CN214032423U - Peptidized evening primrose seed protein biological feed production system - Google Patents

Abstract

A peptidization evening primrose seed protein biological feed production system relates to the feed production field, and comprises a raw material crusher; a mixer integrally processed with the raw material pulverizer; the mixed materials are piled up to form a fermentation pile; a feeding device connected with the fermentation pile; the stirrer is connected with the feeding device; a packaging machine connected with the blender. The raw material pulverizer is specially used for pulverizing small particles of evening primrose seeds, the two groups of pulverizing rollers are used for pulverizing materials at the same time, the materials can be completely and separately pulverized by adopting the partition plates, the pulverizing efficiency is high, the pulverizing effect is good, and the screen is arranged at the outlet of the lower storage bin and used for screening the incompletely pulverized materials to improve the pulverizing effect; the mixing machine adopts an improved stirring assembly, and the stirring wings adopt a form of adding a plurality of stirring rods and blades, so that the stirring effect and efficiency are improved; the fermentation reactor is provided with a self-temperature-control electric tracing band and an oxygen-isolating film, so that the fermentation efficiency and effect are further improved; rubbing crusher and mixing machine adopt the integrated design, improve the system and integrate the degree.

Description

Peptidized evening primrose seed protein biological feed production system

Technical Field

The utility model relates to a feed production technical field, concretely relates to peptide evening primrose seed protein biological feed production system.

Background

Evening Primrose (Evening Primrose) is commonly known as screwtree root, also known as Evening Primrose, and is a herb of the willow family. The seed oil has the functions of preventing blood fat deposition and inhibiting platelet aggregation, and is currently used in medical clinic. In addition, the oil can be used as body-building tonic, additive for nutritional food, and raw material for high-grade cosmetics.

Evening primrose seed meal is a byproduct of evening primrose seed after oil pressing, contains rich protein and amino acid, and is not well utilized at present. 3000 tons of evening primrose seeds are wild in Changbai mountain area of Jilin province every year, 2600 tons of cake dregs are stacked to be useless, and 4000 tons of evening primrose dregs are discharged from a certain oil plant in Harbin city every year. If the evening primrose seed meal is used as the feed, not only can grain feed be saved, but also the feed cost can be reduced, and better economic benefit can be obtained. The evening primrose seed meal as the feed has the advantages of rich resources, low price, no mildew or side effect, rich and balanced nutrition, good balance of protein and amino acid, rich vitamins and trace elements, and very high crude fat content as the most important application value in the feed. The disadvantages of the method are that the content of crude fiber is high, the palatability is poor, and the livestock is not like to eat.

At present, the technology for producing peptide protein feed using evening primrose seeds has been developed, in which a pulverizer, a fermenter, a blender, etc. are used, but these are independent, the operation of the independent equipment lowers the production efficiency, and the production cost is also increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a peptidation evening primrose seed protein biological feed production system.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

the utility model discloses a peptidization evening primrose seed protein biological feed production system, include:

a raw material crusher;

a mixer integrally processed with the raw material pulverizer;

the mixed materials are piled up to form a fermentation pile;

a feeding device connected with the fermentation pile;

the stirrer is connected with the feeding device;

a packaging machine connected to the blender;

the raw material pulverizer includes: the crushing device comprises a feeding bin, a crushing bin fixed at the lower end of the feeding bin, a crushing assembly arranged on the crushing bin, a lower bin fixed at the lower end of the crushing bin, supporting legs fixed at the lower end of the lower bin and casters fixed at the lower ends of the supporting legs;

the size reduction assembly includes: a baffle fixed inside the crushing bin, a first crushing roller and a second crushing roller arranged at one side of the baffle, a third crushing roller and a fourth crushing roller arranged at the other side of the baffle, a first fixed seat, a second fixed seat, a third fixed seat and a fourth fixed seat which are sequentially fixed on the lower bin and are all positioned at one side, a fifth fixed seat, a first driving motor, a second driving motor and a sixth fixed seat which are sequentially fixed on the lower bin and are all positioned at the other side, a first rotating shaft arranged at two ends of the first crushing roller, a second rotating shaft arranged at two ends of the second crushing roller, a third rotating shaft arranged at two ends of the third crushing roller, a fourth rotating shaft arranged at two ends of the fourth crushing roller, a first gear fixed on the first rotating shaft at the upper end of the first crushing roller, a second gear fixed on the second rotating shaft at the upper end of the second crushing roller, and a third gear fixed on the third rotating shaft at the upper end of the third crushing roller, a fourth gear fixed on a fourth rotating shaft at the upper end of the fourth crushing roller;

the first rotating shaft end part at the lower end of the first crushing roller is arranged in a first fixed seat through a bearing;

the end part of a second rotating shaft at the upper end of the second crushing roller is connected with an output shaft of the first driving motor through a coupler; the end part of a second rotating shaft at the lower end of the second crushing roller is arranged in a second fixed seat through a bearing;

the end part of a third rotating shaft at the upper end of the third crushing roller is connected with an output shaft of a second driving motor through a coupler; the end part of a third rotating shaft at the lower end of the third crushing roller is arranged in a third fixed seat through a bearing;

the end part of a fourth rotating shaft at the upper end of the fourth crushing roller is arranged in a sixth fixed seat through a bearing; the end part of a fourth rotating shaft at the lower end of the fourth crushing roller is arranged in a fourth fixed seat through a bearing;

the first crushing roller and the second crushing roller are meshed with each other; the third crushing roller and the fourth crushing roller are meshed with each other;

the first gear and the second gear are meshed with each other; the third gear and the fourth gear are meshed with each other;

the mixing machine comprises: the device comprises a mixing bin fixed on a supporting leg, a discharge port fixed at the lower end of the mixing bin, a discharge channel obliquely fixed at the lower end of the discharge port, a first blanking channel fixed at the upper end of the left side of the mixing bin, a first upper cover arranged at the upper end of the first blanking channel, a second blanking channel fixed at the upper end of the right side of the mixing bin, a second upper cover arranged at the upper end of the second blanking channel and a stirring assembly arranged on the mixing bin; and the outlet at the lower end of the discharging bin is arranged in the inlet at the upper end of the mixing bin.

Furthermore, the first crushing roller, the second crushing roller, the third crushing roller and the fourth crushing roller are all the same in structural size.

Furthermore, a plurality of first crushing roller grooves and first annular bulges which are distributed at intervals are arranged on the first crushing roller, and a plurality of second crushing roller grooves and second annular bulges which are distributed at intervals are arranged on the second crushing roller; the first annular bulges on the first crushing roller are correspondingly arranged in the second crushing roller grooves on the second crushing roller, and the second annular bulges on the second crushing roller are correspondingly arranged in the first crushing roller grooves on the first crushing roller.

Further, the stirring assembly comprises: the stirring device comprises a stirring driving motor fixed on the outer wall of the mixing bin, a first fixed seat and a second fixed seat fixed on the inner wall of the mixing bin, a rotating shaft with two ends mounted on the first fixed seat and the second fixed seat through bearings, and a plurality of stirring fins fixed on the rotating shaft; one end of the rotating shaft extends out of the mixing bin and is connected with an output shaft of the stirring driving motor through a coupler.

Further, the stirring fin comprises: evenly distributed fixes a plurality of first stirring rods in the pivot, fixes the first stirring rod blade at first stirring rod tip, evenly distributed is at a plurality of second stirring rods on first stirring rod, fixes the second stirring rod blade at second stirring rod tip, evenly distributed is at a plurality of third stirring rods on the second stirring rod, fixes the third stirring rod blade at third stirring rod portion.

Furthermore, a self-temperature-control electric tracing band is arranged inside the fermentation pile; and an oxygen isolation film is arranged on the surface of the fermentation pile.

Furthermore, the feeding device adopts a soft auger assembly; the soft packing auger assembly comprises a soft packing auger and a conveyor.

The utility model has the advantages that:

the utility model discloses a set up raw materials rubbing crusher, the mixer, the fermentation heap, loading attachment, the mixer, packagine machine realizes the production of peptide evening primrose seed protein biological feed, have production efficiency height, labour saving and time saving, practice thrift advantages such as manufacturing cost, wherein the raw materials rubbing crusher who designs smashes to evening primrose seed this kind of small graininess raw materials specially, wherein two sets of crushing rollers smash the material simultaneously, adopt the baffle can be totally with separately smashing the material between the two, crushing efficiency and crushing effect have been improved, wherein be provided with the screen cloth in feed bin exit down, be used for screening out the material that does not smash completely, further improve crushing effect; the designed mixer adopts an improved stirring assembly comprising a stirring fin, and the stirring fin adopts a mode of adding a plurality of stirring rods and blades, so that the stirring effect and the stirring efficiency can be improved; the designed fermentation reactor is provided with a self-temperature control electric tracing band and an oxygen isolation film, so that the fermentation efficiency and the fermentation effect can be further improved; wherein the legs and casters are designed to facilitate movement of the shredder and mixer.

Additionally, the utility model discloses design rubbing crusher and mixing machine as an organic whole, have crushing, mixing efficiency is high and smash, mix effectual advantage, improved production system integrate.

The utility model has the advantages of high production efficiency, convenient use, simple operation, etc.

Drawings

FIG. 1 is a block diagram of a peptidation evening primrose seed protein biological feed production system of the present invention.

FIG. 2 is a schematic view of the mixer of the raw material pulverizer.

Figure 3 is a schematic view of the shredder assembly.

Fig. 4 is a schematic structural view of the first crushing roller and the second crushing roller.

FIG. 5 is a schematic view of the structure of the stirring fin.

In the figure, 1, a raw material grinder, 2, a mixer, 3, a fermentation pile, 4, a feeding device, 5, a stirrer, 6 and a packaging machine.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the system for producing peptidation evening primrose seed protein biological feed of the present invention mainly comprises: raw materials rubbing crusher 1, mix machine 2, fermentation heap 3, loading attachment 4, mixer 5 and packagine machine 6, mix machine 2 and raw materials rubbing crusher 1 and adopt the integration processing design, form fermentation heap 3 through the mixed material after mixing machine 2 mixes after piling up, loading attachment 4 links to each other with fermentation heap 3, and mixer 5 links to each other with loading attachment 4, and packagine machine 6 links to each other with mixer 5.

As shown in fig. 2, the raw material pulverizer 1 mainly includes: feed bin 101, crushing bin 102, crushing assembly, discharge bin 107, legs 108 and casters 109.

The crushing bin 102 is fixed at the lower end of the feeding bin 101, the crushing assembly is installed on the crushing bin 102, the lower bin 107 is fixed at the lower end of the crushing bin 102, the supporting legs 108 are fixed at the lower end of the lower bin 107, and the casters 109 are fixed at the lower ends of the supporting legs 108. Wherein a screen is arranged at the outlet of the blanking bin 107 for screening out incompletely crushed material.

The crushing component mainly comprises: the crushing device comprises a first fixed seat 103, a second fixed seat 104, a third fixed seat 105, a fourth fixed seat 106, a partition plate 110, a first gear 111, a fifth fixed seat 112, a first rotating shaft 113, a first driving motor 114, a second gear 115, a second driving motor 116, a third gear 117, a fourth rotating shaft 118, a sixth fixed seat 119, a fourth gear 120, a first crushing roller 121, a second crushing roller 122, a third crushing roller 123, a fourth crushing roller 124, a second rotating shaft 125 and a third rotating shaft 126.

A partition 110 is fixed inside the crushing bin 102, a first crushing roller 121 and a second crushing roller 122 are installed on one side of the partition 110, a third crushing roller 123 and a fourth crushing roller 124 are installed on the other side of the partition 110, a first fixing seat 103, a second fixing seat 104, a third fixing seat 105 and a fourth fixing seat 106 are sequentially fixed on the lower bin 107 and are all located on one side, a fifth fixing seat 112, a first driving motor 114, a second driving motor 116 and a sixth fixing seat 119 are sequentially fixed on the lower bin 107 and are all located on the other side, two ends of the first crushing roller 121 are provided with first rotating shafts 113, two ends of the second crushing roller 122 are provided with second rotating shafts 125, two ends of the third crushing roller 123 are provided with third rotating shafts 126, two ends of the fourth crushing roller 124 are provided with fourth rotating shafts 118, a first gear 111 is fixed on the first rotating shaft 113 at the upper end of the first crushing roller 121, a second gear 115 is fixed on the second rotating shaft 125 at the upper end of the second crushing roller 122, the third gear 117 is fixed to a third rotation shaft 126 at an upper end of the third pulverizing roller 123, and the fourth gear 120 is fixed to a fourth rotation shaft 118 at an upper end of the fourth pulverizing roller 124.

The end of the first rotating shaft 113 at the lower end of the first crushing roller 121 is mounted in the first fixing base 103 through a bearing.

The end of the second rotating shaft 125 at the upper end of the second crushing roller 122 is connected to the output shaft of the first driving motor 114 through a coupling.

The end of the second rotating shaft 125 at the lower end of the second crushing roller 122 is mounted in the second fixing base 104 through a bearing.

The end of the third rotating shaft 126 at the upper end of the third crushing roller 123 is connected to the output shaft of the second driving motor 116 through a coupling.

The end of the third rotating shaft 126 at the lower end of the third crushing roller 123 is mounted in the third fixing base 105 through a bearing.

An end portion of the fourth rotating shaft 118 at the upper end of the fourth pulverizing roller 124 is mounted in the sixth fixing seat 119 through a bearing.

The end of the fourth rotating shaft 118 at the lower end of the fourth crushing roller 124 is mounted in the fourth fixing base 106 through a bearing.

The first crushing roller 121 and the second crushing roller 122 are engaged with each other; the third and fourth crushing rollers 123 and 124 are engaged with each other.

The first gear 111 and the second gear 115 are meshed with each other; the third gear 117 and the fourth gear 120 are engaged with each other.

The first crushing roller 121, the second crushing roller 122, the third crushing roller 123 and the fourth crushing roller 124 are all the same in structural size.

The specific configuration of the first crushing roller 121 and the second crushing roller 122 will be described below by way of example, as shown in fig. 4.

The first pulverizing roller 121 is provided with a plurality of first pulverizing roller grooves 1210 and first annular protrusions 1211 which are distributed at intervals.

The second crushing roller 122 is provided with a plurality of second crushing roller grooves 1220 and second annular projections 1221 which are distributed at intervals.

The first annular projection 1211 on the first pulverizing roller 121 is correspondingly installed in the second pulverizing roller groove 1220 on the second pulverizing roller 122; the second annular protuberance 1221 on the second shredder roller 122 fits into the corresponding first shredder roller groove 1210 on the first shredder roller 121.

As shown in fig. 2, the mixer 2 mainly includes: a first upper cover 201, a first blanking channel 202, a mixing bin 203, a discharge hole 205, a second upper cover 206, a second blanking channel 207, a discharge channel 212 and a stirring assembly.

Mix the storehouse 203 and fix on landing leg 108, the export of feed bin 107 lower extreme is installed in mixing storehouse 203 upper end entry, discharge gate 205 is fixed at mixing storehouse 203 lower extreme, discharge passage 212 slope is fixed at discharge gate 205 lower extreme, first feed passage 202 is fixed at mixing storehouse 203 left side upper end, first upper cover 201 is installed in first feed passage 202 upper end, second feed passage 207 is fixed at mixing storehouse 203 right side upper end, second upper cover 206 is installed in second feed passage 207 upper end, the stirring subassembly is installed on mixing storehouse 203.

The stirring subassembly mainly includes: a seventh fixed seat 204, a stirring fin 208, a stirring driving motor 209, an eighth fixed seat 210 and a rotating shaft 211.

The stirring driving motor 209 is fixed on the outer wall of the mixing bin 203, the seventh fixed seat 204 and the eighth fixed seat 210 are fixed on the inner wall of the mixing bin 203, both ends of the rotating shaft 211 are respectively installed on the seventh fixed seat 2041 and the eighth fixed seat 210 through bearings, and the plurality of stirring fins 208 are uniformly distributed and fixed on the rotating shaft 211; one end of the rotating shaft 211 extends out of the mixing bin 203 and is connected with an output shaft of the stirring driving motor 209 through a coupler.

As shown in fig. 5, the stirring fin 208 mainly includes: a first stir bar 2081, a first stir bar blade 2082, a second stir bar 2083, a second stir bar blade 2084, a third stir bar 2085, and a third stir bar blade 2086.

A plurality of first stirring rod 2081 evenly distributed and fix on pivot 211, first stirring rod blade 2082 is fixed at first stirring rod 2081 tip, a plurality of second stirring rod 2083 evenly distributed and fix on first stirring rod 2081, second stirring rod blade 2084 is fixed at second stirring rod 2083 tip, a plurality of third stirring rod 2085 evenly distributed and fix on second stirring rod 2083, third stirring rod blade 2086 is fixed at third stirring rod 2085 tip.

An electric tracing band with self-temperature control is arranged inside the fermentation pile 3; an oxygen-isolating film is arranged on the surface of the fermentation pile 3.

The feeding device 4 adopts a soft auger assembly; the soft packing auger assembly mainly comprises a soft packing auger and a conveyor.

The mixer 5 and the packaging machine 6 are both realized by the prior art.

The utility model discloses a peptidization evening primrose seed protein biological feed production system, during the use, drop into crushing storehouse 102 with raw materials evening primrose seed through feeding storehouse 101, start first driving motor 114 and second driving motor 116 among the crushing unit simultaneously, first driving motor 114 drives second crushing roller 122 and rotates, second driving motor 116 drives third crushing roller 123 and rotates, meshing between first gear 111 and second gear 115 drives first crushing roller 121 and rotates, first crushing roller 121 and second crushing roller 122 intermeshing smashes evening primrose seed, meshing between third gear 117 and fourth gear 120 drives fourth crushing roller 124 and rotates, third crushing roller 123 and fourth crushing roller 124 intermeshing smashes evening primrose seed, accomplish the raw materials and smash; then, crushed evening primrose seed powder enters a mixing bin 203 through an outlet of a discharging bin 107, a stirring driving motor 209 is started to drive a rotating shaft 211 to rotate and drive a stirring component to rotate, a first upper cover 201 and a second upper cover 206 are opened simultaneously, other materials such as molasses, photosynthetic bacteria and the like are put in through a first discharging channel 202 and a second discharging channel 207, the materials are stirred through the stirring component, after the materials are uniformly stirred, a discharging port 205 is opened, the uniformly stirred materials are discharged through a discharging channel 212, the stirred materials are stacked to form a fermentation pile 3, the materials are fermented through a self-control temperature electric tracing band arranged in the fermentation pile 3 and an oxygen isolating membrane arranged on the surface of the fermentation pile 3, the fermented materials are conveyed to a stirring machine 5 through a soft packing auger in a feeding device 4, the materials are uniformly stirred through the stirring machine 5 and conveyed to a packing machine 6 for bagging and packaging, completing the production of the feed.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments or equivalents may be substituted for some of the features of the embodiments, but such modifications or substitutions do not depart from the spirit and scope of the present invention.

Claims (7)

1. A peptidation evening primrose seed protein biological feed production system is characterized by comprising:

a raw material pulverizer (1);

a mixer (2) integrally processed with the raw material pulverizer (1);

a fermentation pile (3) formed after the mixed materials are piled up;

a feeding device (4) connected with the fermentation pile (3);

a stirrer (5) connected with the feeding device (4);

a packaging machine (6) connected with the mixer (5);

the raw material pulverizer (1) comprises: the device comprises a feeding bin (101), a crushing bin (102) fixed at the lower end of the feeding bin (101), a crushing assembly arranged on the crushing bin (102), a lower bin (107) fixed at the lower end of the crushing bin (102), supporting legs (108) fixed at the lower end of the lower bin (107) and casters (109) fixed at the lower ends of the supporting legs (108);

the size reduction assembly includes: a clapboard (110) fixed in the crushing bin (102), a first crushing roller (121) and a second crushing roller (122) arranged on one side of the clapboard (110), a third crushing roller (123) and a fourth crushing roller (124) arranged on the other side of the clapboard (110), a first fixing seat (103), a second fixing seat (104), a third fixing seat (105) and a fourth fixing seat (106) which are sequentially fixed on a lower bin (107) and are all positioned on one side, a fifth fixing seat (112), a first driving motor (114), a second driving motor (116) and a sixth fixing seat (119) which are sequentially fixed on the lower bin (107) and are all positioned on the other side, a first rotating shaft (113) is arranged at two ends of the first crushing roller (121), a second rotating shaft (125) is arranged at two ends of the second crushing roller (122), a third rotating shaft (126) is arranged at two ends of the third crushing roller (123), and a fourth rotating shaft (118) is arranged at two ends of the fourth crushing roller (124), a first gear (111) fixed on a first rotating shaft (113) at the upper end of the first crushing roller (121), a second gear (115) fixed on a second rotating shaft (125) at the upper end of the second crushing roller (122), a third gear (117) fixed on a third rotating shaft (126) at the upper end of the third crushing roller (123), and a fourth gear (120) fixed on a fourth rotating shaft (118) at the upper end of the fourth crushing roller (124);

the end part of a first rotating shaft (113) at the upper end of the first crushing roller (121) is arranged in a fifth fixed seat (112) through a bearing; the end part of a first rotating shaft (113) at the lower end of the first crushing roller (121) is arranged in a first fixed seat (103) through a bearing;

the end part of a second rotating shaft (125) at the upper end of the second crushing roller (122) is connected with an output shaft of a first driving motor (114) through a coupler; the end part of a second rotating shaft (125) at the lower end of the second crushing roller (122) is arranged in a second fixed seat (104) through a bearing;

the end part of a third rotating shaft (126) at the upper end of the third crushing roller (123) is connected with an output shaft of a second driving motor (116) through a coupler; the end part of a third rotating shaft (126) at the lower end of the third crushing roller (123) is arranged in a third fixed seat (105) through a bearing;

the end part of a fourth rotating shaft (118) at the upper end of the fourth crushing roller (124) is arranged in a sixth fixed seat (119) through a bearing; the end part of a fourth rotating shaft (118) at the lower end of the fourth crushing roller (124) is arranged in a fourth fixed seat (106) through a bearing;

the first crushing roller (121) and the second crushing roller (122) are meshed with each other; the third crushing roller (123) and the fourth crushing roller (124) are meshed with each other;

the first gear (111) and the second gear (115) are meshed with each other; the third gear (117) and the fourth gear (120) are meshed with each other;

the mixer (2) comprises: the device comprises a mixing bin (203) fixed on a supporting leg (108), a discharge hole (205) fixed at the lower end of the mixing bin (203), a discharge channel (212) obliquely fixed at the lower end of the discharge hole (205), a first blanking channel (202) fixed at the upper end of the left side of the mixing bin (203), a first upper cover (201) installed at the upper end of the first blanking channel (202), a second blanking channel (207) fixed at the upper end of the right side of the mixing bin (203), a second upper cover (206) installed at the upper end of the second blanking channel (207), and a stirring assembly installed on the mixing bin (203); and the outlet at the lower end of the lower storage bin (107) is arranged in the inlet at the upper end of the mixing bin (203).

2. The peptidation evening primrose seed protein biological feed production system according to claim 1, wherein the first (121), second (122), third (123) and fourth (124) crushing rollers are all the same size.

3. A peptidized oenothera biennin seed protein biological feed production system according to claim 2, characterized in that said first crushing roller (121) is provided with a plurality of first crushing roller grooves (1210) and first annular projections (1211) spaced apart, and said second crushing roller (122) is provided with a plurality of second crushing roller grooves (1220) and second annular projections (1221) spaced apart; the first annular bulges (1211) on the first crushing roller (121) are correspondingly arranged in the second crushing roller grooves (1220) on the second crushing roller (122), and the second annular bulges (1221) on the second crushing roller (122) are correspondingly arranged in the first crushing roller grooves (1210) on the first crushing roller (121).

4. The peptidized evening primrose seed protein biological feed production system according to claim 1, wherein the stirring assembly comprises: the stirring device comprises a stirring driving motor (209) fixed on the outer wall of the mixing bin (203), a seventh fixed seat (204) and an eighth fixed seat (210) fixed on the inner wall of the mixing bin (203), a rotating shaft (211) with two ends mounted on the seventh fixed seat (204) and the eighth fixed seat (210) through bearings, and a plurality of stirring fins (208) fixed on the rotating shaft (211); one end of the rotating shaft (211) extends out of the mixing bin (203) and is connected with an output shaft of the stirring driving motor (209) through a coupler.

5. A peptidated evening primrose seed protein biofeed production system according to claim 4, wherein the stirring fin (208) comprises: the stirring device comprises a plurality of first stirring rods (2081) which are uniformly distributed and fixed on a rotating shaft (211), a first stirring rod blade (2082) which is fixed at the end part of the first stirring rod (2081), a plurality of second stirring rods (2083) which are uniformly distributed on the first stirring rod (2081), a second stirring rod blade (2084) which is fixed at the end part of the second stirring rod (2083), a plurality of third stirring rods (2085) which are uniformly distributed on the second stirring rod (2083), and a third stirring rod blade (2086) which is fixed at the end part of the third stirring rod (2085).

6. The peptidation evening primrose seed protein biological feed production system according to claim 1, wherein the fermentation stack (3) is internally provided with a self-temperature-controlled electric tracing band; an oxygen isolation film is arranged on the surface of the fermentation pile (3).

7. The peptidation evening primrose seed protein biological feed production system according to claim 1, wherein the feeding device (4) adopts a soft auger assembly; the soft packing auger assembly comprises a soft packing auger and a conveyor.

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