rotating blade spirally wound on the outer side of the feeding shaft, wherein the self-curing blade is located between the shearing blade and the counter-rotating blade, the spiral direction of the feeding blade, the spiral direction of the shearing blade and the spiral direction of the self-curing blade are the same, the spiral direction of the self-curing blade and the spiral direction of the counter-rotating blade are opposite, and the discharge hole is located between the self-curing blade and the counter-rotating blade.

Wherein, still including setting up in the supporting seat of the feed cylinder spare other end, rotating and flexible the setting in the thimble spare of supporting seat, the feed axle is provided with the bell mouth, and thimble spare has and is used for stretching into the toper portion in the bell mouth, and the lateral surface of toper portion contradicts the hole side of bell mouth.

The feeding shaft is provided with a non-circular hole which is formed by the concave arrangement of the end surface of the feeding shaft, and the conical hole is formed by the concave arrangement of the bottom surface of the non-circular hole; the thimble piece has non-circular portion, and the toper portion is established from non-circular portion protrudingly and is formed, and non-circular portion holds and establishes in non-circular hole, and the lateral surface of non-circular portion is used for conflicting non-circular hole's hole side.

The cooling device comprises a thimble piece, a water hole is formed in the thimble piece, the thimble piece is provided with a water inlet, the water hole is communicated with the cooling unit, and the cooling unit is used for inputting cooling water into the water hole.

Wherein, still include the discharge valve, the feed cylinder spare is provided with the exhaust hole with holding the material chamber intercommunication, and discharge valve is used for regulating and control the opening or closing of exhaust hole.

The invention has the beneficial effects that: when the high-speed shearing steaming self-curing device is used, the feeding blade is used for conveying the material entering the material containing cavity through the feeding hole to the shearing blade, the shearing blade carries out shearing treatment on the material conveyed by the feeding blade, and the material sheared by the shearing blade is discharged through the discharging hole; the shearing blade realizes the automatically cropped curing to the material in step on the one hand, promotes the ripe efficiency that evaporates and the ripe homogeneity that evaporates of material, and on the other hand realizes the automatic transport of material when cuting, promotes the conveying efficiency of material.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a partially enlarged schematic structural view of a portion a in fig. 1.

The reference numerals include:

1-charging barrel component 2-feeding shaft 3-feeding blade

4-shearing blade 5-blade 6-containing cavity

7-first hole body 8-tailstock 9-steam pipe

11-self-cooked blade 12-counter-rotating blade 13-supporting seat

14-ejector pin 15-tapered hole 16-tapered portion.

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 2, the high-speed shearing steaming self-curing device of the present invention includes a material cylinder 1, a feeding shaft 2 rotatably disposed in the material cylinder 1, the material cylinder 1 is substantially hollow and cylindrical, and the feeding shaft 2 is disposed in the material cylinder 1; the spiral material feeding device further comprises a feeding blade 3 and a shearing blade 4 which are spirally wound on the outer side of the material feeding shaft 2, and the feeding blade 3 and the shearing blade 4 are arranged in the length direction of the material feeding shaft 2.

The shearing blade 4 is in a spiral strip shape, the shearing blade 4 comprises a plurality of blades 5, and the plurality of blades 5 are spirally arranged and extend around the central axis of the feeding shaft 2 along the length direction of the feeding shaft 2; the charging barrel part 1 is provided with a material containing cavity 6, and a feeding hole and a discharging hole which are communicated with the material containing cavity 6, and preferably, the feeding hole and the discharging hole are respectively positioned at two ends of the charging barrel part 1. The feeding shaft 2 is provided with a first hole body, the blade 5 is provided with a second hole body communicated with the first hole body, and the first hole body extends along the axial direction of the feeding shaft 2.

The material to be steamed enters the material containing cavity 6 through the feeding hole, and external steam firstly enters the first hole body and then enters the material containing cavity 6 through the second hole body and is used for steaming the material in the material containing cavity 6.

In the use process of the high-speed shearing steaming self-curing device, the feeding blade 3 is used for conveying materials entering the material accommodating cavity 6 through the feeding hole to the shearing blade 4, the shearing blade 4 shears the materials conveyed by the feeding blade 3 to shear large-size materials into small-size materials, steam discharged from the second hole body of the blade 5 is directly sprayed on the materials sheared by the blade 5, synchronous shearing and curing operations are realized, and the materials sheared by the shearing blade 4 are discharged through the discharging hole; utilize 5 realization on the one hand of blade to the automatically cropped curing of material for the particle diameter of material reduces, and the steamed processing of the material of being convenient for promotes the steamed efficiency of material and evaporates ripe homogeneity, and on the other hand realizes the automatic conveying of material in the shearing, promotes the transport efficiency of material.

The number of the second hole bodies is multiple, and each blade 5 corresponds to multiple second hole bodies. Namely, each blade 5 is provided with a plurality of second holes, steam is discharged through the second holes of the same blade 5, when the blade 5 shears large-size materials, the second holes of the blade 5 simultaneously discharge steam to steam the opening of the materials sheared by the blade, and further the aging efficiency and the aging yield of the materials are improved in an auxiliary manner.

The thickness of the head part of the blade 5 is smaller than that of the tail part of the blade 5, namely the blade 5 is approximately wedge-shaped, and the second hole body penetrates through the end face of the tail part of the blade 5. With the help of the uneven structural design of head, afterbody thickness of blade 5, in the blade 5 of being convenient for gets into the material along with feed shaft 2 more easily, promote the shearing efficiency of material. Through setting up the second hole body on the terminal surface of the afterbody of blade 5, when blade 5 sheared the material, avoid the material to block up the second hole body, promote the use yield of supply shaft 2.

The high-speed shearing and steaming self-curing device further comprises a tailstock 8 arranged at one end of the material barrel part 1, one end of the feeding shaft 2 is rotatably arranged on the tailstock 8, the feeding shaft 2 is provided with a steam pipe 9 communicated with the first hole body 7, the steam pipe 9 penetrates through the tailstock 8, the steam pipe 9 is provided with a rotary joint positioned outside the tailstock 8, and external steam supply equipment is rotatably arranged with the steam pipe 9 through the rotary joint. The steam supply device inputs steam into the first hole body 7 through the steam pipe 9, and the steam entering the first hole body 7 is input into the material containing cavity 6 through the second hole bodies to carry out steaming treatment on the material.

The high-speed shearing and steaming self-curing device further comprises a self-curing blade 11 spirally wound on the outer side of the feeding shaft 2, the shearing blade 4 is positioned between the feeding blade 3 and the self-curing blade 11, the material sheared by the shearing blade 4 is conveyed to the self-curing blade 11, and the self-curing blade 11 extrudes and rubs the material conveyed by the shearing blade 4, so that the material is in a high-temperature and high-pressure state, and the curing yield of the material is further assisted.

The high-speed shearing steaming self-curing device further comprises a counter-rotating blade 12 spirally wound on the outer side of the feeding shaft 2, the self-curing blade 11 is positioned between the shearing blade 4 and the counter-rotating blade 12, the spiral direction of the feeding blade 3, the spiral direction of the shearing blade 4 and the spiral direction of the self-curing blade 11 are the same, the spiral direction of the self-curing blade 11 and the spiral direction of the counter-rotating blade 12 are opposite, and the discharge hole is positioned between the self-curing blade 11 and the counter-rotating blade 12.

With the help of the setting of the backspin blade 12, realize the reverse transport to the material, avoid the material to overstock the one end of keeping away from the tailstock 8 at feed cylinder spare 1 for the material can be fast fully discharged automatically via the discharge opening, guarantees the sufficiency of material discharge, avoids in the feed cylinder spare 1 incomplete long-pending material and causes extravagantly or produce the pollution damage to feed cylinder spare 1.

The high-speed shearing and steaming self-curing device further comprises a supporting seat 13 arranged at the other end of the material cylinder part 1, and a thimble part 14 which rotates and is telescopically arranged in the supporting seat 13, wherein the material supply shaft 2 is provided with a tapered hole 15, and the thimble part 14 is provided with a tapered part 16 which is used for extending into the tapered hole 15. In the installation process of the feeding shaft 2, the conical part 16 of the thimble element 14 is arranged in the conical hole 15, so that the quick installation and alignment of the feeding shaft 2 are realized; when the feeding shaft 2 needs to be disassembled, the ejector pin 14 is loosened, the conical part 16 is withdrawn from the conical hole 15, then the feeding shaft 2 can be disassembled, and the installation efficiency and the disassembly efficiency of the feeding shaft 2 are improved.

The feeding shaft 2 is provided with a non-circular hole which is formed by the concave arrangement of the end surface of the feeding shaft 2, and the conical hole 15 is formed by the concave arrangement of the bottom surface of the non-circular hole; the thimble member 14 has a non-circular portion with a tapered portion 16 projecting therefrom, the non-circular portion being received within the non-circular hole, the outer side of the non-circular portion being adapted to abut against the inner bore side of the non-circular hole. For example, the noncircular hole is a square hole, the noncircular portion is a square block, and the inner hole side face of the noncircular hole is blocked and abutted against the outer side face of the noncircular portion, so that the thimble member 14 is ensured to stably rotate along with the feeding shaft 2, and the poor use caused by relative rotation of the thimble member and the feeding shaft is avoided.

The high-speed shearing steaming self-curing device further comprises a cooling unit matched with the thimble element 14 for use, the thimble element 14 is provided with a water through hole, the cooling unit is communicated with the water through hole, and the cooling unit is used for inputting cooling water into the water through hole. In the use process of the high-speed shearing steaming self-curing device, the driving motor of the high-speed shearing steaming self-curing device drives the feeding shaft 2 to drive the thimble element 14 to rotate at a high speed, heat generated when the feeding shaft 2 rotates is transferred to the thimble element 14, the thimble element 14 is subjected to heat dissipation treatment by means of cooling water, the use defects of the thimble element 14 and the feeding shaft 2 due to overhigh temperature are avoided, and the service lives of the thimble element 14 and the feeding shaft 2 are prolonged.

The high-speed shearing and steaming self-curing device further comprises an exhaust valve, the material barrel part 1 is provided with an exhaust hole communicated with the material containing cavity 6, and the exhaust valve is used for regulating and controlling the opening or closing of the exhaust hole. In the use of high-speed shearing and steaming self-curing device, the charging barrel part 1 is provided with the air pressure detector, when the air pressure in the material containing cavity 6 of the charging barrel part 1 is too high, the exhaust valve automatically opens the exhaust hole to perform exhaust treatment, the explosion risk caused by the too high air pressure in the charging barrel part 1 is avoided, and the use safety of the high-speed shearing and steaming self-curing device is improved. Meanwhile, the stable regulation and control of the air pressure value in the charging barrel part 1 are realized through the arrangement of the exhaust valve, so that the air pressure value in the charging barrel part 1 is kept in a stable state, the phenomenon that the discharging is uneven due to the fact that the air pressure value in the charging barrel part 1 is too large or too small is avoided, and the smooth continuity of material discharging is improved.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. A high-speed shearing, steaming and self-curing device comprises a material barrel part and a material supply shaft which is rotatably arranged in the material barrel part; the method is characterized in that: the feeding blade and the shearing blade are spirally wound on the outer side of the feeding shaft and are arranged along the length direction of the feeding shaft; the shearing blade comprises a plurality of blades, the blades are spirally arranged along the length direction of the feeding shaft and around the central axis of the feeding shaft, the feeding shaft is provided with a first hole body, and the blades are provided with second hole bodies communicated with the first hole body; the feed cylinder spare has the material chamber of holding, with feed port and the discharge opening that holds the material chamber intercommunication, wait to evaporate ripe material and get into via the feed port and hold the material intracavity, external steam is held the material intracavity and is used for evaporating ripe material that holds via first hole body, second hole body entering, and feed vane is used for will holding the material of expecting the intracavity via the feed port and carries to shearing blade, and shearing blade carries the material to shearing blade, and shearing blade shears the material of handling back material via the discharge opening and discharges.

2. The high shear steam self-curing apparatus of claim 1, wherein: the quantity of second hole body is a plurality of, and each blade all corresponds a plurality of second hole bodies.

3. The high shear steam self-curing apparatus of claim 1, wherein: still including setting up in the tailstock of feed cylinder spare one end, the one end of feed shaft rotates and sets up in the tailstock, and the feed shaft is provided with the steam pipe with first hole body intercommunication, and the steam pipe runs through the tailstock, and the steam pipe is provided with the rotary joint who is located outside the tailstock, and external steam supply equipment rotates the setting with the steam pipe via rotary joint.

4. The high shear steam self-curing apparatus of claim 1, wherein: still including the spiral around establishing the blade of maturing certainly in the feed shaft outside, the shearing blade is located feed blade and the blade of maturing certainly between, and the blade of maturing certainly is used for carrying out extrusion friction to the material that the shearing blade was carried, and the material after the blade extrusion friction of maturing certainly is discharged via the discharge opening.

5. The high shear steam self-curing apparatus of claim 4, wherein: the self-curing type feeding device is characterized by further comprising a counter-rotating blade spirally wound on the outer side of the feeding shaft, the self-curing blade is located between the shearing blade and the counter-rotating blade, the spiral direction of the feeding blade, the spiral direction of the shearing blade and the spiral direction of the self-curing blade are the same, the spiral direction of the self-curing blade and the spiral direction of the counter-rotating blade are opposite, and the discharge hole is located between the self-curing blade and the counter-rotating blade.

6. The high shear steam self-curing apparatus of claim 1, wherein: still including setting up in the supporting seat of the feed cylinder spare other end, rotating and flexible the setting in the thimble spare of supporting seat, the feed axle is provided with the bell mouth, and thimble spare has and is used for stretching into the downthehole toper portion of bell mouth, and the lateral surface of toper portion contradicts the hole side of bell mouth.

7. The high shear steam self-curing apparatus of claim 6, wherein: the feeding shaft is provided with a non-circular hole which is formed by the concave arrangement of the end surface of the feeding shaft, and the conical hole is formed by the concave arrangement of the bottom surface of the non-circular hole; the thimble piece has non-circular portion, and the toper portion is established from non-circular portion protrudingly and is formed, and non-circular portion holds and establishes in non-circular hole, and the lateral surface of non-circular portion is used for conflicting non-circular hole's hole side.

8. The high shear steam self-curing apparatus of claim 6, wherein: the ejector pin is provided with a water through hole, the cooling unit is communicated with the water through hole, and the cooling unit is used for inputting cooling water into the water through hole.

9. The high shear steam self-curing apparatus of claim 1, wherein: the charging barrel part is provided with an exhaust hole communicated with the material containing cavity, and the exhaust valve is used for regulating and controlling the opening or closing of the exhaust hole.