CN110584030A - Horizontal euphausia superba rapid heating, steaming, condensing and crushing integrated equipment - Google Patents

Abstract

The invention relates to horizontal euphausia superba rapid heating, steaming, condensing and crushing integrated equipment.A heating, steaming and condensing cylinder is horizontally arranged in a heat transfer cylinder, and the end surface of the heat transfer cylinder is sealed and fixed; the heat transfer barrel forms heat conducting oil circulation of the heat medium cavity through the oil heating device; the floating rotary blades extend outwards at intervals and are parallel to the axial direction of the main shaft, and when the main shaft rotates, the rotary blades are tightly attached to the inner wall of the heating, cooking and coagulating cylinder under the action of centrifugal force and material resistance; the rotating propulsion sheets extend outwards at different angle positions of the side wall of the main shaft at intervals along the axial direction and have set included angles with the axial direction, and the rotating radius of the rotating propulsion sheets rotating along with the main shaft is slightly smaller than the inner diameter of the heating, steaming and boiling condensation cylinder; two ends of the main shaft heating section are provided with a primary coarse crushing disc cutter and a secondary fine crushing disc toothed cutter. The invention can quickly complete the processes of feeding, primary coarse crushing, quick heating and cooking, krill protein coagulation, secondary fine crushing and discharging of the Antarctic krill with low water content while realizing high heat exchange efficiency.

Description

Horizontal euphausia superba rapid heating, steaming, condensing and crushing integrated equipment

Technical Field

The invention relates to a heating, cooking and protein coagulation device, in particular to a horizontal type rapid heating, cooking, coagulation and crushing integrated device for antarctic krill.

Background

The antarctic krill has abundant resources and huge biological resource amount, and is a raw material of the antarctic krill powder. The euphausia superba powder is a raw material which is prepared by using captured dried euphausia superba through processes of heating and cooking, protein coagulation, drying, crushing and the like and can be used for extracting high-quality shrimp sauce and processing high-nutrition feed. Wherein, the heating and steaming link requires short heating time and high speed, and the heating uniformity is ensured.

Chinese patent publication No. CN205382140U discloses a device for heating and coagulating Antarctic shrimp, wherein the main shaft of the device has no heating function, the scrapers are mounted in parallel on the main shaft, and the scrapers do not function to propel the material, the material is propelled by the high pressure generated by the screw pump, and the discharging is difficult. Meanwhile, the equipment has a complex structure and is mainly suitable for heating and cooking the unbroken euphausia superba.

Chinese patent publication No. CN107048248A discloses a device for rapid cooking of antarctic krill, the key part of which is divided into a preheating system and a coagulation system, and the scraper of the preheating system is also installed on the main shaft in parallel, so that the material cannot be pushed, and the discharging is difficult; the spiral scraper of the condensation system is tightly attached to the inner wall of the steam sleeve and the outer wall of the main shaft, so that the manufacturing is very difficult, and the heat exchange efficiency is not high; the main shaft is a steam direct injection type, the water content in the material is increased by directly injecting steam, the subsequent drying energy consumption is increased, in addition, the steam pressure is too low, the material blocks a steam injection port and even reversely flows into the steam main shaft, and on the contrary, the higher the steam pressure is, the higher the temperature is, the material is easy to overheat and burn.

Disclosure of Invention

The invention aims to provide horizontal antarctic krill rapid heating, cooking, condensing and crushing integrated equipment, aiming at antarctic krill captured by a trawl and in a drained state, inner and outer double-layer oil heating circulation of an annular cooking space of the antarctic krill is adopted to realize rapid and uniform high-temperature cooking of the antarctic krill, a rotary blade and a rotary propelling blade are arranged on a main shaft at the same time, meanwhile, a primary coarse crushing disc cutter is arranged at the right end of a main shaft heating section, and a secondary fine crushing disc toothed cutter is arranged at the left end of the main shaft heating section, so that the antarctic krill with low water content can be rapidly fed while high heat exchange efficiency is realized, and the processes of primary coarse crushing, rapid heating and cooking, krill protein coagulation, secondary fine crushing and discharging are also realized; the pressure control of high-temperature steam is not needed, the control is simple, and the heating is stable.

The invention adopts the following technical scheme:

a horizontal Antarctic krill rapid heating, steaming, condensing and crushing integrated device comprises a heat transfer barrel horizontally arranged, wherein a heating, steaming and condensing barrel 8 is horizontally arranged in the heat transfer barrel, and the end face of the heat transfer barrel is sealed and fixed; one side of the lower part of the heat transfer barrel is provided with a heat conducting oil inlet 17 of the heat medium cavity, the other side of the upper part of the heat transfer barrel is provided with a heat conducting oil outlet 5 of the heat medium cavity, and heat conducting oil circulation of the heat medium cavity is formed through an oil heating device; the main shaft 6 is a hollow shaft, is provided with a main shaft heat conduction oil inlet 20 and a main shaft heat conduction oil outlet 19, and forms main shaft heat conduction oil circulation through an oil heating device; the main shaft 6 is driven by the variable frequency motor 1 to rotate, and the main shaft 6 penetrates through the heating, cooking and condensing cylinder 8 and is arranged coaxially with the heating, cooking and condensing cylinder 8; the side wall of the main shaft 6 is provided with a floatable rotating blade 9 which extends outwards at intervals and is parallel to the axial direction of the main shaft; the different angle positions of the side wall of the main shaft 6 respectively extend outwards along the axial direction at intervals to form rotary propulsion sheets 13 with set included angles with the axial direction, and the rotating radius of the rotary propulsion sheets 13 rotating along with the main shaft is slightly smaller than the inner diameter of the heating, cooking and coagulating cylinder 8; the right end of the main shaft 6 heating section is provided with a first-stage coarse crushing disc cutter 4, the left end of the main shaft heating section is provided with a second-stage fine crushing disc toothed cutter 14, and crushing teeth are arranged inside an end cover of a discharge port 16 for playing a role in matching with the second-stage fine crushing disc toothed cutter 14.

Further, the spiral propelling piece 13 is fixed on a connecting plate, and the connecting plate is fixed in an axial groove on the side wall of the main shaft through a screw.

Further, the rotary blade 9 is hinged with the main shaft 6, and the main shaft can be unfolded when rotating.

Further, the heat transfer barrel and the medium barrel are eccentrically arranged.

Further, a mechanical sealing device 18 is arranged between the main shaft 6 and the heat transfer barrel.

Further, the variable frequency motor 1 is connected with the main shaft 6 through a gear transmission mechanism 2, and the gear transmission mechanism 2 is fixed on the gear box connecting seat 3.

Furthermore, the rotary blades 9 are provided with two blades which are arranged at an interval of 180 degrees.

Further, the heat transfer bucket has an outer shell layer 12 and a heat medium barrel 10 with a polyurethane layer 11 therebetween.

The invention has the beneficial effects that:

1) the inner and outer double-layer oil heating circulation of the annular cooking space of the antarctic krill is adopted to realize the rapid and uniform high-temperature cooking of the antarctic krill,

2) aiming at the antarctic krill captured by the trawl in a drained state, a rotary blade and a rotary propelling blade are arranged on a main shaft at the same time, and a primary coarse crushing disc cutter and a secondary fine crushing disc tooth cutter are arranged at two ends of a heating section of the main shaft, so that the antarctic krill with low water content can be fed quickly while high heat exchange efficiency is realized, and the processes of primary coarse crushing, quick heating, secondary fine crushing and discharging are also realized;

3) the pressure control of high-temperature steam is not needed, the control is simple, and the heating is stable.

Drawings

Fig. 1 is a perspective view of the horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment.

Fig. 2 is a cross-sectional view of the main shaft, the outer shell layer, the heating, cooking and coagulating cylinder, the rotary blade and the rotary propelling blade of the horizontal Antarctic krill rapid heating, cooking, coagulating and crushing integrated device of the invention.

Fig. 3 is a comparison of the spindle at the view of the rotating boost blade and the view of the rotating blade.

Fig. 4 is a partial perspective view of the right end of the main shaft.

Fig. 5 is a partial perspective view of the left end of the main shaft.

Fig. 6 is a perspective view of the spout end cap.

In the figure, 1, a variable frequency motor, 2, a gear transmission mechanism, 3, a gear box connecting seat, 4, a first-stage coarse crushing disc cutter, 5, a krill feeding port, 6, a main shaft, 7, a heat-conducting oil outlet of a heat-conducting medium cavity, 8, a heating, cooking and coagulating cylinder, 9, a rotary blade, 10, a heat-conducting medium cylinder, 11, a polyurethane layer, 12, an outer shell layer, 13, a rotary propelling piece, 14, a second-stage fine crushing disc tooth cutter, 15, a sliding bearing, 16, a krill discharging port, 17, a heat-conducting oil inlet of the heat-conducting medium cavity, 18, a mechanical seal, 19, a main shaft heat-conducting oil outlet and 20, a main shaft heat.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to fig. 1-3, a horizontal antarctic krill rapid heating, steaming, condensing and crushing integrated device comprises a heat transfer barrel horizontally arranged, and a heating, steaming and condensing barrel 8 horizontally arranged in the heat transfer barrel and the end surface of the heat transfer barrel is sealed and fixed; one side of the lower part of the heat transfer barrel is provided with a heat conducting oil inlet 17 of the heat medium cavity, the other side of the upper part of the heat transfer barrel is provided with a heat conducting oil outlet 7 of the heat medium cavity, and heat conducting oil circulation of the heat medium cavity is formed through an oil heating device; the main shaft 6 is a hollow shaft, is provided with a main shaft heat conduction oil inlet 19 and a main shaft heat conduction oil outlet 20, and forms main shaft heat conduction oil circulation through an oil heating device; the main shaft 6 is driven by the variable frequency motor 1 to rotate, and the main shaft 6 penetrates through the heating, cooking and condensing cylinder 8 and is arranged coaxially with the heating, cooking and condensing cylinder 8; the side wall of the main shaft 6 is provided with a floatable rotating blade 9 which extends outwards at intervals and is parallel to the axial direction of the main shaft; the different angle positions of the side wall of the main shaft 6 respectively extend outwards along the axial direction at intervals to form rotary propulsion sheets 13 with set included angles with the axial direction, and the rotating radius of the rotary propulsion sheets 13 rotating along with the main shaft is slightly smaller than the inner diameter of the heating, cooking and coagulating cylinder 8; the two ends of the heating section of the main shaft 6 are provided with a primary coarse crushing disc cutter 4 and a secondary fine crushing disc toothed cutter 14.

In this embodiment, see fig. 3-4, the screw propulsion blades 13 are secured to a coupling plate which is secured by screws in axial grooves in the side wall of the main shaft.

In this embodiment, the rotary blade 9 is hingedly fixed to the spindle 6, see fig. 3-4.

In this embodiment, referring to fig. 2, the heat transfer drum is located off-center from the media cartridge.

In this embodiment, referring to fig. 1, a mechanical seal 18 is provided between the spindle 6 and the heat transfer drum.

In this embodiment, referring to fig. 1, the variable frequency motor 1 is connected with the main shaft 6 through a gear transmission mechanism 2, and the gear transmission mechanism 2 is fixed on the gear box connecting seat 3.

In this embodiment, referring to fig. 2 and 4, the rotary blades 9 are provided in two pairs, arranged 180 ° apart.

In this embodiment, referring to fig. 2, the heat transfer bucket has an outer shell layer 12 and a thermal medium cartridge 10 with a polyurethane layer 11 therebetween.

The concrete during operation:

1. the heat transfer barrel is heated, and the working process is as follows: the external heat conduction oil heating system pumps heat conduction oil into the heating, cooking and condensing cylinder 8 from the heat conduction oil inlet 17 of the heat medium cavity. The heat medium cavity formed between the heating and cooking condensation cylinder 8 and the medium cylinder 10 transfers heat energy to the heating and cooking condensation cylinder 8 and then returns to the heat transfer oil heating system from the heat transfer oil outlet 7 of the heat medium cavity to complete a heat cycle. The external heat conduction oil heating system pumps heat conduction oil into a heat medium cavity formed between the heating, cooking and condensing cylinder and the medium cylinder from a heat conduction oil inlet of the heat medium cavity, heat energy is transferred to the heating, cooking and condensing cylinder in the heat medium cavity and then returns to the heat conduction oil heating system from a heat conduction oil outlet of the heat medium cavity, and the heating of the condensing cylinder is completed.

2. The working process of the rotary spindle heating is as follows: the external conduction oil heating system pumps the conduction oil to enter the spindle heat medium cavity from the spindle conduction oil inlet 20, and the conduction oil returns to the conduction oil heating system from the spindle conduction oil outlet 19 after the spindle heat medium cavity transfers the heat energy to the spindle, so that another heat cycle is completed.

The external conduction oil heating system pumps the conduction oil to enter the main shaft heat medium cavity from the main shaft conduction oil inlet, the heat energy is transferred to the main shaft in the main shaft heat medium cavity and then returns to the conduction oil heating system from the main shaft conduction oil outlet, the main shaft is heated, the temperature of the conduction oil is easy to control, and therefore accurate temperature control is achieved.

3. Two rotary blades 9 are arranged on two sides of the main shaft 6, the variable frequency motor 1 with adjustable rotating speed drives the main shaft to rotate through the gear box 2, the two rotary blades generate centrifugal force under the high-speed rotation of the main shaft to expand and slide on the inner wall of the attached heating and cooking condensation cylinder at a certain speed, the heat transfer process is strengthened, the heat exchange efficiency is improved, and the purpose of rapid heating is achieved.

4. Generally, the main shaft only provided with the rotary blade is suitable for rapid heat exchange of high-viscosity or particle-containing feed liquid, but Antarctic krill captured by the trawl is generally in a drained water state and contains less water, so that feeding, rapid heating and discharging are difficult to rapidly complete under the condition of the main shaft 6 only provided with the rotary blade.

The propulsion angle and the number of the rotary propulsion sheets 13 can be adjusted according to the actual conditions such as the rotating speed of the main shaft, the size of krill, the requirement of heating temperature, the requirement of heating time and the like, so that accurate time control is realized.

In this embodiment, the thermal medium cylinder 10 is coated with a polyurethane layer 11 to achieve the purpose of thermal insulation.

The primary coarse crushing disc cutter 4, the secondary fine crushing disc toothed cutter 14, the rotary cutter 9 and the rotary propelling piece 13 on the main shaft can play a role in crushing the antarctic krill, and the technological process of crushing the krill powder can be completed while heating and cooking.

While the preferred embodiments of the present invention have been described, those skilled in the art will appreciate that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a horizontal euphausia superba rapid heating is cooked to condense and is smashed integration equipment which characterized in that:

comprises a heat transfer barrel horizontally arranged, a heating and cooking barrel (8) is horizontally arranged in the heat transfer barrel, and the end surface of the heat transfer barrel is sealed and fixed; one side of the lower part of the heat transfer barrel is provided with a heat conducting oil inlet (17) of the heat medium cavity, the other side of the upper part of the heat transfer barrel is provided with a heat conducting oil outlet (7) of the heat medium cavity, and heat conducting oil circulation of the heat medium cavity is formed through an oil heating device;

the main shaft (6) is a hollow shaft, is provided with a main shaft heat-conducting oil inlet (20) and a main shaft heat-conducting oil outlet (19), and forms main shaft heat-conducting oil circulation through an oil heating device;

the main shaft (6) is driven by the variable frequency motor (1) to rotate, and the main shaft (6) penetrates through the heating condensation cylinder (8) and is arranged coaxially with the heating cooking condensation cylinder (8);

the side wall of the main shaft (6) is provided with a floatable rotating blade (9) which extends outwards at intervals and is parallel to the axial direction of the main shaft;

the different angle positions of the side wall of the main shaft (6) respectively extend outwards at intervals along the axial direction to form rotary propulsion sheets (13) with set included angles with the axial direction, and the rotating radius of the rotary propulsion sheets (13) rotating along with the main shaft is slightly smaller than the inner diameter of the heating and cooking condensation cylinder (8);

a primary coarse crushing disc cutter (4) is arranged at the right end of the heating section of the main shaft (6), and a secondary fine crushing disc toothed cutter (14) is arranged at the left end of the heating section of the main shaft (6);

the inside of the end cover of the discharge hole (16) is provided with teeth matched with the secondary fine crushing disc toothed cutter (14).

2. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the spiral propelling piece (13) is fixed on a connecting plate, and the connecting plate is fixed in an axial groove in the side wall of the main shaft through a screw.

3. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the rotary blade (9) and the main shaft (6) are hinged and axially fixed, the main shaft can be unfolded under the action of centrifugal force when rotating, and one side of the blade is tightly attached to the inner wall.

4. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the heat transfer barrel is eccentrically designed and is eccentric downwards.

5. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: and a mechanical sealing device (18) is arranged between the main shaft (6) and the heat transfer barrel.

6. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the variable frequency motor (1) is connected with the main shaft (6) through the gear transmission mechanism (2), and the gear transmission mechanism (2) is fixed on the gear box connecting seat (3).

7. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the rotary blades (9) are provided with two blades which are arranged at an interval of 180 degrees.

8. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the right end of the heating section of the main shaft (6) is provided with a first-stage coarse crushing disc cutter, and the left end of the heating section of the main shaft (6) is provided with a second-stage fine crushing disc toothed cutter.

9. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1, wherein: the inside of the end cover of the discharge hole (16) is provided with teeth matched with the secondary fine crushing disc toothed cutter (14).

10. The horizontal type antarctic krill rapid heating, cooking, coagulating and crushing integrated equipment as claimed in claim 1 or 4, wherein: the heat transfer barrel has an outer shell layer (12) and a heat medium barrel (10) with a polyurethane layer (11) therebetween.