CN206232736U - A kind of bionic enzymatic equipment - Google Patents

Abstract

The utility model discloses a kind of bionic enzymatic equipment, including the breaker (1) being sequentially connected, first order enzymolysis device (2) and second level enzymolysis device (3), also include being used to control the controller of the enzymolysis equipment operation work, the first order enzymolysis device (2) is connected with pepsin storage tank (5), and the second level enzymolysis device (3) connects trypsase storage tank (4).A kind of bionic enzymatic equipment operation of this utility model is easy to use, efficiency high, security are good, with preferable application prospect.

Description

A kind of bionic enzymatic equipment

Technical field

The utility model belongs to zymolysis technique field, more specifically to a kind of bionic enzymatic equipment.

Background technology

Traditional material extracting mode is used and stays the modes such as powder, water extraction or low-temperature homogenate mostly, otherwise this kind of mode is raw Thing availability is low, otherwise side reaction is more.It is industrial at present main using acid-hydrolysis method production HVP.But acid hydrolytic reaction condition swashs It is strong, amino acid can be destroyed, additionally, acid-hydrolysis method can produce carcinogenic substance；Also enzyme hydrolysis method, but enzymolysis tables of equipment one, enzyme are used Solution inefficiency, it is impossible to the need for meeting people.

Utility model content

The purpose of this utility model is to solve the problems, such as prior art, there is provided convenient, efficiency high that one kind is operated with, A kind of safe bionic enzymatic equipment.

To achieve these goals, the technical scheme that the utility model is taken is：This kind of bionic enzymatic for being provided Equipment, including the breaker being sequentially connected, first order enzymolysis device and second level enzymolysis device, also including being used to control the enzyme The controller of solution equipment operation work, the first order enzymolysis device is connected with pepsin storage tank, the second level enzymolysis Device connects trypsase storage tank.

To make above-mentioned technical proposal more detailed and specific, the utility model also provides optimization technique further below Scheme, to obtain satisfied practical function：

The breaker includes the feed(raw material)inlet of disintegrating machine shell and disintegrating machine inner casing and the connection disintegrating machine inner casing, The crushing mechanism of crushing grinding raw material is provided with the disintegrating machine inner casing.

The crushing mechanism includes broken motor, and the output end connection disintegrating machine rotating shaft of the broken motor is described broken Machine rotating shaft is provided with broken screw feeder blade.

The disintegrating machine rotating shaft is extended straight down by the upper end of the disintegrating machine inner casing, the lower end of the disintegrating machine rotating shaft Be provided with reclaiming plate, the reclaiming plate be provided with it is some go out material through hole.

The breaker outside is provided with ptyalin storage tank, and ptyalin is via ptyalin delivery conduit It is delivered in the disintegrating machine inner casing.

The ptyalin delivery conduit is the vertical high-pressure delivery pipe for extending, in the ptyalin delivery conduit Side wall is provided with some spray orifices.

The disintegrating machine outer casing bottom of the breaker is provided with and for fragment outwards to export pushing away to next reflection device Send device.

The pusher include horizontal cross arrangement push rotating shaft, located at it is described push rotating shaft on push blade and Drive the push motor for pushing axis of rotation work.

One end that the disintegrating machine shell is stretched out in the push rotating shaft is provided with discharge gate, the discharge gate and the first order The charging aperture connection of enzymolysis device.The discharge gate is the pyramidal structure tapered into along push direction section.

The first order enzymolysis device includes first order enzymatic vessel, and the mixer in the first order enzymatic vessel Structure.

The rabbling mechanism includes agitating shaft and the stirring vane located at the agitating shaft lower end, and the agitating shaft is by stirring Motor drives rotation work.

The first order enzymatic vessel lower section is provided with the filter cavity to reactants separate filtering, is provided with the filter cavity Milipore filter I.

The first order enzymatic vessel lower section is provided with the horn-like kuppe of the opening of milipore filter I.

The cavity that the filter cavity is located at the top of the milipore filter I is communicated to the first order enzymolysis by return duct Tank；The one-level zymolyte for being connected to the second level enzymolysis device is provided with the side wall positioned at cavity below the milipore filter I Discharging opening.

Hydrochloric acid storage tank is additionally provided with the first order enzymatic vessel, built with being used to adjust pH value in first order enzymatic vessel Watery hydrochloric acid.

The first order enzymolysis device is additionally provided with to control the first attemperating unit of its tank body interior reaction temperature.

The attemperating unit includes heater, thermometer and is connected to the first temperature sensor of the controller.

The second level enzymolysis device includes second level enzymatic vessel and the enzyme digestion reaction in the second level enzymatic vessel Pipeline, the enzyme digestion reaction pipeline is provided with one-level zymolyte charging aperture and connects the trypsase of the trypsase storage tank Conveying mouth.

The enzyme digestion reaction pipeline is arranged in the second level enzymatic vessel crooked pipeline, the enzyme digestion reaction pipe for serpentine-like Road wall is made up of milipore filter.

The enzyme digestion reaction lower end of duct is provided with the waste gate of waste material after discharge reaction.

The second level enzymatic vessel lower end is provided with secondary enzymolysis thing discharging opening.

The second level enzymolysis device is additionally provided with to control the second attemperating unit of its tank body interior reaction temperature.

The attemperating unit includes heater, thermometer and is connected to the second temperature sensor of the controller.

The bionic enzymatic equipment is additionally provided with after being placed in the second level enzymolysis device and is used to purify carrying for secondary enzymolysis product Pure device.

The purifying plant include tophan box, the purification outer tank being placed on the outside of the tophan box, the tophan box is by rotating Motor drives high-speed rotation, and some ultrafiltration holes are provided with the centrifugation pot sidewall.

The tophan box is provided with tophan box charging aperture, and the purification outer tank is provided with aligns when the tophan box is static The secondary enzymolysis thing charging aperture of the tophan box charging aperture.

The tophan box charging aperture is the larger funnel-shaped structure in opening.

The purification outer tank is provided with milipore filter II near bottom.

The tank bottom of the purification outer tank is provided with discharging opening, and the tank bottom is in tilted layout towards discharging opening.

The utility model compared with prior art, with advantages below：A kind of bionic enzymatic equipment of the utility model, its intelligence Can change that degree is high, small-molecular peptides are made using the method for bionic enzymatic, control to exist per order reaction as far as possible in enzymolysis process Digested under optimal enzymatic hydrolysis condition, to ensure more fully to digest, improved enzymolysis efficiency, and non-enzyme is removed through appropriate ways The inactive protein of solution, enhances curative effect, reduces adverse reaction rate, safe, and the enzymolysis equipment applicability By force, with preferable application prospect.

Brief description of the drawings

The content expressed by the accompanying drawing of this specification and the mark in figure are briefly described below：

Fig. 1 is the utility model bionic enzymatic device structure schematic diagram；

Fig. 2 is breaker structural representation；

Fig. 3 is first order enzymolysis device structural representation；

Fig. 4 is second level enzymolysis device structural representation；

Fig. 5 purifying plant structural representations.

Marked in figure：1st, breaker；11st, disintegrating machine shell；12nd, disintegrating machine inner casing；13rd, feed(raw material)inlet；14th, crush Mechanism；141st, motor, 142, disintegrating machine rotating shaft are crushed；143rd, screw feeder blade is crushed；144th, reclaiming plate；

2nd, first order enzymolysis device；21st, first order enzymatic vessel, 22, rabbling mechanism；221st, stirring motor；222nd, agitating shaft； 223rd, stirring vane；23rd, filter cavity；24th, return duct；25th, kuppe；26th, milipore filter I；27th, one-level zymolyte discharging opening；

3rd, second level enzymolysis device；31st, second level enzymatic vessel, 32, enzyme digestion reaction pipeline；33rd, vibrator；34th, one-level enzyme Solution thing charging aperture；35th, trypsase conveying mouth；36th, secondary enzymolysis thing discharging opening；

4th, trypsase storage tank；5th, pepsin storage tank；6th, hydrochloric acid storage tank；7th, ptyalin storage tank；

8th, pusher；81st, motor is pushed；82nd, rotating shaft is pushed；83rd, blade is pushed；84th, discharge gate；

9th, purifying plant；91st, outer tank, 92, tophan box are purified；93rd, milipore filter II；94th, tank bottom；95th, discharging opening；96th, two Level zymolyte charging aperture；97th, tophan box charging aperture.

Specific embodiment

Below against accompanying drawing, by the description to embodiment, specific embodiment of the present utility model is made further in detail Thin explanation.

This kind of bionic enzymatic equipment of the utility model, as shown in figure 1, including the breaker 1 being sequentially connected, first Level enzymolysis device 2 and second level enzymolysis device 3, also including being used to control the controller of the enzymolysis equipment operation work.By end Side controller controls each device to work start and stop opportunity, and linking discharge charging opportunity, to realize Intelligent control.The utility model In, first order enzymolysis device 2 is connected with pepsin storage tank 5, and first is delivered to through material of the grinding of breaker 1 after broken In level enzymolysis device 2, the material inlet valve of pepsin storage tank 5 is opened, it is a certain amount of to being added in the first order enzymolysis device 2 Pepsin, to realize carrying out stomach cardia enzyme digestion reaction in first order enzymolysis device 2；After being reacted through first order enzymolysis device 2 Product be input into second level enzymolysis device 3, the connection trypsase of second level enzymolysis device 3 storage tank 4 is opened trypsase and is deposited The material inlet valve of storage tank 4, to a certain amount of trypsase is added in the second level enzymolysis device 3, to realize being digested in the second level Trypsin digestion reaction is carried out in device 3.Small active peptides are being broken down into by protein after two-stage enzyme digestion reaction, it is small The features such as molecular peptide has directly can be absorbed by alimentary canal, transport speed is fast, it is low to consume energy and is difficult saturation, as needed from biology Enzymolysis produces the medicine with certain effect in vivo, and using the generation of this equipment enzymolysis, small-molecular peptides are high to bioavilability, activity By force, side reaction is also smaller.

In the utility model, it is mainly used for material crushing grinding into shape is wasted in breaker 1, in order to follow-up enzyme The carrying out of solution preocess.The position that pepsin is mainly digested is the peptide bond of the compositions such as phenylalanine, tyrosine and leucine, pancreas egg The position that white enzyme is mainly digested is the peptide bond of the basic amino acids such as arginine, lysine composition, targetedly selects protease Preferable small peptide can be obtained, corresponding peptide bond in albumen is digested respectively, can obtain active small peptide.

In the utility model, as shown in Figure 2, breaker 1 includes disintegrating machine shell 11 and disintegrating machine inner casing 12 and connects The feed(raw material)inlet 13 of logical disintegrating machine inner casing 12, is provided with the crushing mechanism 14 of crushing grinding raw material in disintegrating machine inner casing 12.Disintegrating machine Structure 14 includes broken motor 141, crushes the output end connection disintegrating machine rotating shaft 142 of motor 141, and disintegrating machine rotating shaft 142 is provided with Broken screw feeder blade 143.During work, there is feed(raw material)inlet 13 to be added in disintegrating machine inner casing 12 raw material, started by controller The broken drive disintegrating machine of motor 141 rotating shaft 142 and broken screw feeder blade 143 thereon carry out broken grinding to the material in inner casing Mill.

Disintegrating machine rotating shaft 142 is extended straight down by the upper end of disintegrating machine inner casing 12, and the lower end of disintegrating machine rotating shaft 142 is provided with Reclaiming plate 144, reclaiming plate 144 be provided with it is some go out material through hole.Ground through crushing mechanism 14 after being crushed to a certain degree and waste shape Thing is extruded to the disintegrating machine shell 11 of lower section through squeezing action through the material through hole that goes out of reclaiming plate 144.

In the utility model, the bottom of disintegrating machine shell 11 of breaker 1 be provided with by fragment outwards output to next Reflect the pusher 8 of device.The nearly pusher 8 of fragment is pushed to first order enzyme by breaker 1 in the utility model In solution device 2, one-level enzyme digestion reaction is carried out.

In the utility model, it is preferred that pusher 8 includes the push rotating shaft 82 of horizontal cross arrangement, turn located at pushing The push motor 81 for pushing blade 83 and the drive push rotation work of rotating shaft 82 on axle 82.Controller control pushes motor 81 and opens Dynamic control push rotating shaft 82 is rotated to drive and push thereon the agitator type of blade 83 to push ahead.Push rotating shaft 82 and stretch out disintegrating machine shell 11 one end is provided with discharge gate 84, and discharge gate 84 is connected with the charging aperture of first order enzymolysis device 2.The product for having crushed is through pushing Blade 83 is acted on, the orderly push forward of rule, is entered in first order enzymolysis device 2 through discharge gate 84.Preferably, discharge gate 84 Be along pushing the pyramidal structure that tapers into of direction section, in order to fragment it is orderly be sent to first order enzymolysis device 2 It is interior, it is to avoid solid accumulation clogging occur.

In the utility model, it is preferred that be additionally provided with ptyalin storage tank 7, ptyalin in the outside of breaker 1 It is delivered in disintegrating machine inner casing 12 via ptyalin delivery conduit.Ptyalin delivery conduit is the vertical high pressure for extending Delivery pipe, some spray orifices are provided with the wall of ptyalin delivery conduit side.In actual mechanical process, can as needed to broken The ptyalin that addition is extracted in machine inner casing 12, maltose is decomposed into auxiliary catalysis starch water.

In the utility model, as shown in Figure 3, first order enzymolysis device 2 includes first order enzymatic vessel 21, and located at first Rabbling mechanism 22 in level enzymatic vessel 21.Rabbling mechanism 22 includes agitating shaft 222 and the stirring vane located at the lower end of agitating shaft 222 223, agitating shaft 222 drives rotation work by stirring motor 221, and stirring motor is by controller controlled motor start and stop.

Hydrochloric acid storage tank 6 is additionally provided with first order enzymatic vessel 21, built with being used to adjust pH value in first order enzymatic vessel 21 Watery hydrochloric acid.First order enzymolysis device 2 is additionally provided with to control the first attemperating unit of its tank body interior reaction temperature.Attemperating unit Including heater, thermometer and the first temperature sensor of controller is connected to.Heated up by heating devices heat, temperature is passed Temperature feedback in first order enzymatic vessel 21 to controller is controlled it in the temperature value of setting, to protect by sensor by controller The optimal reaction environment of card.

The course of work of this first order enzymolysis device 2 is, the injection water and certain density in the first order enzymatic vessel 21 Watery hydrochloric acid, adjustment reaction liquid environment pH value is 1.0 to 5.0, to ensure to activate pepsin, there is provided the suitable environment for decomposing. A certain amount of pepsin is added, is started rabbling mechanism 22 and is stirred evenly oar, start-up temperature controller is heated to 28 DEG C~40 DEG C guarantors Temperature enzymolysis 2~6 hours, carries out enzyme digestion reaction, and stir synchronously is carried out in the process, to obtain sufficient hydrolysis result.

In the utility model, the lower section of first order enzymatic vessel 21 is provided with the filter cavity 23 to reactants separate filtering, filtering Milipore filter I 26 is provided with cavity 23.The lower section of first order enzymatic vessel 21 is provided with the horn-like kuppe of the opening of milipore filter I 26 25, material after reaction can be completely sent on the milipore filter I 26 of lower section by the way that kuppe 25 is wider array of, it is most fast most wide to realize General filtering.The cavity that filter cavity 23 is located at the top of milipore filter I 26 is communicated to first order enzymatic vessel 21 by return duct 24； The one-level zymolyte discharging opening 27 for being connected to second level enzymolysis device 3 is provided with positioned at the side wall of the lower section cavity of milipore filter I 26.Through After first order enzymolysis, the product after one-level is digested completely can be filtered to lower section by milipore filter I 26, can be by positioned at milipore filter I One-level zymolyte discharging opening 27 on 26 lower section cavity walls, delivers to second level enzymolysis device 3, carries out next stage enzyme digestion reaction； And the product of unreacted complete larger molecular weight can not be then stayed in cavity above it by milipore filter I 26 by filtering, top Cavity in material first order enzymatic vessel 21 is communicated to by return duct 24, the reflux course can by high pressure be sent flow back, Control the pressure differential in the cavity and first order enzymatic vessel 21 to realize backflow by controller, the equipment can setting can improve life The decomposition efficiency of thing, it is ensured that the purity and activity of final extract.

In the utility model, as shown in Figure 4, second level enzymolysis device 3 includes second level enzymatic vessel 31 and located at second Enzyme digestion reaction pipeline 32 in level enzymatic vessel 31, enzyme digestion reaction pipeline 32 is provided with one-level zymolyte charging aperture 34 and connection pancreas egg The trypsase conveying mouth 35 of white enzyme storage tank 4.After being decomposed through first order enzymolysis device 2 using the second level enzymolysis device 3 pairs Product further digest, to obtain small active peptides.The memory storage of trypsase storage tank 4 is with the anti-of trypsase Liquid is answered, its aqueous ph value can be adjusted to 8.0 to 10, to ensure tryptic activity using NaOH, there is provided suitable to decompose Environment.

Preferably, as shown in Figure 4, enzyme digestion reaction pipeline 32 is the serpentine-like bending being arranged in second level enzymatic vessel 31 Pipeline, can extend the reaction time of reactant and catalytic materials trypsase, increase its exposure level, improve reaction efficiency.And should The wall of enzyme digestion reaction pipeline 32 is made of milipore filter, and the aperture selection of milipore filter herein will ensure the small-molecular peptides of reaction generation Can filter, the material of other larger molecular weights not may pass through.Vibrator 33 preferably is provided with the both sides of second level enzymatic vessel 31, Can ensure that product timely discharges enzyme digestion reaction pipeline 32, to improve reaction efficiency.

The waste gate of waste material after the lower end of enzyme digestion reaction pipeline 32 is provided with discharge reaction.The lower end of second level enzymatic vessel 31 It is provided with secondary enzymolysis thing discharging opening 36.

In the utility model, second level enzymolysis device 3 is additionally provided with to control the second temperature control of its tank body interior reaction temperature Device.Attemperating unit includes heater, thermometer and is connected to the second temperature sensor of controller.In course of reaction, open Dynamic temperature controller, keeps tank interior reaction temperature to be heated to 40 DEG C~50 DEG C insulations and digests 4~5 hours, carries out enzyme digestion reaction, The synchronous vibration of vibrator 33 during this, to obtain sufficient hydrolysis result.

In the utility model, it is preferred that a kind of bionic enzymatic equipment is additionally provided with the in detection control course of reaction respectively The PH detectors of pH value in one-level enzymolysis device 2 and second level enzymolysis device 3, control is transferred to by by real-time detection signal Device, when its pH value deviates the range of normal value of setting, controller is controlled to first order enzymatic vessel 21 or second level enzymatic vessel Supplement adds corresponding dilute hydrochloric acid solution or sodium hydroxide solution to adjust pH value setting value in 31, it is ensured that normal effective Enzyme digestion reaction, improves reaction efficiency.

The utility model bionic enzymatic equipment is additionally provided with after being placed in second level enzymolysis device 3 and is used to purify secondary enzymolysis product The purifying plant 9 of thing.Purifying plant 9 include tophan box 92, the purification outer tank 91 being placed on the outside of tophan box, tophan box 92 is by rotating Motor drives high-speed rotation, and some ultrafiltration holes are provided with the side wall of tophan box 92.Tophan box 92 is provided with tophan box charging aperture 97, Purification outer tank 91 is provided with the secondary enzymolysis thing charging aperture 96 of the tophan box charging aperture 97 that alignd when tophan box 92 is static.

Product after enzymolysis is sent to secondary enzymolysis thing discharging opening 36 secondary enzymolysis of purifying plant 9 through delivery pipe connection Thing charging aperture 96, secondary enzymolysis thing charging aperture 96 aligns with the tophan box charging aperture 97 on tophan box under inactive state 92, with Ensure stable and accurate conveying process.Preferably, tophan box charging aperture 97 is the larger funnel-shaped structure in opening.When conveying process After the completion of by controller control start rotary electric machine drive the high-speed rotation of tophan box 92 be centrifuged operation, in centrifugal force In the presence of, small-molecular peptides are isolated through the ultrafiltration hole of tophan box 92 and are collected in lower end purification outer tank 91.Leaned in purification outer tank 91 Nearly bottom is provided with milipore filter II 93, and the small-molecular peptides to isolating carry out final filtration separation, the activity higher to obtain purity Small-molecular peptides.Preferably, the tank bottom 94 of purification outer tank 91 is provided with discharging opening 95, and tank bottom 94 is in tilted layout towards discharging opening 95, In order to the output of product.

Small-molecular peptides are referred mainly to containing 2~15 peptides of amino acid residue.Small molecule of the relative molecular mass below 3000 Peptide, with directly being absorbed by alimentary canal, the features such as transport speed is fast, it is low to consume energy and is difficult saturation, therefore, selection is suitable super Filter sizes, in the presence of multiple milipore filter, final purification screening retains the average molecular matter that can be directly absorbed by intestines and stomach Measure the part of ＜ 3000.

A kind of bionic enzymatic equipment of the utility model, its intelligence degree is high, and small point is made using the method for bionic enzymatic Sub- peptide, controls to be digested under optimal enzymatic hydrolysis condition per order reaction as far as possible in enzymolysis process, more abundant to ensure Enzymolysis, improve enzymolysis efficiency, and through the appropriate ways inactive protein that does not digest of removal, enhance curative effect, reduce bad Reaction incidence, it is safe, and the enzymolysis equipment strong applicability, with preferable application prospect.

The utility model is exemplarily described above in conjunction with accompanying drawing, but the utility model be not limited to it is above-mentioned Mode, as long as the improvement of the various unsubstantialities carried out using method of the present utility model design and technical scheme or directly application In other occasions, all fall within protection domain of the present utility model.

Claims (24)

1. a kind of bionic enzymatic equipment, it is characterised in that：Including the breaker (1) being sequentially connected, first order enzymolysis device (2) And second level enzymolysis device (3), also including being used to control the controller of the enzymolysis equipment operation work, the first order enzymolysis dress Put (2) and be connected with pepsin storage tank (5), the second level enzymolysis device (3) connects trypsase storage tank (4)；It is described Raw material of the breaker (1) including disintegrating machine shell (11) and disintegrating machine inner casing (12) and the connection disintegrating machine inner casing (12) enters The crushing mechanism (14) of crushing grinding raw material is provided with mouth (13), the disintegrating machine inner casing (12)；The breaker (1) it is broken Broken machine shell (11) bottom is provided with the pusher (8) outwards exported fragment to next reflection device.

2. according to the bionic enzymatic equipment described in claim 1, it is characterised in that：The crushing mechanism (14) is including crushing motor (141), the output end of the broken motor (141) connects disintegrating machine rotating shaft (142), and the disintegrating machine rotating shaft (142) is provided with Broken screw feeder blade (143).

3. according to the bionic enzymatic equipment described in claim 2, it is characterised in that：The disintegrating machine rotating shaft (142) is by described broken The upper end of broken machine inner casing (12) extends straight down, and the lower end of the disintegrating machine rotating shaft (142) is provided with reclaiming plate (144), described Reclaiming plate (144) be provided with it is some go out material through hole.

4. according to the bionic enzymatic equipment described in claim 1, it is characterised in that：The pusher (8) is including horizontal cross The push rotating shaft (82) of arrangement, push blade (83) and drive the push rotating shaft (82) on push rotating shaft (82) The push motor (81) of rotation work.

5. according to the bionic enzymatic equipment described in claim 4, it is characterised in that：Push rotating shaft (82) is stretched out described broken One end of machine shell (11) is provided with discharge gate (84), the charging aperture of the discharge gate (84) and the first order enzymolysis device (2) Connection, the discharge gate (84) is the pyramidal structure tapered into along push direction section.

6. according to the bionic enzymatic equipment described in claim 1, it is characterised in that：The first order enzymolysis device (2) includes One-level enzymatic vessel (21), and the rabbling mechanism (22) in the first order enzymatic vessel (21).

7. according to the bionic enzymatic equipment described in claim 6, it is characterised in that：The rabbling mechanism (22) is including agitating shaft (222) and located at the stirring vane (223) of the agitating shaft (222) lower end, the agitating shaft (222) is by stirring motor (221) Drive rotation work.

8. according to the bionic enzymatic equipment described in claim 7, it is characterised in that：First order enzymatic vessel (21) lower section is provided with To the filter cavity (23) of reactants separate filtering, milipore filter I (26) is provided with the filter cavity (23).

9. according to the bionic enzymatic equipment described in claim 8, it is characterised in that：First order enzymatic vessel (21) lower section is provided with Towards the horn-like kuppe (25) of the opening of milipore filter I (26).

10. according to the bionic enzymatic equipment described in claim 9, it is characterised in that：The filter cavity (23) is positioned at described super Cavity above filter membrane I (26) is communicated to the first order enzymatic vessel (21) by return duct (24)；Positioned at the milipore filter I (26) the side wall of lower section cavity is provided with one-level zymolyte discharging opening (27) for being connected to the second level enzymolysis device (3).

11. according to the bionic enzymatic equipment described in claim 10, it is characterised in that：Also set on the first order enzymatic vessel (21) There is hydrochloric acid storage tank (6), built with the watery hydrochloric acid for being used to adjust first order enzymatic vessel (21) interior pH value.

12. according to the bionic enzymatic equipment described in any one of claim 6 to 11, it is characterised in that：The first order enzymolysis dress (2) are put to be additionally provided with to control the first attemperating unit of its tank body interior reaction temperature.

13. according to the bionic enzymatic equipment described in claim 12, it is characterised in that：The attemperating unit includes heater, Thermometer and it is connected to the first temperature sensor of the controller.

14. according to the bionic enzymatic equipment described in claim 1, it is characterised in that：The second level enzymolysis device (3) includes Secondary enzymolysis tank (31) and the enzyme digestion reaction pipeline (32) in the second level enzymatic vessel (31), the enzyme digestion reaction pipe Road (32) is provided with one-level zymolyte charging aperture (34) and connects the trypsase conveying mouth of the trypsase storage tank (4) (35)。

15. according to the bionic enzymatic equipment described in claim 14, it is characterised in that：The enzyme digestion reaction pipeline (32) is in snake Shape is arranged in second level enzymatic vessel (31) crooked pipeline, and enzyme digestion reaction pipeline (32) wall is made up of milipore filter.

16. according to the bionic enzymatic equipment described in claim 15, it is characterised in that：Enzyme digestion reaction pipeline (32) lower end sets The waste gate of waste material after thering is discharge to react.

17. according to the bionic enzymatic equipment described in claim 16, it is characterised in that：Second level enzymatic vessel (31) lower end sets There is secondary enzymolysis thing discharging opening (36).

18. according to the bionic enzymatic equipment described in any one of claim 14 to 17, it is characterised in that：The second level enzymolysis dress (3) are put to be additionally provided with to control the second attemperating unit of its tank body interior reaction temperature.

19. according to the bionic enzymatic equipment described in claim 18, it is characterised in that：The attemperating unit includes heater, Thermometer and it is connected to the second temperature sensor of the controller.

20. according to the bionic enzymatic equipment described in claim 1, it is characterised in that：The bionic enzymatic equipment is additionally provided with and is placed in institute It is used to purify the purifying plant (9) of secondary enzymolysis product after stating second level enzymolysis device (3).

21. according to the bionic enzymatic equipment described in claim 20, it is characterised in that：The purifying plant (9) is including tophan box (92) the purification outer tank (91), being placed on the outside of the tophan box, the tophan box (92) drives high-speed rotation by rotary electric machine, Tophan box (92) side wall is provided with some ultrafiltration holes.

22. according to the bionic enzymatic equipment described in claim 21, it is characterised in that：The tophan box (92) is provided with tophan box Charging aperture (97), purification outer tank (91) is provided with the tophan box charging aperture that alignd when the tophan box (92) is static (97) secondary enzymolysis thing charging aperture (96).

23. according to the bionic enzymatic equipment described in any one of claim 21 to 22, it is characterised in that：Purification outer tank (91) Milipore filter II (93) is provided near bottom.

24. according to the bionic enzymatic equipment described in claim 23, it is characterised in that：The tank bottom (94) of purification outer tank (91) Discharging opening (95) is provided with, the tank bottom (94) is in tilted layout towards discharging opening (95).