CN116675763A

CN116675763A - Separation device and separation method for collagen peptide production

Info

Publication number: CN116675763A
Application number: CN202310891888.1A
Authority: CN
Inventors: 赵新法
Original assignee: Century Fuxin Health Industry Group Co ltd
Current assignee: Century Fuxin Health Industry Group Co ltd
Priority date: 2023-07-20
Filing date: 2023-07-20
Publication date: 2023-09-01
Anticipated expiration: 2043-07-20
Also published as: CN116675763B

Abstract

The invention relates to the technical field of protein peptide production, in particular to a separation device and a separation method for collagen peptide production. The invention designs the extrusion block, and the collagen solution which is put into the separation bin in advance can be extruded through the mutual insertion of the extrusion block and the separation bin, so that the solution overflows from a gap between the extrusion block and the inner wall of the separation bin, and the purpose of separating the solution from residues is realized.

Description

Separation device and separation method for collagen peptide production

Technical Field

The invention relates to the technical field of protein peptides, in particular to a separation device and a separation method for collagen peptide production.

Background

Collagen peptide is a physiologically extracellular protein. In the aspect of beauty, the product can whiten skin, remove freckles and wrinkles, shrink pores, supplement water and moisturize, and the like. And also can promote bone formation and prevent osteoporosis. In addition, the collagen peptide also has the effects of protecting gastric mucosa and resisting ulcer.

The collagen peptide is generally extracted through bones or skins of animals, the bones or skins are required to be cleaned when being extracted, the cleaned bones or skins are put into a specified container to be boiled, collagen in the bones or skins can be separated through long-time boiling, at the moment, the separated collagen is separated from residues after boiling, the separated collagen is treated, and finally the collagen peptide is obtained, but the conventional collagen separating device generally separates the residues through a filter screen, the separating mode is poor in effect, the residues are easy to block the filter screen during separation, the filtering effect is influenced, meanwhile, the collagen has certain colloid characteristics, the surface of the conventional separating device is easy to adhere to the collagen during separation of the collagen, the separating device is required to be cleaned frequently, and the separating efficiency of the collagen is further reduced.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides a separation device for collagen peptide production.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the separating device for collagen peptide production comprises a separating main body, wherein the separating main body is of a cylindrical structure, a separating bin of the cylindrical structure is fixedly arranged on the inner wall of the separating main body, a supporting frame of an L-shaped structure is fixedly arranged on the outer wall of the separating main body, a first hydraulic unit is fixedly arranged on the supporting frame and above the separating bin, an extrusion block of the cylindrical structure is fixedly arranged at the telescopic end of the first hydraulic unit, and the installation position of the extrusion block corresponds to the installation position of the separating bin;

the shrinkage groove of concave structure has been seted up to the bottom of extrusion piece, the interior fixed mounting of extrusion piece has No. two hydraulic unit, no. two hydraulic unit's flexible end extends into the shrinkage inslot, the below of extrusion piece is provided with discoid structure's extension piece, the top fixed mounting of extension piece has cylindrical structure's lug, the top of lug inserts and establishes in the shrinkage groove and with No. two hydraulic unit's flexible end fixed connection, be provided with annular structure's sealed gasbag between extrusion piece and the extension piece, the top and the bottom of sealed gasbag respectively with the top fixed connection of extrusion piece and extension piece.

In the above-mentioned separator for collagen peptide production, the separation recess has been seted up to the bottom of extension piece, and the bottom fixed mounting of extension piece has sealing film, and sealing film covers in the outside of separation recess, and fixed mounting has pump and gas storage bag in the extension piece, and the pump is linked together with separation recess and gas storage bag respectively through the hose, and the accumulation groove of arc structure has been seted up to the inner wall bottom of separation storehouse and below that is located separation recess.

In the above-mentioned separator for collagen peptide production, the top of extension piece and be located the inner ring department fixed mounting of sealed gasbag have a plurality of along its circumference evenly distributed's location inserted bar, fixed mounting has the locating ring on the inner ring wall of sealed gasbag, and location inserted bar and the inner ring wall fixed connection of locating ring, the top of location inserted bar is inserted and is established in the extrusion piece.

In the above-mentioned separator for collagen peptide production, fixedly mounted has a plurality of bellows on the inner annular wall of holding ring, set up a plurality of through-holes along its circumference evenly distributed on the holding ring, the position of seting up of through-hole and the mounted position one-to-one of bellows are linked together, one side that the bellows was kept away from to the through-hole is linked together with sealed gasbag, fixedly mounted has a stay cord on the inner wall of bellows, the one end of stay cord runs through corresponding through-hole and extends into sealed gasbag and with sealed gasbag's inner wall fixed connection, and fixedly mounted has the locating plate on the stay cord and be located the bellows, fixedly mounted has the regulation extension spring on the locating plate, the one end that the regulation extension spring kept away from the locating plate extends the bellows and fixed connection is on the outer annular wall of holding ring, one end fixed mounting that the bellows kept away from sealed gasbag has the fixed plate, one side fixed plate kept away from the bellows fixed mounting has a plurality of stretch grooves along its circumference evenly distributed on the outer wall of lug, rotationally install the roller bearing on the inner wall of stretch groove, one end that the roller bearing was kept away from the fixed plate and walk around stretch the recess and stretch the inner wall of connecting at the shrink groove top.

In the above-mentioned separator for collagen peptide production, be provided with foam hollow structure's float ring in the separation main body, the positive pole magnetic stripe of annular structure of fixed mounting is gone up to float ring's interior rampart, and fixed mounting has the negative pole magnetic stripe of annular structure on the outer rampart of separation storehouse.

In the separation device for collagen peptide production, the outer wall of the bottom of the floating ring is provided with a plurality of first leaking grooves which are uniformly distributed along the circumferential direction of the floating ring.

In the above-mentioned separator for collagen peptide production, a plurality of No. two hourglass grooves have been seted up to the inner wall bottom of separation storehouse and lie in the outside of piling up the groove, and No. two one ends of leaking the groove are linked together with piling up the groove, and No. two one ends that leak the groove kept away from piling up the groove flushes with the inner wall of separation storehouse.

In addition, the invention also discloses a separation method for collagen peptide production, which comprises the following steps:

s1, injecting raw materials: introducing the prepared liquid containing the collagen peptide into a separation bin;

s2, extrusion separation: the operation extrusion block is slowly inserted into the separation bin, and liquid in the separation bin is slowly extruded through extrusion of the extrusion block, so that separation is realized.

Compared with the prior art, the separation device for collagen peptide production has the advantages that: according to the invention, the extrusion block is designed, collagen solution which is put into the separation bin in advance can be extruded through the mutual insertion of the extrusion block and the separation bin, so that the solution overflows from a gap between the extrusion block and the inner wall of the separation bin, the purpose of separating the solution from residues is realized, meanwhile, after the extrusion block is completely inserted into the separation bin, the residual collagen solution can be extruded through the sealing film and the sealing air bag, the separation effect of the collagen solution is further improved, the extrusion block, the extension block and the outer wall of the sealing air bag are flush, the sealing film can be expanded under the action of inflation, the surface of the sealing film has no complex structure, a large amount of collagen cannot remain on the surface of the sealing film after the collagen solution is separated, and the sealing film is convenient for later cleaning.

Drawings

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

Fig. 2 is a schematic perspective cut-away view of the separator body of the present invention.

FIG. 3 is a schematic perspective view of the extrusion block of the present invention.

FIG. 4 is a schematic view showing a three-dimensional cut-away structure of an extrusion block according to the present invention.

Fig. 5 is a schematic view of a partially enlarged structure of fig. 4 a according to the present invention.

Fig. 6 is a schematic top view of the extension block and bump of the present invention.

Fig. 7 is a partially enlarged schematic structural view of the present invention at B in fig. 6.

Fig. 8 is a schematic view of a partial cross-sectional structure of a bump in the present invention.

FIG. 9 is a schematic view of a partially cut-away structure of a floating ring according to the present invention.

In the figure: 1. a separation body; 2. a separation bin; 3. a support frame; 301. a hydraulic unit I; 4. extruding a block; 101. a floating ring; 102. a positive magnetic stripe; 103. a negative magnetic stripe; 104. a first leaking groove; 401. a shrink tank; 402. a hydraulic unit II; 403. an extension block; 404. a bump; 405. sealing the air bag; 406. a separation groove; 407. a sealing film; 408. an inflator pump; 409. an air storage bag; 201. a stacking groove; 202. a second leaking groove; 410. positioning the inserted link; 411. a positioning ring; 412. a bellows; 413. a through hole; 414. a first pull rope; 415. a positioning plate; 416. adjusting a tension spring; 417. a fixing plate; 418. a second pull rope; 419. stretching the groove; 420. and a roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-9, a separation device for collagen peptide production comprises a separation main body 1, wherein the separation main body 1 is of a cylindrical structure, a separation bin 2 of the cylindrical structure is fixedly installed on the inner wall of the separation main body 1, a support frame 3 of an L-shaped structure is fixedly installed on the outer wall of the separation main body 1, a first hydraulic unit 301 is fixedly installed on the support frame 3 and above the separation bin 2, an extrusion block 4 of the cylindrical structure is fixedly installed at the telescopic end of the first hydraulic unit 301, the installation position of the extrusion block 4 corresponds to the installation position of the separation bin 2, the separation main body 1 is used for being fixed on the ground to play a supporting and collecting role, the separation bin 2 is used for placing boiled collagen solution, the support frame 3 is matched with the first hydraulic unit 301 to drive the extrusion block 4 to lift, the solution in the separation bin 2 can be extruded through the lifting of the extrusion block 4, and the extruded solution overflows from a gap between the extrusion block 4 and the separation bin 2, so that collagen and residues are separated.

The floating ring 101 with the foam hollow structure is arranged in the separating main body 1, the positive magnetic stripe 102 with the circular ring structure is fixedly arranged on the inner annular wall of the floating ring 101, the negative magnetic stripe 103 with the circular tube structure is fixedly arranged on the outer annular wall of the separating bin 2, collagen solution in the separating bin 2 overflows into the separating main body 1 and then is collected, the collected solution can enable the floating ring 101 to float up along with the water level, the floating foam generated on the surface of the solution can be blocked through the floating ring 101, the separation effect of the collagen is further improved, the positive magnetic stripe 102 is matched with the negative magnetic stripe 103, the floating ring 101 can be prevented from contacting with the outer wall of the separating bin 2 under the action of water flow, and the effect of blocking the floating foam is further improved.

A plurality of first leakage grooves 104 which are uniformly distributed along the circumferential direction are formed in the outer wall of the bottom of the floating ring 101, and the first leakage grooves 104 can enable residual solution to smoothly flow out when the floating ring 101 descends to the bottom of the inner wall of the separation main body 1 along with the water level, so that the phenomenon that collagen is easy to remain is avoided, and the collection rate of the collagen solution is improved.

The shrinkage groove 401 of concave structure has been seted up to the bottom of extrusion piece 4, extrusion piece 4 internally fixed mounting has No. two hydraulic unit 402, the expansion end of No. two hydraulic unit 402 extends into shrinkage groove 401 in, the below of extrusion piece 4 is provided with discoid structure's extension piece 403, the top fixed mounting of extension piece 403 has cylindrical structure's lug 404, establish in shrinkage groove 401 and with No. two hydraulic unit 402's expansion end fixed connection at the top of lug 404, be provided with annular structure's sealed gasbag 405 between extrusion piece 4 and the extension piece 403, the top and the bottom of sealed gasbag 405 respectively with extrusion piece 4's bottom and extension piece 403 top fixed connection, the shrinkage groove 401 cooperation No. two hydraulic unit 402 is used for driving lug 404 and extension piece 403 and goes up and down, sealed gasbag 405 is used for sealing the space between extrusion piece 4 and the extension piece 403, the outer wall of sealed gasbag 405 is mutually with extrusion piece 4 and extension piece 403, can play the extrusion effect to sealed gasbag 405 when No. two hydraulic unit 402 drive extension piece 403 and rise, the sealed gasbag 405 can outwards protrude, the extrusion is beaten, the sealed gasbag 405 that receives is outwards protruding, the inner wall 2 of extrusion piece 4 is separated from the top of extrusion piece 4 and the top of extension piece 2, the sealing piece 2 has been separated from the sealing piece 2 has been separated, the sealing piece 2 has been separated to have the sealing solution of the separation piece, the sealing piece 2 has been separated to have been separated to the sealing solution 2, the sealing piece has been separated and the solution has been left the sealing cabin 2 has been separated to the sealing solution 2 to the bottom has been separated.

The bottom of the extension block 403 is provided with the separation groove 406, the bottom of the extension block 403 is fixedly provided with the sealing film 407, the sealing film 407 covers the outer side of the separation groove 406, the extension block 403 is internally and fixedly provided with the air pump 408 and the air storage bag 409, the air pump 408 is respectively communicated with the separation groove 406 and the air storage bag 409 through hoses, the bottom of the inner wall of the separation bin 2 is positioned below the separation groove 406, the arc-shaped stacking groove 201 is formed, when the extension block 403 is inserted into the bottom of the inner wall of the separation bin 2, the sealing film 407 is driven to cover the surface of residues in the stacking groove 201, at the moment, the air in the air storage bag 409 is filled into the separation groove 406 through the air pump 408, so that the sealing film 407 expands outwards of the separation groove 406, the sealing film 407 is in an inner concave state to adsorb the separation groove 406, the sealing film 407 is wrapped outside residues after being outwards expanded, the solution in the stacking groove 201 is further extruded, the separation efficiency of collagen solution is improved, and meanwhile, the residues can be positioned through wrapping of the sealing film 407, and fine residues are avoided overflowing along with the solution.

The inner wall bottom of separation storehouse 2 and lie in the outside of piling up the groove 201 and seted up a plurality of No. two hourglass grooves 202, no. two one ends of hourglass groove 202 are linked together with piling up the groove 201, and No. two one ends that the groove 201 was kept away from to the hourglass groove 202 flushes with the inner wall of separation storehouse 2, and No. two hourglass grooves 202 can make to pile up remaining solution in the groove 201 overflow to between the inner wall of extrusion piece 4 and separation storehouse 2 when sealed film 407 extrudees the residue, further improves the separation effect.

The top of extension piece 403 and be located the inner ring department fixed mounting of sealed gasbag 405 and have a plurality of locating insert rods 410 along its circumference evenly distributed, fixed mounting has locating ring 411 on the inner ring wall of sealed gasbag 405, locating insert rods 410 and the inner ring wall fixed connection of locating ring 411, the top of locating insert rods 410 is inserted and is established in extrusion piece 4, locating insert rods 410 cooperation locating ring 411 can play the effect of inject and direction sealed gasbag 405, can avoid sealed gasbag 405 to the direction inflation of shrink groove 401 after receiving the extrusion.

A plurality of corrugated pipes 412 are fixedly arranged on the inner annular wall of the positioning ring 411, a plurality of through holes 413 which are uniformly distributed along the circumferential direction are formed in the positioning ring 411, the formed position of the through holes 413 is in one-to-one correspondence with the mounting position of the corrugated pipes 412 and communicated with the mounting position of the corrugated pipes 412, one side of each through hole 413, which is far away from the corrugated pipes 412, is fixedly provided with a first pull rope 414, one end of each first pull rope 414 penetrates through the corresponding through hole 413 and extends into the sealing airbag 405 and is fixedly connected with the inner wall of the sealing airbag 405, a positioning plate 415 is fixedly arranged in the corrugated pipes 412, an adjusting tension spring 416 is fixedly arranged on the positioning plate 415, one end of each adjusting tension spring 416, which is far away from the corrugated pipes 412, is fixedly connected with the outer annular wall of the positioning ring 411, one end of each corrugated pipe 412, a fixing plate 417 is fixedly arranged on one side of each fixing plate 417, a second pull rope 418 is fixedly arranged on one side of each outer wall of each lug 404, a plurality of stretching grooves 419 which are uniformly distributed along the circumferential direction extend into the sealing airbag 405, the inner wall 420 is fixedly connected with the sealing airbag 405, a plurality of stretching grooves 419 are uniformly extend along the circumferential direction, the inner wall 420 are fixedly arranged on the inner wall of the corresponding grooves, the first pull ropes 414 is fixedly arranged on the fixing plate, an adjusting tension spring 416 extends out of the corrugated pipes 412, the outer annular wall is fixedly arranged on the outer annular wall of the corresponding adjusting tension ring, the adjusting tension spring, one end extends out of the corrugated pipes 412, the corresponding adjusting tension springs 418 is fixedly arranged on the outer side of the corresponding adjusting tension rods, and extends out of the corresponding sealing airbag 405, and is fixedly arranged on the outer annular wall, and is fixedly, one side of the sealing airbag 405, one side of the sealing ropes 412, one side of the sealing pulling ropes 412 is, and is fixedly, one stretching rods, and is far, and is fixedly, and is far. The sealing airbag 405 can be prevented from friction with the inner wall of the separation bin 2 when the extrusion block 4 is inserted into the separation bin 2, the service life of the sealing airbag 405 is reduced, the problem that the sealing airbag 405 and the inner wall of the separation bin 2 are in contact to cause the solution to overflow smoothly is avoided, the separation efficiency of the collagen solution is further improved, after the extension block 403 is inserted into the bottom of the inner wall of the separation bin 2, the extrusion block 4 can be continuously pressed down to a specified depth in the separation bin 2 through the contraction of the second hydraulic unit 402, at the moment, the second pull rope 418 can be released for a certain length, after the second pull rope 418 is released, the fixing plate 417 and the bellows 412 can be driven to reversely move towards the contraction groove 401 under the elastic force of the adjusting pull rope 416, at the moment, the first pull rope 414 can be released, the sealing airbag 405 can be outwards expanded and props against the outer wall of the separation bin 2 under the extrusion action of the extrusion block 4 and the extension block 403, at the moment, the extrusion block 4 and the extension block 403 can be operated to be lifted up to bring the solution between the extrusion block 4 and the separation bin 2 out of the gap 2.

s1, injecting raw materials: introducing the prepared liquid containing collagen peptide into a separation bin 2;

s2, extrusion separation: the extrusion block 4 is operated to be slowly inserted into the separation bin 2, and liquid in the separation bin 2 is slowly extruded through extrusion of the extrusion block 4, so that separation is realized.

Further, the above-described fixed connection is to be understood in a broad sense, unless explicitly stated and defined otherwise, as being, for example, welded, glued, or integrally formed, as is well known to those skilled in the art.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a collagen peptide production is with separator, includes separation main part (1), its characterized in that: the separating main body (1) is of a cylindrical structure, a separating bin (2) of the cylindrical structure is fixedly arranged on the inner wall of the separating main body (1), a supporting frame (3) of an L-shaped structure is fixedly arranged on the outer wall of the separating main body (1), a first hydraulic unit (301) is fixedly arranged on the supporting frame (3) and above the separating bin (2), a squeezing block (4) of the cylindrical structure is fixedly arranged at the telescopic end of the first hydraulic unit (301), and the installation position of the squeezing block (4) corresponds to the installation position of the separating bin (2);

the shrinkage groove (401) of concave structure has been seted up to the bottom of extrusion piece (4), extrusion piece (4) internal fixation has No. two hydraulic unit (402), the flexible end of No. two hydraulic unit (402) extends into in shrinkage groove (401), the below of extrusion piece (4) is provided with discoid structure's extension piece (403), the top fixed mounting of extension piece (403) has cylindrical structure's lug (404), establish in shrinkage groove (401) and with the flexible end fixed connection of No. two hydraulic unit (402) are inserted at the top of lug (404), be provided with annular structure's sealed gasbag (405) between extrusion piece (4) and extension piece (403), the top and the bottom of sealed gasbag (405) respectively with the bottom of extrusion piece (4) and the top fixed connection of extension piece (403).

2. The separation device for collagen peptide production according to claim 1, wherein: separation recess (406) has been seted up to the bottom of extension piece (403), and the bottom fixed mounting of extension piece (403) has sealing film (407), and sealing film (407) cover in the outside of separation recess (406), and fixed mounting has pump (408) and gas storage bag (409) in extension piece (403), and pump (408) are linked together with separation recess (406) and gas storage bag (409) respectively through the hose, and arc structure's heap groove (201) have been seted up to the inner wall bottom of separation storehouse (2) and are located the below of separation recess (406).

3. The separation device for collagen peptide production according to claim 1, wherein: the top of extension piece (403) and be located the interior ring department fixed mounting of sealed gasbag (405) have a plurality of along its circumference evenly distributed's location inserted bar (410), fixed mounting has locating ring (411) on the interior ring wall of sealed gasbag (405), and location inserted bar (410) are connected with the interior ring wall fixed of locating ring (411), and the top of location inserted bar (410) is inserted and is established in extrusion piece (4).

4. A separation device for collagen peptide production according to claim 3, wherein: a plurality of corrugated pipes (412) are fixedly arranged on the inner annular wall of the positioning ring (411), a plurality of through holes (413) which are uniformly distributed along the circumferential direction of the corrugated pipes are formed in the positioning ring (411), the formed positions of the through holes (413) are in one-to-one correspondence with the mounting positions of the corrugated pipes (412) and are communicated with each other, one end of each through hole (413) far away from the corrugated pipes (412) is communicated with the sealing airbag (405), a first pull rope (414) is fixedly arranged on the inner wall of the corrugated pipe (412), one end of the first pull rope (414) penetrates through the corresponding through hole (413) and extends into the sealing airbag (405) and is fixedly connected with the inner wall of the sealing airbag (405), a positioning plate (415) is fixedly arranged on the first pull rope (414) and is positioned in the corrugated pipe (412), an adjusting tension spring (416) is fixedly arranged on the outer side of the first pull rope (414), one end of the adjusting tension spring (416) far away from the positioning plate (415) extends out of the corrugated pipes (412) and is fixedly connected with the outer annular wall of the positioning ring (411), a plurality of lugs (417) are fixedly arranged on one end of the corrugated pipes (417) far away from the sealing airbag (405) and are fixedly arranged along the outer wall of the sealing airbag (417), the inner wall of the stretching groove (419) is rotatably provided with a roller (420), and one end, far away from the fixed plate (417), of the second stay cord (418) bypasses the roller (420) and extends out of the stretching groove (419) to be fixedly connected to the top of the inner wall of the shrinkage groove (401).

5. The separation device for collagen peptide production according to claim 1, wherein: a floating ring (101) with a foam hollow structure is arranged in the separation main body (1), a positive magnetic strip (102) with a circular ring structure is fixedly arranged on the inner annular wall of the floating ring (101), and a negative magnetic strip (103) with a circular tubular structure is fixedly arranged on the outer annular wall of the separation bin (2).

6. The separation device for collagen peptide production according to claim 5, wherein: a plurality of first leakage grooves (104) which are uniformly distributed along the circumferential direction of the floating ring (101) are formed in the outer wall of the bottom of the floating ring.

7. The separation device for collagen peptide production according to claim 2, wherein: the inner wall bottom of separation storehouse (2) and lie in the outside of piling up groove (201) and seted up a plurality of No. two hourglass grooves (202), no. two one end in hourglass groove (202) is linked together with piling up groove (201), no. two one end that the groove (202) was kept away from piling up groove (201) flushes with the inner wall of separation storehouse (2).

8. The separation method for collagen peptide production, which is applied to the separation device for collagen peptide production according to claim 1, and is characterized in that: the method comprises the following steps:

s1, injecting raw materials: introducing the prepared liquid containing collagen peptide into a separation bin (2);

s2, extrusion separation: the extrusion block (4) is operated to be slowly inserted into the separation bin (2), and liquid in the separation bin (2) is slowly extruded through extrusion of the extrusion block (4) to realize separation.