CN216808861U

CN216808861U - Collagen peptide extraction and collection device

Info

Publication number: CN216808861U
Application number: CN202123389169.5U
Authority: CN
Inventors: 王伙根; 潘建春
Original assignee: Jiaxing Hengjie Bio Pharmaceutical Co ltd
Current assignee: Jiaxing Hengjie Bio Pharmaceutical Co ltd
Priority date: 2021-12-24
Filing date: 2021-12-24
Publication date: 2022-06-24
Anticipated expiration: 2031-12-24

Abstract

The utility model relates to a collagen peptide extracting and collecting device. The device solves the problems that collagen production and preparation equipment is difficult to maintain constant temperature and the using effect is poor in the prior art. It includes the enzymolysis reaction jar, the enzymolysis reaction jar bottom is connected with the peptide liquid collecting tank body through grafting guiding mechanism, enzymolysis reaction jar circumference is equipped with the material reaction section of thick bamboo, material reaction section of thick bamboo circumference is equipped with constant temperature heat conduction subassembly, constant temperature heat conduction subassembly circumference outer wall rotates and is connected with heating mechanism, the axial is equipped with the rotation drive structure in the enzymolysis reaction jar, rotation drive structure one end circumference is equipped with automatic telescopic agitating unit, peptide liquid collecting tank body circumference peptide liquid collecting tank body. The utility model has the advantages that: can effectively maintain the constant temperature state of reactants, make the reaction more sufficient, excellent in use effect.

Description

Collagen peptide extraction and collection device

Technical Field

The utility model relates to the technical field of extraction of bioactive peptides, in particular to a collagen peptide extraction and collection device.

Background

The collagen is the main component in the connective tissue of the animal, and is also the functional protein with the largest content and the widest distribution in the mammal, and accounts for 25 to 30 percent of the total amount of the protein. Has close relation with the formation, maturation and intercellular information transmission of tissues, joint lubrication, wound healing, calcification, blood coagulation and aging, and is widely applied to medical materials, cosmetics, food industry and the like. Generally, it is believed that small molecular weight collagen has a better absorption effect, and therefore, collagen peptides are commonly used in clinical nutrition and cosmetics for patients, especially small molecular weight collagen peptides with molecular weight less than 1500, and synthetic fibroblasts of the collagen peptides are very important wound repair cells, participate in granulation tissue formation in the wound healing process, and synthesize and secrete extracellular matrices such as collagen, fibronectin, hyaluronic acid and the like to participate in the skin tissue remodeling process, but the existing collagen peptide production and preparation equipment is difficult to maintain the whole constant temperature of reactants, so that the collagen peptides are easily lost in the reaction process, and the use effect is not good.

Disclosure of Invention

The utility model aims to solve the problems and provides a collagen peptide extraction and collection device which is reasonable in design and good in using effect.

In order to achieve the purpose, the utility model adopts the following technical scheme: this collagen peptide draws collection device, including the enzymolysis reaction jar, the enzymolysis reaction jar bottom is connected with the peptide liquid collecting tank body through grafting water conservancy diversion mechanism, enzymolysis reaction jar circumference is equipped with the material reaction section of thick bamboo, and material reaction section of thick bamboo circumference is equipped with constant temperature heat conduction subassembly, constant temperature heat conduction subassembly circumference outer wall rotates and is connected with the heating mechanism who is located the enzymolysis reaction jar outer wall, and the enzymolysis reaction jar internal shaft is equipped with one end and is located the material reaction jar in the material reaction jar other end be located the enzymolysis reaction jar outside and can drive constant temperature heat conduction subassembly circumferential direction's rotation drive structure, the one end circumference that the rotation drive structure set up in the material reaction jar is equipped with automatic telescopic agitating unit, peptide liquid collecting tank body circumference is equipped with one end and is located peptide liquid collecting tank body circumference outer wall and the other end is located the inboard peptide liquid collecting tank body circumference collecting assembly of peptide liquid collecting tank. Through set up the material reaction section of thick bamboo in the enzymolysis reaction jar, and set up constant temperature heat-conducting component in material reaction section of thick bamboo circumference, when carrying out the enzymolysis reaction, drive automatic telescopic agitating unit through rotating the drive structure and rotate, and simultaneously, utilize heating mechanism to heat constant temperature heat-conducting component, constant temperature heat-conducting component is because the effect of rotating the drive structure rotates in material reaction section of thick bamboo circumference, the bulk temperature of material in the reaction course has effectively been maintained, avoid the uneven condition of temperature, excellent in use effect, and the setting of peptide liquid collection component can effectively filter the collection to the peptide liquid after the separation, ensure peptide liquid quality.

In foretell collagen peptide extraction and collection device, enzymolysis retort upper end circumference is equipped with the feed inlet, and the one end that the feed inlet is located the enzymolysis retort inner wall is connected with the inlet pipe, and the inlet pipe passes the rotation sealing portion that sets up in constant temperature heat-conducting component upper end and communicates each other with material reaction section of thick bamboo circumference inboard.

In foretell collagen peptide extraction and collection device, constant temperature heat conduction subassembly is including setting up the heat conduction barrel in the material reaction cylinder circumference outside, and heat conduction barrel upper end inner wall rotates with material reaction cylinder upper end to be connected, and heat conduction barrel circumference inner wall is equipped with a plurality of annular heat conduction portions, and the one end that heat conduction barrel inner wall was kept away from to annular heat conduction portion is pegged graft in the heat conduction inslot of material reaction cylinder towards inside horizontal extension. The setting of constant temperature heat-conducting component can carry out the circumferential direction heating to the material reaction section of thick bamboo to keep the constant temperature reaction.

In the middle of foretell collagen peptide draws collection device, heating mechanism includes that circumference sets up the cartridge heater at enzymolysis reaction jar circumference outer wall, and the cartridge heater inner wall is equipped with a plurality of annular heating strips that set up with annular heat conduction portion one-to-one, and the rotation inslot of heat conduction barrel circumference outer wall is pegged graft to annular heating strip. The arrangement can keep the heat-conducting cylinder in a constant temperature state.

In foretell collagen peptide extraction and collection device, rotate the drive structure including rotating the drive shaft, rotate drive shaft one end and set up in the drive shaft location section of thick bamboo of the inboard bottom of material reaction cylinder circumference, the other end extends towards enzymolysis retort upper end and is connected with rotation driving motor, rotate the drive shaft radially wear to locate constant temperature heat-conducting component and with constant temperature heat-conducting component fixed connection.

In foretell collagen peptide extraction collection device, automatic telescopic agitating unit accomodates the groove including setting up the elasticity that is located the interior circumference inboard of material reaction cylinder at the rotation drive shaft, and the inslot is accomodate to elasticity has the telescopic link through reset spring sliding connection, and the telescopic link keeps away from the one end that elasticity accomodates the groove and is equipped with the material stirring portion that is the arc setting, and material stirring portion is vertical setting. The arrangement of the automatic telescopic stirring device makes the enzymolysis reaction more sufficient.

In foretell collagen peptide extraction and collection device, peptide liquid collection subassembly includes that the water conservancy diversion of circumference setting on the peptide liquid collection tank body collects the mechanism, and water conservancy diversion collection mechanism one end sets up in the peptide liquid collection tank internal and circumference inboard is equipped with the fine filtration net, and the water conservancy diversion collects the mechanism other end and sets up at the outer wall of peptide liquid collection tank body and threaded connection has the peptide liquid collecting pipe. The peptide liquid collecting assembly is directly connected with the peptide liquid collecting tank body, so that conveying loss is avoided, and the fine filter screen is favorable for ensuring the purity of the peptide liquid.

In foretell collagen peptide extraction collection device, water conservancy diversion collection mechanism includes water conservancy diversion connecting portion, and the one end that water conservancy diversion connecting portion are located the internal peptide liquid collecting vessel is equipped with the peptide liquid collecting vessel, and the fine filtration net sets up in the peptide liquid collecting vessel, and the one end that water conservancy diversion connecting portion are located the external wall of peptide liquid collecting vessel has threaded connection portion, and the peptide liquid collecting vessel is connected with threaded connection portion, and communicates each other between threaded connection portion, water conservancy diversion connecting portion, the peptide liquid collecting vessel.

In foretell collagen peptide extraction collection device, grafting water conservancy diversion mechanism includes a plurality of grafting section of thick bamboo of setting at peptide liquid collection tank body up end, and enzymolysis tank body bottom is equipped with a plurality of draft tubes that set up with grafting section of thick bamboo one-to-one, and the draft tube setting is in the grafting section of thick bamboo.

In foretell collagen peptide draws collection device, the sliding base that material reaction barrel head portion set up through circumference can open and seal, and sliding base circumference inboard is equipped with the seal groove, material reaction barrel head portion is equipped with the honeycomb duct of grafting in the seal groove, and enzymolysis reaction jar inner wall be equipped with sliding base sliding connection's direction spout, be equipped with discharging channel on the direction spout, and discharging channel communicates each other with the ejection of compact chamber that sets up between sliding base bottom and enzymolysis reaction jar inner wall, sliding base is through the elevator motor drive of radial setting in enzymolysis reaction jar bottom.

Compared with the prior art, the utility model has the advantages that: reasonable in design, moreover, the steam generator is simple in structure, during the enzymolysis reaction, utilize heating mechanism to heat constant temperature heat-conducting component, constant temperature heat-conducting component is because the effect of rotation drive structure rotates the heating in material reaction section of thick bamboo circumference, the bulk temperature of material in the reaction course has effectively been maintained, avoid the uneven condition of temperature, rotate the automatic telescopic agitating unit of drive structure drive and rotate the stirring to the reaction liquid moreover, the reaction efficiency is improved, and simultaneously, the setting of peptide liquid collection subassembly can carry out effective filtration collection to the peptide liquid after the separation, ensure peptide liquid purity.

Drawings

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

FIG. 2 is a sectional view of an enzymatic hydrolysis reaction tank in the present invention;

FIG. 3 is a cross-sectional view of a peptide liquid collection canister according to the present invention;

fig. 4 is a schematic structural view of a diversion collecting mechanism in the present invention.

In the figure, an enzymolysis reaction tank 1, a feed inlet 11, a feed pipe 12, a peptide liquid collection tank 13, an insertion guide mechanism 2, an insertion cylinder 21, a guide cylinder 22, a material reaction cylinder 3, a heat conduction groove 31, a sliding base 32, a sealing groove 33, a guide pipe 34, a guide chute 35, a discharge passage 36, a discharge cavity 37, a lifting motor 38, a constant-temperature heat conduction assembly 4, a rotary sealing part 41, a heat conduction cylinder 42, an annular heat conduction part 43, a rotary groove 44, a heating mechanism 5, a heating cylinder 51, an annular heating strip 52, a rotary driving structure 6, a rotary driving shaft 61, a driving shaft positioning cylinder 62, a rotary driving motor 63, an automatic telescopic stirring device 7, an elastic containing groove 71, a reset spring 72, a telescopic rod 73, a material stirring part 74, a peptide liquid collection assembly 8, a fine filter screen 81, a peptide liquid collection pipe 82, a guide collection mechanism 9, a guide connection part 91 and a peptide liquid collection cylinder 92, A threaded connection 93.

Detailed Description

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

As shown in fig. 1-4, the collagen peptide extraction and collection device comprises an enzymolysis reaction tank 1, the bottom of the enzymolysis reaction tank 1 is connected with a peptide liquid collection tank body 13 through an insertion flow guide mechanism 2, a material reaction cylinder 3 is arranged on the circumference of the enzymolysis reaction tank 1, and the material reaction cylinder 3 is circumferentially provided with a constant temperature heat conduction component 4, the circumferential outer wall of the constant temperature heat conduction component 4 is rotationally connected with a heating mechanism 5 positioned on the outer wall of the enzymolysis reaction tank 1, and enzymolysis retort 1 is interior to be axially equipped with one end and is located material retort 3 in the other end and be located enzymolysis retort 1 outside and can drive 4 circumferential direction's of constant temperature heat conduction subassembly rotation drive structure 6, and rotation drive structure 6 sets up the one end circumference in material retort 3 and is equipped with automatic telescopic agitating unit 7, and the peptide liquid collection tank body 13 circumference is equipped with one end and is located the peptide liquid collection tank body 13 circumference outer wall and the other end is located the inboard peptide liquid collection subassembly 8 of the peptide liquid collection tank body 13 circumference. Add the collagen peptide substrate that will be located material reaction cylinder 3 towards material reaction cylinder 3 in and prepare into collagen solution, put into collagenase this moment, it has automatic telescopic agitating unit 7 to rotate the stirring to utilize rotation drive structure 6 to drive, and simultaneously, utilize heating mechanism 5 to heat constant temperature heat-conducting component 4, constant temperature heat-conducting component 4 keeps the reactant of material reaction cylinder to maintain the constant temperature state, the continuous heating goes out enzyme treatment after the reaction is accomplished, rotate automatic telescopic agitating unit 7 after the processing is accomplished, make collagen peptide composition fall into material reaction cylinder 3 bottom and carry to peptide liquid collection tank body 13, utilize peptide liquid collection component 8 to filter the collection.

Wherein, 1 upper end circumference of enzymolysis retort is equipped with feed inlet 11, and the one end that feed inlet 11 is located 1 inner wall of enzymolysis retort is connected with inlet pipe 12, and inlet pipe 12 passes the rotation sealing 41 that sets up in constant temperature heat-conducting component 4 upper end and communicates each other with 3 circumference inboards of material reaction cylinder. The upper end of the circumferential inner side of the enzymolysis reaction tank 1 is provided with a reaction enzyme collecting cavity for separating enzyme components after enzyme deactivation treatment from reactants.

Visibly, the constant temperature heat conducting assembly 4 comprises a heat conducting cylinder 42 arranged on the outer side of the circumferential direction of the material reaction cylinder 3, the inner wall of the upper end of the heat conducting cylinder 42 is rotatably connected with the upper end of the material reaction cylinder 3, a plurality of annular heat conducting parts 43 are arranged on the inner wall of the circumferential direction of the heat conducting cylinder 42, and one ends, far away from the inner wall of the heat conducting cylinder 42, of the annular heat conducting parts 43 are inserted into the heat conducting grooves 31 which extend horizontally towards the inner part of the material reaction cylinder 3. The annular heat conducting portion 43 forms a rotational support for the material reaction cylinder 3.

Obviously, the heating mechanism 5 includes a heating cylinder 51 circumferentially disposed on the circumferential outer wall of the enzymatic hydrolysis reaction tank 1, the inner wall of the heating cylinder 51 is provided with a plurality of annular heating strips 52 disposed in one-to-one correspondence with the annular heat conducting portions 43, and the annular heating strips 52 are inserted into the rotating grooves 44 on the circumferential outer wall of the heat conducting cylinder 42. The annular heating strips 52 form a support for the heat-conducting cylinder 42.

Further, rotate drive structure 6 including rotating drive shaft 61, rotate drive shaft 61 one end and set up in the drive shaft location section of thick bamboo 62 of 3 circumference inboard bottoms of material reaction cylinder, the other end extends towards enzymolysis retort 1 upper end and is connected with rotation driving motor 63, rotate drive shaft 61 radially wear to locate constant temperature heat-conducting component 4 and with constant temperature heat-conducting component 4 fixed connection.

Specifically, automatic telescopic agitating unit 7 is including setting up and taking in groove 71 at the elasticity that the rotation drive shaft 61 is located the interior circumference inboard of material reaction section of thick bamboo 3, and there is telescopic link 73 through reset spring 72 sliding connection in the elasticity takes in groove 71, and telescopic link 73 keeps away from the one end that elasticity took in groove 71 and is equipped with the material stirring portion 74 that is the arc setting, and material stirring portion 74 is vertical setting. The telescopic length of the telescopic rod 73 can be adjusted by changing the rotating speed of the rotating drive shaft 61.

Furthermore, the peptide liquid collecting assembly 8 comprises a diversion collecting mechanism 9 circumferentially arranged on the peptide liquid collecting tank 13, one end of the diversion collecting mechanism 9 is arranged in the peptide liquid collecting tank 13, a fine filtering net 81 is arranged on the inner side in the circumferential direction, and the other end of the diversion collecting mechanism 9 is arranged on the outer wall of the peptide liquid collecting tank 13 and is in threaded connection with a peptide liquid collecting pipe 82.

More specifically, the diversion collection mechanism 9 includes a diversion connection part 91, one end of the diversion connection part 91 located in the peptide liquid collection tank 13 is provided with a peptide liquid collection cylinder 92, the fine filter screen 81 is arranged in the peptide liquid collection cylinder 92, one end of the diversion connection part 91 located on the outer wall of the peptide liquid collection tank 13 is provided with a threaded connection part 93, the peptide liquid collection pipe 82 is connected with the threaded connection part 93, and the threaded connection part 93, the diversion connection part 91 and the peptide liquid collection cylinder 92 are communicated with each other.

In detail, the insertion guide mechanism 2 comprises a plurality of insertion cylinders 21 arranged on the upper end surface of the peptide liquid collection tank body 13, a plurality of guide cylinders 22 arranged in one-to-one correspondence with the insertion cylinders 21 are arranged at the bottom in the enzymolysis reaction tank 1, and the guide cylinders 22 are arranged in the insertion cylinders 21.

Preferably, the bottom of the material reaction cylinder 3 can be opened and closed by the sliding base 32 arranged in the circumferential direction, the circumferential inner side of the sliding base 32 is provided with a sealing groove 33, the bottom of the material reaction cylinder 3 is provided with a guide pipe 34 inserted into the sealing groove 33, the inner wall of the enzymolysis reaction tank 1 is provided with a guide chute 35 slidably connected with the sliding base 32, the guide chute 35 is provided with a discharge passage 36, the discharge passage 36 is communicated with a discharge cavity 37 arranged between the bottom of the sliding base 32 and the inner wall of the enzymolysis reaction tank 1, and the sliding base 32 is driven by a lifting motor 38 arranged at the bottom of the enzymolysis reaction tank 1 in the radial direction. When the reaction is completed, the slide base 32 is separated from the bottom of the material reaction cylinder 3 by the lift motor 38, and the peptide liquid flows out of the guide pipe 34 and flows to the discharging chamber 37 through the discharging passage 36.

In summary, the principle of the present embodiment is: utilize to rotate drive structure 6 and drive to have automatic telescopic agitating unit 7 to rotate the stirring, and simultaneously, utilize heating mechanism 5 to heat constant temperature heat-conducting component 4, constant temperature heat-conducting component 4 keeps the reactant of material reaction section of thick bamboo to maintain the constant temperature state, the continuous heating goes on enzyme deactivation processing after the reaction is accomplished, rotate automatic telescopic agitating unit 7 after the processing is accomplished, make collagen peptide component fall into material reaction section of thick bamboo 3 bottom, utilize elevator motor 38 to make sliding base 32 break away from material reaction section of thick bamboo 3 bottom, peptide liquid flows out and flows to ejection of compact chamber 37 through ejection of compact route 36 from honeycomb duct 34, utilize honeycomb duct 22 to carry to peptide liquid collection tank body 13, filter the collection through peptide liquid collection component 8.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the enzymatic hydrolysis reaction tank 1, the feed inlet 11, the feed pipe 12, the peptide liquid collection tank 13, the insertion guide mechanism 2, the insertion cylinder 21, the guide cylinder 22, the material reaction cylinder 3, the heat conduction groove 31, the sliding base 32, the sealing groove 33, the guide pipe 34, the guide chute 35, the discharge passage 36, the discharge cavity 37, the lift motor 38, the constant temperature heat conduction assembly 4, the rotary sealing portion 41, the heat conduction cylinder 42, the annular heat conduction portion 43, the rotary groove 44, the heating mechanism 5, the heating cylinder 51, the annular heating strip 52, the rotary drive structure 6, the rotary drive shaft 61, the drive shaft positioning cylinder 62, the rotary drive motor 63, the automatic telescopic stirring device 7, the elastic storage groove 71, the return spring 72, the telescopic rod 73, the material stirring portion 74, the peptide liquid collection assembly 8, the fine filter 81, the peptide liquid collection pipe 82, the guide collection mechanism 9, the guide connection portion 91, and the like are used more frequently, The terms peptide liquid collection cartridge 92, threaded connection 93, etc., do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A collagen peptide draws collection device, includes enzymolysis reaction tank (1), enzymolysis reaction tank (1) bottom be connected with peptide liquid collecting tank body (13) through grafting guiding mechanism (2), its characterized in that, enzymolysis reaction tank (1) circumference be equipped with material reaction cylinder (3), and material reaction cylinder (3) circumference be equipped with constant temperature heat-conducting component (4), constant temperature heat-conducting component (4) circumference outer wall rotate be connected with be located enzymolysis reaction tank (1) outer wall heating mechanism (5), and enzymolysis reaction tank (1) interior axial be equipped with one end be located material reaction cylinder (3) the other end be located enzymolysis reaction tank (1) outside and can drive constant temperature heat-conducting component (4) circumferential direction's rotation drive structure (6), rotation drive structure (6) set up the one end circumference in material reaction cylinder (3) be equipped with automatic telescopic agitating unit (7), the peptide liquid collecting tank body (13) is circumferentially provided with a peptide liquid collecting assembly (8) with one end positioned on the circumferential outer wall of the peptide liquid collecting tank body (13) and the other end positioned on the circumferential inner side of the peptide liquid collecting tank body (13).

2. The collagen peptide draws collection device according to claim 1, wherein, enzymolysis retort (1) upper end circumference be equipped with feed inlet (11), feed inlet (11) be located enzymolysis retort (1) inner wall one end be connected with inlet pipe (12), and inlet pipe (12) pass and set up rotation sealing (41) and the inboard intercommunication in material reaction section of thick bamboo (3) circumference in constant temperature heat conduction subassembly (4) upper end.

3. The collagen peptide extracting and collecting device according to claim 1, wherein the constant temperature heat conducting assembly (4) comprises a heat conducting cylinder (42) arranged at the circumferential outer side of the material reaction cylinder (3), the inner wall of the upper end of the heat conducting cylinder (42) is rotatably connected with the upper end of the material reaction cylinder (3), a plurality of annular heat conducting parts (43) are arranged on the circumferential inner wall of the heat conducting cylinder (42), and one ends of the annular heat conducting parts (43) far away from the inner wall of the heat conducting cylinder (42) are inserted into the heat conducting grooves (31) which extend horizontally towards the inside of the material reaction cylinder (3).

4. The collagen peptide extracting and collecting device according to claim 3, wherein the heating mechanism (5) comprises a heating cylinder (51) circumferentially arranged on the circumferential outer wall of the enzymolysis reaction tank (1), the inner wall of the heating cylinder (51) is provided with a plurality of annular heating strips (52) which are arranged in one-to-one correspondence with the annular heat conducting parts (43), and the annular heating strips (52) are inserted into the rotating grooves (44) on the circumferential outer wall of the heat conducting cylinder (42).

5. The collagen peptide draws collection device according to claim 1, wherein, the rotation drive structure (6) include rotation drive shaft (61), rotation drive shaft (61) one end set up in the drive shaft location section of thick bamboo (62) of material reaction cylinder (3) circumference inboard bottom, the other end extends towards enzymolysis retort (1) upper end and is connected with rotation driving motor (63), rotation drive shaft (61) radially wear to locate constant temperature heat-conducting component (4) and with constant temperature heat-conducting component (4) fixed connection.

6. The collagen peptide extracting and collecting device according to claim 5, wherein the automatic telescopic stirring device (7) comprises an elastic accommodating groove (71) which is arranged at the inner circumferential side of the material reaction cylinder (3) and is positioned at the rotating driving shaft (61), an expansion link (73) is slidably connected in the elastic accommodating groove (71) through a return spring (72), a material stirring part (74) which is arranged in an arc shape is arranged at one end of the expansion link (73) far away from the elastic accommodating groove (71), and the material stirring part (74) is arranged vertically.

7. The collagen peptide extracting and collecting device according to claim 1, wherein the peptide liquid collecting assembly (8) comprises a flow guide collecting mechanism (9) circumferentially arranged on the peptide liquid collecting tank body (13), one end of the flow guide collecting mechanism (9) is arranged in the peptide liquid collecting tank body (13) and a fine filter net (81) is arranged on the inner side in the circumferential direction, and the other end of the flow guide collecting mechanism (9) is arranged on the outer wall of the peptide liquid collecting tank body (13) and is in threaded connection with the peptide liquid collecting pipe (82).

8. The collagen peptide extracting and collecting device according to claim 7, wherein the flow guide collecting mechanism (9) comprises a flow guide connecting part (91), a peptide liquid collecting cylinder (92) is arranged at one end of the flow guide connecting part (91) positioned in the peptide liquid collecting tank body (13), the fine filter net (81) is arranged in the peptide liquid collecting cylinder (92), a threaded connecting part (93) is arranged at one end of the flow guide connecting part (91) positioned on the outer wall of the peptide liquid collecting tank body (13), the peptide liquid collecting pipe (82) is connected with the threaded connecting part (93), and the threaded connecting part (93), the flow guide connecting part (91) and the peptide liquid collecting cylinder (92) are communicated with each other.

9. The collagen peptide extracting and collecting device according to claim 1, wherein the inserting guide mechanism (2) comprises a plurality of inserting cylinders (21) arranged on the upper end surface of the peptide liquid collecting tank body (13), a plurality of guide cylinders (22) arranged corresponding to the inserting cylinders (21) one by one are arranged at the inner bottom of the enzymolysis reaction tank (1), and the guide cylinders (22) are arranged in the inserting cylinders (21).

10. The collagen peptide extraction and collection device according to claim 3, the bottom of the material reaction cylinder (3) can be opened and closed through a sliding base (32) arranged circumferentially, a sealing groove (33) is arranged on the circumferential inner side of the sliding base (32), a guide pipe (34) inserted in the sealing groove (33) is arranged at the bottom of the material reaction cylinder (3), and the inner wall of the enzymolysis reaction tank (1) is provided with a guide chute (35) which is connected with the sliding base (32) in a sliding way, a discharging passage (36) is arranged on the guide chute (35), and the discharging passage (36) is communicated with a discharging cavity (37) arranged between the bottom of the sliding base (32) and the inner wall of the enzymolysis reaction tank (1), the sliding base (32) is driven by a lifting motor (38) which is radially arranged at the bottom of the enzymolysis reaction tank (1).