CN112029661B - A enzymolysis device that is used for balsam pear polypeptide skin care products to draw - Google Patents

Abstract

The embodiment of the invention discloses an enzymolysis device for extracting bitter gourd polypeptide skin care products, which comprises an enzymolysis tank main body and a discharge hole arranged at the bottom of the enzymolysis tank main body, wherein an enzymolysis filter screen for intercepting raw materials to be subjected to enzymolysis is transversely connected to the inner wall of the enzymolysis tank main body; according to the embodiment of the invention, the raw materials to be subjected to enzymolysis are tiled by using the rolling device, and the enzymatic hydrolysate is sprayed on the tiled raw materials to be subjected to enzymolysis through the spraying pipeline, so that the raw materials to be subjected to enzymolysis and the enzymatic hydrolysate are fully mixed and contacted, and the enzymolysis reaction efficiency is improved.

Description

A enzymolysis device that is used for balsam pear polypeptide skin care products to draw

Technical Field

The embodiment of the invention relates to the technical field of bitter gourd polypeptide skin care product production equipment, and particularly relates to an enzymolysis device for extracting bitter gourd polypeptide skin care products.

Background

The balsam pear is a cucurbitaceae plant, and the whole plant comprises fruits with bitter taste, leaf edge teeth shape, rectangular fruits, emerald green tender fruits and orange after ripening; growing in subtropical regions, it is widely cultivated worldwide because it can be used as both a medicine and a vegetable. The fruit is bitter in property and cold in taste, has the effects of clearing summer heat, clearing away heat, improving eyesight, detoxifying and the like, is used for treating trauma by local external application, and is used for expelling parasites, regulating menstruation, resisting viruses and treating measles and hepatitis by oral administration.

Similarly, in the field of skin care products, the balsam pear also has certain efficacy, and can enhance the vitality of the cortex and make the skin tender and body-building. Therefore, products similar to balsam pear powder are developed in the market, but the effective substances in the products have large relative molecular mass and are not easy to be absorbed and utilized by human bodies, so that the balsam pear powder needs to be further extracted to obtain balsam pear polypeptides with smaller molecular mass so as to be convenient for skin absorption.

The existing bitter gourd polypeptide extraction mode generally adopts an enzymolysis method, namely, directly carrying out enzymolysis on bitter gourd powder by adopting cellulase, and then settling, filtering and collecting filtrate to realize the purpose of extraction. The existing enzymolysis mode is lack of a dynamic adjusting process, so that the bitter gourds cannot be broken in time in the enzymolysis process to promote enzymolysis, and the enzymolysis efficiency is low. In addition, in the existing enzymolysis scheme, the device is easy to form an equilibrium state due to the defects of the device, and the shape of the equilibrium state causes the enzymolysis effect to have the difference of subareas, so that the uniformity of the enzymolysis degree is difficult to realize. And for the enzymolysis process of the equilibrium state, because the effective components therein are subjected to the action of gravity, natural coagulation can be caused, so that the main components are all settled to the bottom and are difficult to carry out more enzymolysis, and the final enzymolysis effect is influenced.

Disclosure of Invention

Therefore, the embodiment of the invention provides an enzymolysis device for extracting a bitter gourd polypeptide skin care product, which aims to solve the technical problems of low enzymolysis efficiency and poor enzymolysis effect caused by the fact that bitter gourd powder raw materials are in a balanced state in the prior art.

In order to achieve the above object, an embodiment of the present invention provides the following:

an enzymolysis device for extracting bitter gourd polypeptide skin care products comprises an enzymolysis tank main body and a discharge port arranged at the bottom of the enzymolysis tank main body, wherein an enzymolysis filter screen for intercepting raw materials to be subjected to enzymolysis is transversely connected to the inner wall of the enzymolysis tank main body, the enzymolysis filter screen divides the interior of the enzymolysis tank main body into an enzymolysis cavity above and a filter cavity below, a rolling device for rolling and tiling the raw materials to be subjected to enzymolysis is arranged in the enzymolysis cavity, a spraying pipeline is connected to the rolling device, and the other end of the spraying pipeline is connected with the discharge port;

the enzymolysis intracavity will treat that the enzymolysis raw materials decomposes and carry to the filter chamber through the enzymolysis filter screen with the raw materials that decomposes into the micromolecule, and the enzymolysis raw materials of treating that do not decompose further decomposes through rolling the device and screens the back with the micromolecule treat that the enzymolysis raw materials drenches back to the enzymolysis intracavity promotes the decomposition of treating the enzymolysis raw materials through spray piping.

As a preferable scheme of the invention, the rolling device comprises a spraying rolling head and a bearing arranged on the spraying rolling head, the spraying rolling head is driven by a driving part, a back-leaching pipe fixedly arranged on the main body of the enzymolysis tank is sleeved on the outer surface of the driving part, a closed groove connected with the back-leaching pipe is arranged on the spraying rolling head, and the back-leaching pipe conveys small-molecule raw materials to be subjected to enzymolysis into the spraying rolling head through the closed groove.

As a preferable scheme of the invention, the driving piece comprises a motor arranged on the outer side of the top of the enzymolysis tank main body, an output shaft of the motor is connected with a rotating shaft penetrating through the bearing, a driving gear is arranged at the end part of the rotating shaft, and a driven gear meshed with the driving gear is annularly arranged on the inner wall of the spraying and grinding head.

As a preferable scheme of the present invention, the spray mill head includes a rotating pipe connected to a bearing, a plurality of first branch pipes are connected to a lower end of the rotating pipe, a mill cylinder communicated with the first branch pipes is connected to an end of each of the first branch pipes, and a plurality of liquid spray holes are provided on a side wall of each of the mill cylinders.

As a preferred scheme of the invention, an annular locking disc is arranged at the center of the enzymolysis filter screen, an annular groove correspondingly embedded with the locking disc is formed at the connecting end of the plurality of grinding cylinders, an inward-sinking groove and an elastic grain which are mutually locked are arranged at the connecting part of the locking disc and the annular groove, a plurality of inward-curled extrusion ridges which are sequentially arranged are arranged on both sides of each grinding cylinder, and tooth-shaped protrusions which are unevenly distributed are arranged on each extrusion ridge.

As a preferable scheme of the invention, the spray pipeline comprises a circulating pump fixed on one side of the enzymolysis tank main body, a water inlet of the circulating pump is connected with the discharge port through a transfer pipe, a water outlet of the circulating pump is connected with the back-spray pipe through a return pipe, the discharge port is provided with two second branch pipes, each second branch pipe is provided with an independent switch valve, and the spray pipeline is connected with one of the second branch pipes.

As a preferred scheme of the invention, a plurality of fixing blocks are arranged on the inner wall of the enzymolysis tank main body, the enzymolysis filter screen is arranged in the enzymolysis tank main body through the fixing blocks and is in contact with the inner wall of the enzymolysis tank main body in a fitting manner, and a bumping spring is arranged between the enzymolysis filter screen and the fixing blocks and is used for restoring the enzymolysis filter screen to the original position.

As a preferable scheme of the present invention, a bottom-detecting threaded ridge is fixedly installed on the bottom surface of the annular groove, a collision ridge having the same shape as the bottom-detecting threaded ridge is fixedly installed on the upper surface of the locking disk, and both side edges of the bottom-detecting threaded ridge and both side edges of the collision ridge are configured as arc surfaces.

As a preferable scheme of the present invention, the thickness of the interference ridge is equal, and the thickness of the ground thread ridge is reduced from the edge to the center or from the center to the edge in sequence. In a preferred embodiment of the present invention, a plurality of cliff ridges are provided on the threaded crest of the sounding bottom, the cliff ridges on the threaded crest of the sounding bottom are sequentially arranged, and the width of each cliff ridge is not less than 1/5 of the threaded crest of the sounding bottom.

The embodiment of the invention has the following advantages:

the invention sets the main body of the enzymolysis tank into an enzymolysis cavity and a filter cavity, and an enzymolysis filter screen is arranged between the enzymolysis cavity and the filter cavity, thereby dividing the enzymolysis process into two areas, being beneficial to forming a dynamic process in the enzymolysis process, and taking the enzymolysis cavity as an enzymolysis reaction, the filter cavity is used for storing materials completed by enzymolysis, and a rolling device is arranged in the enzymolysis cavity and is used for rolling raw materials to be subjected to enzymolysis to promote the enzymolysis effect, and in addition, the raw materials to be subjected to enzymolysis and the enzymolysis liquid are always in the dynamic process through a spraying pipeline, so that the raw materials to be subjected to enzymolysis and the enzymolysis liquid are fully mixed and contacted, and the enzymolysis reaction efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a schematic view of the overall structure of an enzymolysis device provided in an embodiment of the present invention;

FIG. 2 is a bottom view of the rotary tube of the enzymatic hydrolysis apparatus shown in FIG. 1;

fig. 3 is a schematic structural diagram of an enzymolysis filter screen in the embodiment of the invention.

In the figure:

1-enzymolysis tank main body; 2-enzymolysis filter screen; 3-rolling and rotating the device; 4-a spray pipeline;

11-a discharge hole; 12-an enzymolysis cavity; 13-a filter chamber;

21-a locking disk; 22-an annular groove; 23-a jounce spring; 24-an annular groove; 25-inner sink groove; 26-elastic threads; 27-pressing ridge; 28-tooth-shaped protrusions;

31-back shower pipe; 32-a bearing; 33-spraying and rolling head; 34-a motor; 35-a rotating shaft; 36-a drive gear; 37-a driven gear;

41-circulating pump; 42-a transfer tube; 43-a return pipe;

111-a second branch; 112-switching the valve;

331-a rotating tube; 332-a first branch; 333-rolling the cylinder; 334-liquid spray hole.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the invention provides an enzymolysis device for extracting bitter gourd polypeptide skin care products, which comprises an enzymolysis tank main body 1 and a discharge port 11 arranged at the bottom of the enzymolysis tank main body 1, wherein an enzymolysis filter screen 2 for intercepting raw materials to be subjected to enzymolysis is transversely connected to the inner wall of the enzymolysis tank main body 1, the enzymolysis filter screen 2 divides the interior of the enzymolysis tank main body 1 into an upper enzymolysis cavity 12 and a lower filter cavity 13, a rolling device 3 for rolling and flatly paving the raw materials to be subjected to enzymolysis on the enzymolysis filter screen 2 is arranged in the enzymolysis cavity 12, a spray pipeline 4 is further arranged in the enzymolysis cavity 12, one end of the spray pipeline 4 is connected with the rolling device 3 for spraying the flatly paved raw materials to be subjected to enzymolysis, and the other end of the spray pipeline 4 extends out of the top of the enzymolysis pipe main body 1 and is connected.

The enzymolysis raw materials will be treated in the enzymolysis chamber 12 and will be decomposed into the raw materials of micromolecule through enzymolysis filter screen 2 and carry to filter chamber 13 in, the enzymolysis raw materials of treating that do not decompose further decompose and screen the back through rolling device 3 and drench the enzymolysis raw materials of treating of micromolecule back to the enzymolysis chamber 12 in the promotion treats the decomposition of enzymolysis raw materials through spray piping 4.

The design principle of the embodiment of the invention lies in that the enzymolysis tank main body 1 is arranged into an enzymolysis cavity 12 and a filter cavity 13, an enzymolysis filter screen 2 is arranged between the enzymolysis cavity 12 and the filter cavity 13, the enzymolysis cavity 12 is used for enzymolysis reaction, the filter cavity 13 is used for storing materials completed by enzymolysis, a rolling device 3 is arranged in the enzymolysis cavity 12 and is used for rolling and flatly paving raw materials to be subjected to enzymolysis on the enzymolysis filter screen 2, the enzymolysis liquid in the filter cavity 13 is sprayed and flatly paved through a spraying pipeline 4, the raw materials to be subjected to enzymolysis and the enzymolysis liquid are forced to be fully mixed and contacted, and the enzymolysis reaction efficiency is improved.

Based on the above design principle, this enzymolysis device should follow the height that the addition of enzymolysis liquid is highly not higher than enzymolysis filter screen 2 when reinforced, treat that the enzymolysis material does not have the submergence in the enzymolysis promptly, this is because in case treat that the enzymolysis raw materials submergence is in the enzymolysis liquid completely, bitter gourd powder floats can't realize rolling the tiling function that rolls of commentaries on classics device 3 under the buoyancy effect, the completion of enzymolysis reaction mainly depends on the realization that sprays of continuous enzymolysis liquid, the raw materials bitter gourd powder is the bitter gourd polypeptide of micromolecule by the enzymolysis, the bitter gourd polypeptide that enzymolysis liquid and enzymolysis produced all gets into in filter chamber 13 through enzymolysis filter screen 2.

Specifically, it is in to change device 3 including spraying the head of grinding 33 and setting spray bearing 32 on the head of grinding 33, it drives through the driving piece to spray the head of grinding 33 the outer surface cover of driving piece is equipped with fixed mounting the pipe 31 is drenched to returning on the enzymolysis tank main part 1 spray the head of grinding 33 on be equipped with return the closed groove that drenches the pipe 31 and connect, return and drench pipe 31 with the enzymolysis raw materials of treating of micromolecule through carrying to spraying in the head of grinding 33 through closed groove.

Further, the driving member is a power device capable of realizing rotation of the spraying, rolling and spraying rolling head, in the embodiment of the present invention, as shown in fig. 2, the driving member includes a motor 34 installed on the outer side of the top of the enzymolysis tank main body 1, an output shaft of the motor 34 is connected with a rotating shaft 35, an end portion of the rotating shaft 35 is provided with a driving gear 36, a driven gear 37 engaged with the driving gear 36 is annularly installed on an inner wall of the spraying rolling head 33, that is, the driven gear 37 engaged with the driving gear 36 is driven to rotate by electric rotation of the driving gear 36, so as to further drive the spraying rolling head 33 to realize the rotation and.

The spraying and rolling head 33 comprises a rotating pipe 331 connected with the bearing 32, when the driving member is the matching structure of the driving gear 36 and the driven gear 37, the driven gear 37 can be installed on the inner wall of the upper end of the rotating pipe 331, the lower end of the rotating pipe 331 is connected with a plurality of first branch pipes 332, the end parts of the first branch pipes 332 are rotatably connected with rolling cylinders 333, the rolling cylinders 333 are mutually communicated with the first branch pipes 332, and the side walls of the rolling cylinders 333 are provided with a plurality of liquid spraying holes 334.

Here, the first branch pipe 332 and the rolling cylinder 333 may be connected by a bearing or other adapter that can prevent the rotation of the rolling cylinder 333 from being limited by the first branch pipe 332, the spray pipe 4 transports the liquid in the filter chamber 13 into the back-shower pipe 31, the back-shower pipe 31 continues to transport the liquid downward, and the liquid enters the rotating pipe 331 along the gap between the driving gear 36 and the driven gear 37 and is sprayed out through the liquid-spraying hole 334. Therefore, the rotation of the rotating pipe 331 is realized, the rotating and rolling action of the rolling cylinder 333 along the first branch pipe 332 is also realized, and in the rotating and rolling process, the liquid spraying holes 334 synchronously spray the enzymatic hydrolysis liquid, so that the enzymatic hydrolysis liquid is uniformly sprayed to the tiled raw materials to be subjected to enzymatic hydrolysis.

Because the milling drum 333 is connected to the rotating pipe 331 through the first branch pipe 332, the raw material to be enzymolyzed, which is gathered on the middle of the enzymolysis filter screen 2, is only squeezed by the lower end of the first branch pipe 332 but does not uniformly spray the enzymolysis liquid, and for this problem, in the embodiment of the present invention, the radius of the milling drum 333 is designed to be larger than that of the first branch pipe 332.

Enzymolysis filter screen 2 center is provided with and is annular locking disk 21, and is a plurality of the connecting end of a roll section of thick bamboo 333 form with locking disk 21 corresponds the ring channel 24 of gomphosis, just locking disk 21 with the junction of ring channel 24 is provided with heavy groove 25 in the locking each other and elasticity line 26.

Through setting up ring channel 24 and locking disc 21 to form the structure of integration with enzymolysis filter screen 2 and the locking of rolling a 333, prevent that both take place to break away from at the pivoted in-process, thereby influence its effect of milling. Further, by arranging the inner sinking groove 25 and the elastic grains 26, the locking effect of the enzymolysis filter screen 2 and the rolling cylinder 333 is better.

Because the effect of the grinding cylinder 333 lies in realizing grinding the bitter gourd raw material, in order to facilitate the bitter gourd raw material to smoothly enter the grinding cylinder 333 and be ground orderly, each of the two sides of the grinding cylinder 333 is provided with a plurality of inward-curled squeezing ridges 27 which are arranged in sequence, and the bitter gourd raw material can be moved orderly as in the grinding cylinder 333 through the inward-curled structure characteristics which are arranged in sequence, in addition, each of the squeezing ridges 27 is provided with tooth-shaped protrusions 28 which are unevenly distributed, so that the occlusion capability of the bitter gourd raw material is enhanced, the bitter gourd raw material is crushed, and the crushing effect of the bitter gourd raw material is improved.

The spraying pipeline 4 comprises a circulating pump 41 fixed on one side of the enzymolysis tank body 1, a water inlet of the circulating pump 41 is connected with the discharge hole 11 through an adapter tube 42, a water outlet of the circulating pump 41 is connected with the back-spraying pipe 31 through a return pipe 43, and the circulating pump 41 is used as a power source to realize the return of the enzymolysis liquid.

In addition, owing to treat that the enzymolysis raw materials highly along with the enzymolysis reaction goes on progressively lowly, if enzymolysis filter screen 2 highly fixed, the later stage that probably leads to the enzymolysis reaction treats the enzymolysis raw materials and sprays the unable contact of pressure head 33, consequently, can be with the high design of enzymolysis filter screen 2 for adjustable type, specifically, the inner wall of enzymolysis tank main part 1 is provided with a plurality of fixed blocks 22, enzymolysis filter screen 2 sets up through fixed block 22 in the enzymolysis tank main part 1 and with the laminating contact of the 1 inner wall of enzymolysis tank main part 2 enzymolysis filter screen 2 with be provided with jolt spring 23 between the fixed block 22, jolt spring 23 be used for with enzymolysis filter screen 2 resumes to the original position.

In the embodiment, the bumping spring 23 is arranged, so that the enzymolysis filter screen 2 after dislocation can be restored to the original position under the action of the bumping spring 23.

The bottom surface of the annular groove 24 is fixedly provided with a bottom detection threaded ridge 29, the upper surface of the locking disc 21 is fixedly provided with a collision ridge, the shape of the bottom detection threaded ridge 29 is the same, and the bottom detection threaded ridge 29 and two side edges of the collision ridge are both arranged to be arc surfaces. Due to the rotation of the milling drum 333, when the bottom-detecting threaded rib 29 and the interference rib contact each other, the distance between the locking disk 21 and the annular groove 24 increases, so that the enzymolysis filter screen 2 is displaced downward. Relative dislocation takes place through losing gas and will effectual improvement balsam pear smashes and the effect of fermentation, avoids because screens scheduling problem makes the balsam pear stop between the two, influences final breakage and fermentation effect, makes to be in the non-equilibrium state between the two through foretell mode, is in the non-equilibrium state of developments along with the rotation of rolling section of thick bamboo 333, avoids the unable effective problem such as smashing that the equilibrium state leads to.

In the above, in order to make the effect of the dislocation better, the thicknesses of the interference ridges are all set to be equal, and the thicknesses of the ground thread ridges 29 are sequentially reduced from edge to center or from center to edge. A plurality of cliff ridges are arranged on the bottom detection threaded ridge 29, the cliff ridges on the bottom detection threaded ridge are sequentially arranged, and the width of each cliff ridge is not less than 1/5 of the bottom detection threaded ridge. Through setting up the cliff bank for can be continuous at the pivoted in-process take place undulant, make enzymolysis filter screen 2 take place the number of times of dislocation downwards more, the effect is better.

The initial start of reaction is because treating enzymolysis raw materials thickness great, and consequently the extrusion effect that spring 23 received is great, along with treating enzymolysis raw materials thickness on the enzymolysis filter screen 2 and reducing, the extrusion force that spring 23 received constantly reduces.

In the embodiment of the present invention, the discharge port 11 also needs to take the role of discharging after the completion of the enzymatic hydrolysis reaction, so that the discharge port 11 is divided into two second branch pipes 111, each second branch pipe 111 is provided with an independent switch valve 112, and the spray pipe 4 is connected with one of the second branch pipes 111.

Before the enzymolysis reaction does not end, a ooff valve 112 for the second branch pipe 111 of the ejection of compact is closed, the second branch pipe 111 of being connected with spray piping 4 is opened, realize the backward flow of enzymolysis liquid, otherwise after the enzymolysis reaction, close the second branch pipe 111 of being connected with spray piping 4, open the second branch pipe 111 of being used for the ejection of compact, can realize the blowing function, because the design of enzymolysis filter screen 2, reducible filtration operation, simultaneously when the blowing, can continue to roll the rotation of device 3 and roll the function, material sediment on the crowded dry enzymolysis filter screen 2, avoid extravagant.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (9)

1. The utility model provides an enzymolysis device for bitter gourd polypeptide skin care product draws, includes enzymolysis tank main part (1) and sets up discharge gate (11) of enzymolysis tank main part (1) bottom, its characterized in that, the inner wall transverse connection of enzymolysis tank main part (1) has enzymolysis filter screen (2) that are used for the interception to treat the enzymolysis raw materials, enzymolysis filter screen (2) divide into enzymolysis chamber (12) of top and filter chamber (13) of below with the inside of enzymolysis tank main part (1), be provided with in enzymolysis chamber (12) and be used for rolling and tiling and treat the device (3) of rolling of enzymolysis raw materials, just be connected with spray pipe (4) on the device (3) of rolling the other end of spray pipe (4) with discharge gate (11) are connected;

the raw materials to be subjected to enzymolysis are decomposed in the enzymolysis cavity (12) and are conveyed into the filter cavity (13) through the enzymolysis filter screen (2), and the raw materials to be subjected to enzymolysis which are not decomposed are further decomposed and screened through the rolling device (3) and then are sprayed back into the enzymolysis cavity (12) through the spraying pipeline (4) to promote the decomposition of the raw materials to be subjected to enzymolysis;

roll device (3) and be in including spraying the head of grinding (33) and setting spray bearing (32) on the head of grinding (33), it drives through the driving piece to spray head of grinding (33) the outer surface cover of driving piece is equipped with fixed mounting drench back pipe (31) on enzymolysis tank main part (1) spray be equipped with on the head of grinding (33) with drench back the closed groove that pipe (31) are connected, drench back pipe (31) and carry the enzymolysis raw materials of treating of micromolecule to spray in head of grinding (33) through the closed groove.

2. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 1, characterized in that, the driving piece is including installing motor (34) outside enzymolysis tank main part (1) top, the output shaft of motor (34) has the axis of rotation (35) of passing bearing (32), the tip of axis of rotation (35) is provided with driving gear (36), the interior wall annular of spraying grinding head (33) install with driven gear (37) that driving gear (36) engaged with.

3. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 1, characterized in that, spray rolling head (33) including with the rotation pipe (331) that bearing (32) are connected, the lower extreme of rotation pipe (331) is connected with a plurality of first branch pipes (332), the tip of every first branch pipe (332) all is connected with the rolling section of thick bamboo (333) that first branch pipe (332) communicate, and all be equipped with a plurality of hydrojet holes (334) on the lateral wall of every rolling section of thick bamboo (333).

4. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 3, characterized in that, enzymolysis filter screen (2) center is provided with and is annular locking disk (21), and is a plurality of the link of a roll (333) form with locking disk (21) correspond ring channel (24) of gomphosis, and locking disk (21) with the junction of ring channel (24) is provided with interior heavy groove (25) and elasticity line (26) of mutual locking, at every the both sides of a roll (333) all are provided with a plurality of extrusion banks (27) that inwards curl and arrange in proper order, every all be provided with the profile of tooth arch (28) of uneven distribution on extrusion banks (27).

5. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 1, characterized in that, shower (4) including fix enzymolysis tank main part (1) one side circulating pump (41), the water inlet of circulating pump (41) through switching pipe (42) with discharge gate (11) are connected, the delivery port of circulating pump (41) pass through back flow (43) with back to drench the pipe (31) and be connected, discharge gate (11) branch is equipped with two second branch pipes (111), each second branch pipe (111) all be equipped with independent ooff valve (112), shower (4) with one of them second branch pipe (111) be connected.

6. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 4, characterized in that, the inner wall of enzymolysis tank main part (1) is provided with a plurality of fixed blocks (22), enzymolysis filter screen (2) set up through fixed block (22) in enzymolysis tank main part (1) and with enzymolysis tank main part (1) inner wall laminating contact enzymolysis filter screen (2) with be provided with between fixed block (22) and jolt spring (23), jolt spring (23) be used for with enzymolysis filter screen (2) resume to the original position.

7. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 6, characterized in that, the bottom surface fixed mounting of ring channel (24) has spy end screw thread arris (29), and is in the upper surface fixed mounting of locking disc (21) spy end screw thread arris (29) the same conflict arris of shape, spy end screw thread arris (29) with conflict arris both sides limit all sets up the cambered surface.

8. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 7, characterized in that, the thickness of conflict arris all equals, the thickness of spy end screw thread arris (29) is reduced by edge to center or from center to edge in proper order.

9. The enzymolysis device that is used for balsam pear polypeptide skin care products to draw of claim 8, characterized in that, a plurality of scarp is provided on said bottom-detecting screw thread arris (29), the scarp on a plurality of said bottom-detecting screw arriss is arranged in order, and the width of each said scarp is not less than 1/5 of said bottom-detecting screw arris.

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