CN115975795B

CN115975795B - Collagen functional peptide extraction element

Info

Publication number: CN115975795B
Application number: CN202310264540.XA
Authority: CN
Inventors: 白义化; 邢晓明; 孙晓楠; 王欣; 于洋; 袁晓芳; 李慧敏; 刘艺桥; 任凤麟; 俞晓阳; 楚英; 李丽; 刘伟伟
Original assignee: Weihai Yuwang Group Marine Biological Engineering Co ltd
Current assignee: Weihai Yuwang Group Marine Biological Engineering Co ltd
Priority date: 2023-03-20
Filing date: 2023-03-20
Publication date: 2023-05-30
Anticipated expiration: 2043-03-20
Also published as: CN115975795A

Abstract

The invention relates to the technical field of biological manufacturing, in particular to a biological extraction device, and especially relates to a collagen functional peptide extraction device; comprises a mounting rack, a storage tank I, a storage tank II, a storage tank III, a storage tank IV, a connecting pipe and the like; the storage tank I, the storage tank II, the storage tank III and the storage tank IV are sequentially arranged and installed on the installation frame, the bottom of the storage tank I is respectively connected to the top of the storage tank II and the upper side wall of the storage tank IV through connecting pipes, and the bottom of the storage tank II is connected to the upper side wall of the storage tank IV through connecting pipes. The invention integrates the steps of enzymolysis, transfer, crushing and filtering which are needed in the enzymolysis process, and can finish the enzymolysis process through simple operation, thereby greatly improving the use flexibility.

Description

Collagen functional peptide extraction element

Technical Field

The invention relates to the technical field of biological manufacturing, in particular to a biological extraction device, and especially relates to a collagen functional peptide extraction device.

Background

The collagen peptide is an extract of animal connective tissue, has rich nutrients such as protein, amino acid and the like, has the effects of repairing organism skin cells when being eaten frequently, has the effects of recovering skin elasticity, recovering skin luster, delaying aging and moisturizing hair, and is obtained by taking fresh animal tissues (including skin, bones, tendons, scales and the like) rich in collagen as raw materials, decomposing macromolecular collagen peptide chains into small molecules and carrying out enzymolysis.

The existing collagen peptide extraction equipment is subjected to twice enzymolysis, primary enzymolysis is performed on raw materials, the raw materials subjected to enzymolysis are required to be crushed and enter into the process of twice enzymolysis, the existing crushing equipment and the enzymolysis equipment belong to independent equipment, the raw materials are required to be put into the crushing equipment for treatment by manpower, the raw materials are taken out from the crushing equipment, the raw materials are transferred into the enzymolysis equipment for twice enzymolysis, the back and forth transfer easily causes the reduction of the working efficiency of collagen peptide extraction, and the extraction speed is reduced.

Disclosure of Invention

In order to overcome the defects in the prior art, the technical problems to be solved are as follows: provides a collagen functional peptide extraction device.

The technical scheme of the invention is as follows: the utility model provides a collagen functional peptide extraction element, including the mounting bracket, bin I, bin II, bin III, bin IV, the connecting pipe, valve and self priming pump, centrifugation and reducing mechanism and primary enzymolysis holding device, arrange in proper order on the mounting bracket and install bin I, bin II, bin III and bin IV, bin I bottom is put through the connecting pipe respectively at bin II's top and bin IV's upper portion lateral wall, bin II's bottom is put through the connecting pipe and is put through at bin IV's upper portion lateral wall, bin IV bottom is put through the connecting pipe and is put through at bin III top, all be equipped with valve and self priming pump on every connecting pipe, the mounting bracket top sets up primary enzymolysis holding device's bottom through the connecting pipe put through at bin I's middle part, set up in the bin I and be used for carrying out centrifugation and kibbling centrifugation and reducing mechanism with the raw materials that get into the jar in.

In one embodiment, the centrifugal part of the centrifugal and crushing device comprises a motor II and a grinding sieve, the motor II is arranged at the bottom of the storage tank I, an output shaft of the motor II penetrates into the storage tank I, the grinding sieve is fixedly connected on the output shaft, and the grinding sieve is attached to the inner wall of the storage tank I and is in sliding contact with the inner wall of the storage tank I.

In one embodiment, the rolling part of the centrifugal and crushing device comprises a motor I, a cylinder and a conical grinding wheel, wherein the motor I is installed on a cover plate at the top of the storage tank I, an output shaft of the motor I penetrates into the storage tank I, the conical grinding wheel is fixedly connected to the output shaft, a protruding part of the conical grinding wheel is matched with a concave part of the grinding screen, the cylinder is fixedly connected to the bottom of the cover plate, the outer wall of the cylinder is attached to the inner wall of the storage tank I and is in sliding contact with the inner wall of the storage tank I, and the bottom of the cylinder is in sliding contact with the grinding screen.

In one embodiment, the centrifugal and crushing device mainly comprises a rolling part arranged on the upper part of the storage tank I and a rotary centrifugal part arranged on the bottom of the storage tank I, wherein the rolling part and the rotary centrifugal part are mutually matched to perform three rotation states of same-direction rotation, relative rotation and opposite rotation.

In one embodiment, the primary enzymolysis accommodating device comprises an accommodating frame, a discharge hole and a baffle, wherein the accommodating frame is fixedly connected with the top of the mounting frame, the bottom of the accommodating frame is provided with the discharge hole, and the baffle is slidably connected with the discharge hole.

In one embodiment, the device further comprises an opening and closing assembly, and the bottom of the accommodating frame is provided with the opening and closing assembly; the opening and closing assembly comprises an electric push rod, limiting ring blocks, a curved hook rod and an inclined pull rod, wherein the bottom of a containing frame is fixedly connected with the electric push rod, two limiting ring blocks are fixedly connected to a movable rod of the electric push rod at intervals, the movable rod of the electric push rod is in sliding connection with a baffle, the connecting part is positioned between the two limiting ring blocks, the top of a cover plate is fixedly connected with the inclined pull rod, the tail end of the movable rod of the electric push rod is fixedly connected with the curved hook rod, and the curved hook rod is in sliding contact with the inclined pull rod.

In one embodiment, the device also comprises a stirring device, and the top of the storage tank IV is provided with the stirring device for stirring objects in the tank; the stirring device comprises a motor III, a middle shaft and a stirring rod body, wherein the motor III is arranged at the top of the storage tank IV, an output shaft of the motor III is connected with the middle shaft, the middle shaft penetrates into the storage tank IV, and the stirring rod body is fixedly connected with the middle shaft in a radial and uniform distribution manner.

In one embodiment, the filter membrane is further included, and the filter membrane is placed in the storage tank III.

The beneficial effects are that: the invention integrates the steps of enzymolysis, transfer, crushing and filtering which are needed in the enzymolysis process, the enzymolysis process can be completed through simple operation, the use flexibility is greatly improved, and the enzymolysis working efficiency is effectively improved; and the device is simple in design structure, easy to assemble, disassemble and maintain and more convenient to clean later.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the storage tank I, the motor I and the motor II according to the invention.

Fig. 4 is a schematic internal perspective view of the storage tank i according to the present invention.

Fig. 5 is a schematic perspective view of the motor i and the conical grinding wheel according to the invention.

Fig. 6 is a schematic perspective view of a primary enzymolysis accommodating device of the invention.

Fig. 7 is a schematic perspective view of an opening and closing assembly according to the present invention.

Fig. 8 is a schematic perspective view of a stirring device according to the present invention.

FIG. 9 is a schematic perspective view of a cross-sectional view of a storage tank III and a filter membrane according to the present invention.

Marked in the figure as: 1-mounting frame, 2-storage tank I, 21-cover plate, 3-storage tank II, 4-storage tank III, 5-storage tank IV, 6-connecting pipe, 7-valve, 8-self priming pump, 9-motor I, 91-motor II, 92-cylinder, 93-grinding screen, 94-conical grinding wheel, 10-primary enzymolysis containing device, 101-containing frame, 102-discharge port, 103-baffle, 11-opening and closing component, 111-electric push rod, 112-limiting ring block, 113-curved hook rod, 114-diagonal draw rod, 12-stirring device, 121-motor III, 122-central shaft, 123-stirring rod body and 13-filter membrane.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Examples: the utility model provides a collagen functional peptide extraction element, as shown in fig. 1, fig. 2, including mounting bracket 1, holding vessel I2, holding vessel II 3, holding vessel III 4, holding vessel IV 5, connecting pipe 6, valve 7 and self priming pump 8, centrifugation and reducing mechanism and primary enzymolysis accommodate device 10, the holding vessel I2 is installed by left to right range in proper order on the mounting bracket 1, holding vessel II 3, holding vessel III 4 and holding vessel IV 5, the top at holding vessel II 3 and the upper portion lateral wall of holding vessel IV 5 are put through two different connecting pipes 6 respectively to holding vessel I2 bottom, the bottom at holding vessel II 3 is put through connecting pipe 6 and is put through the upper portion lateral wall of holding vessel IV 5, holding vessel IV 5 bottom is put through connecting pipe 6 and is put through at holding vessel III 4 top, holding vessel III 4 put through the calandria that is used for flowing back, valve 7 and self priming pump 8 are all installed on every connecting pipe 6, the top of mounting bracket 1 sets up primary enzymolysis accommodate device 10, the bottom of primary hold device 10 is put through connecting pipe 6 put through and is put through in the middle part of holding vessel I2, set up the centrifugal enzymolysis device and the crushing device that is used for entering the raw materials in the jar body and centrifugal enzymolysis and reducing mechanism are carried out in the setting up in holding vessel I2.

As shown in FIG. 1 and FIG. 3-FIG. 5, the centrifugal part of the centrifugal and crushing device comprises a motor II 91 and a grinding screen 93, the bottom of a storage tank I2 is provided with the motor II 91 through a mounting bracket, an output shaft of the motor II 91 penetrates into the storage tank I2, the penetrating part is subjected to sealing and liquid leakage prevention treatment by utilizing a shaft seal, the grinding screen 93 is connected to the output shaft through a key, the grinding screen 93 is attached to the inner wall of the storage tank I2 and in sliding contact with the inner wall of the storage tank I, and along with the rotation of the grinding screen 93 driven by the motor II 91, the raw materials falling on the grinding screen 93 can throw out water deposited on solid raw materials by utilizing the rotation centrifugal force after rotating, so that the subsequent crushing is facilitated.

As shown in fig. 1, 3-5, the rolling part of the centrifugal and pulverizing device comprises a motor i 9, a cylinder 92 and a conical grinding wheel 94, the motor i 9 is mounted on a cover plate 21 at the top of a storage tank i 2, an output shaft of the motor i 9 penetrates into the storage tank i 2, the penetrating part is treated by sealing leakage-proof liquid through a shaft seal, the conical grinding wheel 94 is connected to the output shaft through a key, a protruding part of the conical grinding wheel 94 is matched with a concave part of a grinding screen 93, the cylinder 92 is fixed at the bottom of the cover plate 21 through a bolt, the outer wall of the cylinder 92 is attached to the inner wall of the storage tank i 2 and is in sliding contact with the inner wall of the storage tank i 2, and the bottom of the cylinder 92 is in sliding contact with the grinding screen 93.

The centrifugal and crushing device mainly comprises a rolling part arranged on the upper part of the storage tank I2 and a rotary centrifugal part arranged on the bottom of the storage tank I2, wherein the rolling part and the rotary centrifugal part are mutually matched to perform three rotary states, namely, the rotary directions of the grinding sieve 93 and the conical grinding wheel 94 are consistent, the relative rotation (namely, any part of the grinding sieve 93 and the conical grinding wheel 94 is in a static state, the other part of the grinding sieve 93 and the conical grinding wheel 94 is in a rotary state, and the rotary directions of the grinding sieve 93 and the conical grinding wheel 94 are opposite, so that the rotary centrifugal and crushing device is used for high-speed crushing).

As shown in fig. 1 and 6, the primary enzymolysis accommodating device 10 includes an accommodating frame 101, a discharge hole 102 and a baffle 103, the top of the mounting frame 1 is fixed with the accommodating frame 101 by bolts, the bottom of the accommodating frame 101 is provided with the discharge hole 102, the bottom in the accommodating frame 101 is inclined towards the discharge hole 102, the raw material solution is facilitated to flow towards the discharge hole 102, and the baffle 103 is slidably connected with the discharge hole 102 to block the solution from flowing out.

As shown in fig. 1 and 7, the device further comprises an opening and closing component 11, and the bottom of the accommodating frame 101 is provided with the opening and closing component 11; the opening and closing assembly 11 comprises an electric push rod 111, a limiting ring block 112, a curved hook rod 113 and a diagonal draw rod 114, the electric push rod 111 is installed at the bottom of the accommodating frame 101, two limiting ring blocks 112 are fixedly connected to the movable rod of the electric push rod 111 at intervals, the movable rod of the electric push rod 111 is slidably connected with the baffle 103, the connecting position is located between the two limiting ring blocks 112, the diagonal draw rod 114 is fixed to the top of the cover plate 21 through bolts, the curved hook rod 113 is welded to the tail end of the movable rod of the electric push rod 111, and the curved hook rod 113 and the diagonal draw rod 114 are in sliding contact.

As shown in fig. 1 and 8, the device also comprises a stirring device 12, and the top of the storage tank iv 5 is provided with the stirring device 12 for stirring objects in the tank; the stirring device 12 comprises a motor III 121, a middle shaft 122 and stirring rod bodies 123, the motor III 121 is arranged at the top of a storage tank IV 5, the middle shaft 122 is connected with the middle shaft 122 in an output shaft mode of the motor III 121, the middle shaft 122 penetrates into the storage tank IV 5, a penetrating portion is sealed and liquid leakage-proof through shaft seals, six groups of stirring rod bodies 123 are uniformly distributed and welded on the middle shaft 12 from top to bottom, four stirring rod bodies 123 are arranged in each group, four stirring rod bodies 123 on the same horizontal plane are arranged in a group, and the middle shaft 122 and the stirring rod bodies 123 are driven to rotate by the motor III 121, so that solution in the storage tank IV 5 can be stirred.

As shown in fig. 1 and 9, the filter membrane 13 is further included, the filter membrane 13 is placed in the storage tank iii 4 and used for filtering impurities in the solution, and the tank cover is cleaned after the filter membrane is blocked.

Placing the raw materials to be extracted into a primary enzymolysis accommodating device 10, adding a corresponding solvent for primary enzymolysis, after the primary enzymolysis is completed, pulling a baffle 103 through an electric push rod 111 to open a discharge port 102, pulling the baffle 103 while a curved hook rod 113 moves, contacting the bottom with the inclined plane of an inclined pull rod 114, enabling the inclined pull rod 114 to slide by contacting the inclined plane of the inclined pull rod with the contact surface of the curved hook rod 113, moving up a cover plate 21, a motor I9, a cylinder 92 and a conical grinding wheel 94 together, at the moment, enabling a raw material solution in the accommodating frame 101 to enter a storage tank I2 through a connecting pipe 6, filtering and downwards flowing the solution through a grinding sieve 93, opening a valve 7 leading to a storage tank II 3, sucking the filtered solution into a storage tank IV 5 through a self-sucking pump 8, closing the valve 7 after the solution is completely sucked, accumulating the rest solid raw materials on the grinding sieve 93, pushing the baffle 103 through the electric push rod 111, simultaneously pressing the solid raw materials by the baffle 102, driving the corresponding conical grinding wheel 94 and the corresponding conical grinding wheel 94 through the motor I9 and the motor II to rotate, and the grinding wheel 94, then leading to the corresponding conical grinding wheel 93 to the bottom to the storage tank 3, stopping the mixed solution to the enzymolysis by adopting a connecting pipe 6 to enter the storage tank I2, filtering and downwards flowing through the corresponding valve 7, opening the valve 7 to the storage tank II, and then opening the mixed solution to the storage tank II 3, and then finishing the secondary enzymolysis, filtering and stirring, opening the solution, and opening the mixed solution, and the filter, and then opening the filter to the filter tank 3, and the filter, and the secondary enzymolysis tank 3, and the stirring. After stirring, the valve 7 connected with the storage tank III 4 is opened, the obtained solution is pumped into the storage tank III 4 through the self-priming pump 8, and the enzymolysis process of the collagen peptide is completed after the solution is filtered through the filter membrane 13.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims

1. The utility model provides a collagen functional peptide extraction element, including mounting bracket (1), holding vessel I (2), holding vessel II (3), holding vessel III (4), holding vessel IV (5), connecting pipe (6) and valve (7), arrange installation holding vessel I (2) in proper order on mounting bracket (1), holding vessel II (3), holding vessel III (4) and holding vessel IV (5), the upper portion lateral wall at the top of holding vessel II (3) and holding vessel IV (5) is put through respectively to holding vessel I (2) bottom through connecting pipe (6), the upper portion lateral wall at holding vessel IV (5) is put through connecting pipe (6) to the bottom of holding vessel II (3), holding vessel IV (5) bottom is put through connecting pipe (6) and is put through at holding vessel III (4) top, its characterized in that: the device comprises a storage tank I (2), and is characterized by further comprising a self-priming pump (8), a centrifugation and crushing device and a primary enzymolysis containing device (10), wherein a valve (7) and the self-priming pump (8) are arranged on each connecting pipe (6), the primary enzymolysis containing device (10) is arranged at the top of the mounting rack (1), the bottom of the primary enzymolysis containing device (10) is communicated with the middle part of the storage tank I (2) through the connecting pipe (6), and a centrifugation and crushing device for centrifugally separating and crushing raw materials entering the tank body is arranged in the storage tank I (2);

the centrifugal part of the centrifugal and crushing device comprises a motor II (91) and a grinding screen (93), the motor II (91) is arranged at the bottom of the storage tank I (2), an output shaft of the motor II (91) penetrates into the storage tank I (2), the grinding screen (93) is fixedly connected to the output shaft, and the grinding screen (93) is attached to the inner wall of the storage tank I (2) and is in sliding contact with the inner wall of the storage tank I;

the rolling part of the centrifugal and crushing device comprises a motor I (9), a cylinder (92) and a conical grinding wheel (94), wherein the motor I (9) is installed on a cover plate (21) at the top of a storage tank I (2), an output shaft of the motor I (9) penetrates into the storage tank I (2), the conical grinding wheel (94) is fixedly connected onto the output shaft, the protruding part of the conical grinding wheel (94) is matched with the concave part of a grinding screen (93), the bottom of the cover plate (21) is fixedly connected with the cylinder (92), the outer wall of the cylinder (92) is attached to the inner wall of the storage tank I (2) and is in sliding contact with the inner wall of the storage tank I, and the bottom of the cylinder (92) is in sliding contact with the grinding screen (93);

the centrifugal and crushing device mainly comprises a rolling part arranged at the upper part of the storage tank I (2) for rolling raw materials and a rotary centrifugal part arranged at the bottom of the storage tank I (2), wherein the rolling part and the rotary centrifugal part are mutually matched and can perform three rotation states of same-direction rotation, relative rotation and opposite rotation;

the primary enzymolysis containing device (10) comprises a containing frame (101), a discharging hole (102) and a baffle (103), wherein the top of the mounting frame (1) is fixedly connected with the containing frame (101), the discharging hole (102) is arranged at the bottom of the containing frame (101), and the baffle (103) is connected at the position of the discharging hole (102) in a sliding manner;

still including opening and shutting subassembly (11), hold frame (101) bottom and set up subassembly (11) that opens and shuts, subassembly (11) that opens and shuts is including electric putter (111), spacing ring piece (112), curved hooked rod (113) and diagonal draw bar (114), hold frame (101) bottom rigid coupling electric putter (111), interval rigid coupling two spacing ring pieces (112) on the movable rod of electric putter (111), the movable rod of electric putter (111) and baffle (103) sliding connection, and the junction is located between two spacing ring pieces (112), apron (21) top rigid coupling diagonal draw bar (114), curved hooked rod (113) of movable rod end rigid coupling of electric putter (111), curved hooked rod (113) and diagonal draw bar (114) sliding contact.

2. The collagen functional peptide extraction device according to claim 1, wherein: the device also comprises a stirring device (12), and the top of the storage tank IV (5) is provided with the stirring device (12) for stirring objects in the tank; the stirring device (12) comprises a motor III (121), a middle shaft (122) and a stirring rod body (123), the motor III (121) is arranged at the top of the storage tank IV (5), an output shaft of the motor III (121) is connected with the middle shaft (122), the middle shaft (122) penetrates into the storage tank IV (5), and the middle shaft (122) is radially and uniformly distributed and fixedly connected with the stirring rod body (123).

3. A collagen functional peptide extraction apparatus as claimed in claim 2, wherein: the filter membrane (13) is also included, and the filter membrane (13) is arranged in the storage tank III (4).