CN113144675A - High-efficiency separation system for biological pharmacy - Google Patents

Abstract

The invention relates to a high-efficiency separation system for biological pharmacy, which effectively solves the problems that the separation efficiency of liquid medicine after layering is low, the separation rate is low and gas in the separation process cannot be discharged by vibration in the existing biological pharmacy process; the technical scheme includes that the device comprises a base, a liquid storage barrel is connected to the upper end of the base, a piston plate is connected to the inside of the liquid storage barrel in a vertical sliding mode, the lower end of the piston plate is connected with a lifting driving device arranged on the base, a primary liquid drainage sleeve is fixedly connected to the upper end of the liquid storage barrel, a lower flow guide frame is fixedly communicated with the primary liquid drainage sleeve, a secondary liquid drainage sleeve is fixedly connected to the upper end of a primary liquid drainage pipe, a middle flow guide frame is fixedly communicated with the secondary liquid drainage sleeve, a top liquid drainage sleeve is coaxially and fixedly connected to the upper end of the secondary liquid drainage sleeve, a top flow guide frame is fixedly communicated with the top liquid drainage sleeve, and through-flow electromagnetic valves are fixedly connected to the inside of the lower flow guide frame, the middle flow guide frame and the top flow guide frame; the structure is simple and the practicability is strong.

Description

High-efficiency separation system for biological pharmacy

Technical Field

The invention relates to the technical field of biological pharmacy, in particular to a high-efficiency separation system for biological pharmacy.

Background

The biological pharmaceutical raw materials mainly comprise natural biological materials, including microorganisms, human bodies, animals, plants, marine organisms and the like. With the development of biotechnology, purposely artificially prepared biological raw materials become the main source of the current biopharmaceutical raw materials. Such as animal material prepared by immunization, microorganism or other cell material prepared by changing gene structure, etc. The biological medicine has the features of high pharmacological activity, less toxic side effect and high nutritive value. The biological medicine mainly comprises protein, nucleic acid, saccharide, lipid, etc. The constituent units of the substances are amino acid, nucleotide, monosaccharide, fatty acid and the like, and the substances are not only harmless to human bodies but also important nutrient substances. In the biopharmaceutical process, there is an important step of separation and purification, i.e. separation and purification of specific proteins, nucleic acids, saccharides, lipids, etc. in biological materials by filtration or other technical means.

Separation purification equipment among the prior art is various, but adopt the complicated separator of structure mostly, biological raw materials is in filtering process, often need add agitating unit, centrifugal device etc. filter device with higher speed, the filtration micropore on the filtration membrane occupies by macromolecular substance easily simultaneously, make the micromolecular substance can not pass through smoothly, at this moment still need ultrasonic vibration device etc. to remove macromolecular substance away, it just seems especially important to carry out the layering separation to the medicament after the shock separation, separate the medicament of different components.

The existing separation process of different medicaments after separation has the following problems:

1. in the process of separating different components, the layered medicament is separated by the extraction bottle, and the contact part of two kinds of liquid has liquid-liquid mixing phenomenon, so that the separation is inconvenient and the separation effect is poor;

2. the gas in the medicament can not be separated, the liquid storage barrel can not be vibrated at the same time, the liquid medicine separation is promoted, the gas is efficiently discharged and collected, and the two medicaments can not be efficiently layered, so that the gas and the liquid can be smoothly and efficiently classified and discharged.

Accordingly, the present invention provides an efficient separation system for biopharmaceuticals to solve the above problems.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the invention provides the high-efficiency separation system for biopharmaceuticals, which effectively solves the problems that the separation efficiency of layered liquid medicine is low, the separation rate is low, and gas in the separation process cannot be discharged by vibration in the prior biopharmaceutical process.

The invention relates to a high-efficiency separation system for bio-pharmaceuticals, which comprises a base, wherein the upper end of the base is connected with a liquid storage barrel, a piston plate is connected in the liquid storage barrel in a vertical sliding manner, and the lower end of the piston plate is connected with a lifting driving device arranged on the base;

the upper end of the liquid storage barrel is fixedly connected with a primary liquid drainage sleeve, the primary liquid drainage sleeve is fixedly communicated with a lower flow guide frame, the upper end of a primary liquid drainage pipe is fixedly connected with a secondary liquid drainage sleeve, the secondary liquid drainage sleeve is fixedly communicated with a middle flow guide frame, the upper end of the secondary liquid drainage sleeve is coaxially and fixedly connected with a top liquid drainage sleeve, the top liquid drainage sleeve is fixedly communicated with a top flow guide frame, and the lower flow guide frame, the middle flow guide frame and the top flow guide frame are all fixedly connected with through-flow electromagnetic valves;

the lower diversion frame below, the middle diversion frame top and the opposite surface of the top diversion frame are fixedly connected with infrared emitters which are respectively arranged on the first-stage liquid drainage sleeve, the second-stage liquid drainage sleeve and the top liquid drainage sleeve, and the through-flow electromagnetic valve and the infrared emitters are fixedly connected with a control module on the liquid storage barrel.

Preferably, the lifting driving device comprises an air supply pipe fixedly connected to the lower end of the liquid storage barrel, the air supply pipe and an air pump fixedly connected to the lower end of the base are connected, the air supply pipe is fixedly connected with an air supply electromagnetic valve, and the air supply electromagnetic valve and the air pump are connected with the control module.

Preferably, the air supply channel is internally connected with a plastic isolation plate in an up-and-down sliding manner, the isolation plate is provided with a plurality of mounting rings, and the mounting rings can be detachably connected with counterweight rings;

the partition board is provided with a plurality of annular mounting ring bins which are distributed at equal intervals, and the mounting ring bins are internally detachably connected with the micro-weight plates.

Preferably, the lower end of the liquid storage barrel is fixedly connected with a plurality of buffer springs, the other ends of the buffer springs are fixedly connected with the upper end of the base, support columns are coaxially arranged in the buffer springs, and the lower ends of the support columns are rotatably connected with support bottom rods;

the lower end of the liquid storage barrel is fixedly connected with a vibration ring, and the lower end of the vibration ring is fixedly connected with a driven hemisphere;

the upper end of the base is coaxially and rotatably connected with a driving ring, the upper end of the driving ring is fixedly connected with a plurality of driving hemispheres matched with the driven hemispheres, the lower end of the driving ring is coaxially and fixedly connected with a driving gear ring, the driving gear ring is meshed with a driving gear which is rotatably connected to the base, the driving gear is fixedly connected to a driving motor on the base, and the driving motor is connected to the control module.

Preferably, the lower end of the supporting column is provided with a rotating arc groove, and the upper end of the supporting bottom rod is fixedly connected with a rotating ball matched with the rotating arc groove.

Preferably, the upper end of the top liquid drainage sleeve is fixedly connected with a threaded sealing ring, and a sealing cover plate is connected with the threaded sealing ring in an internal thread mode.

Preferably, the lower end of the sealing cover plate is coaxially and fixedly connected with a water absorption sponge block.

Preferably, the axis of the sealing cover plate is provided with a vent hole, an exhaust valve is fixedly connected in the vent hole, and the upper end of the vent hole is detachably connected with a collecting air bag.

The invention improves the existing structure for separating the biopharmaceuticals subjected to vibration delamination, and effectively solves the problem of separating and discharging different components of the delaminated medicament by arranging the piston plate, the primary liquid discharge sleeve, the secondary liquid discharge sleeve, the top liquid discharge sleeve, the electromagnetic valve and the infrared emitter; the problem that the plastic isolation plate is positioned between two medicaments with two components to divide and separate the two medicaments is effectively solved by additionally arranging the plastic isolation plate, the mounting ring and the micro-weight plate; the problem of discharging gas in liquid by vibrating the liquid storage barrel is effectively solved by arranging the buffer spring, the support column, the support bottom rod, the drive ring, the driven hemisphere and the drive hemisphere; and the structure is simple and stable, and the universality is extremely high.

Drawings

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

Fig. 2 is a schematic sectional view of the internal structure of the present invention.

Fig. 3 is a schematic sectional view of the internal structure of the present invention.

Fig. 4 is a schematic perspective view of the plastic isolation board of the present invention.

FIG. 5 is a partial schematic view of a vibration ring driving structure according to the present invention.

FIG. 6 is a schematic view of the drive ring and its attachment to the links of the present invention.

FIG. 7 is a cross-sectional view of the vibration ring driving structure of the present invention.

Fig. 8 is a perspective view of the plastic isolation board of the present invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 8. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

The embodiment I of the invention relates to a high-efficiency separation system for bio-pharmaceuticals, which comprises a base 1, wherein the base 1 provides a support foundation for a subsequent structure, a plurality of support legs are fixedly connected to the lower end of the base 1, the base 1 is supported through the support legs, the support legs are arranged on the ground, the upper end of the base 1 is connected with a liquid storage barrel 2, a piston plate 3 is connected into the liquid storage barrel 2 in a vertical sliding manner, the lower end of the piston plate 3 is connected with a lifting driving device arranged on the base 1, the lower end of the piston plate 3 is fixedly connected with an electric rod in the embodiment, and the piston plate 3 is driven by the expansion of the electric push rod to drive a medicament in the liquid storage barrel 2 to lift synchronously;

the upper end of the liquid storage barrel 2 is fixedly connected with a primary liquid drainage sleeve 4, the primary liquid drainage sleeve 4 is fixedly communicated with a lower flow guide frame 5, the upper end of a primary liquid drainage pipe is fixedly connected with a secondary liquid drainage sleeve 6, the secondary liquid drainage sleeve 6 is fixedly communicated with a middle flow guide frame 7, the upper end of the secondary liquid drainage sleeve 6 is coaxially and fixedly connected with a top liquid drainage sleeve 8, the top liquid drainage sleeve 8 is fixedly communicated with a top flow guide frame 9, electromagnetic valves are fixedly connected in the lower flow guide frame 5, the middle flow guide frame 7 and the top flow guide frame 9, and the opening and closing of the lower flow guide frame 5, the middle flow guide frame 7 and the top flow guide frame 9 are controlled by the electromagnetic valves, so that liquid flows out through corresponding positions and falls into a set storage device;

the lower diversion frame 5 below, the middle diversion frame 7 above and the top diversion frame 9 opposite face all fixedly connected with respectively arrange in the infrared emitter 11 on the first-level flowing back cover 4, the second-level flowing back cover 6 and the top flowing back cover 8, the infrared emitter 11 send a signal, when liquid rises to and contacts with the infrared emitter 11, the infrared emitter 11 control corresponding through-flow solenoid valve 10 to open, make the liquid through corresponding top diversion frame 9 in all fixedly connected with through-flow solenoid valve 10, through the through-flow solenoid valve 10 control the lower diversion frame 5, the middle diversion frame 7 or the top diversion frame 9 arrange to the external world, through-flow solenoid valve 10, infrared emitter 11 all with fixed connection in the liquid storage barrel 2 on the control module 12 link to each other, through the control module 12 to the through-flow solenoid valve 10 and the infrared emitter 11 control, the medicaments with different components are discharged to the outside through different through-flow electromagnetic valves 10, so that the collection of the medicaments with different components is realized;

when the embodiment is implemented specifically, when in use, firstly carry out analysis layering to the biopharmaceutical medicament through the existing analysis extraction technology, then pass through control module 12 control electric putter start, simultaneously electric putter drive piston plate 3 upwards slide, piston plate 3 upwards slide and promote the medicament in liquid storage barrel 2 upwards slide synchronously, the medicament slide to with the bottom infrared emitter 11 contact time, infrared emitter 11 transmit signal give control module 12, control module 12 control lower extreme through-flow solenoid valve 10 open, through-flow solenoid valve 10 open make layering back the superiors medicament pass through top guiding frame 9 arrange to the external world, collect through external collection device, when the upper strata the medicament close on the contact line, through control module 12 control lower extreme through-flow solenoid valve 10 close, work as simultaneously liquid level and middle one deck infrared emitter 11 during the contact, middle through-flow solenoid valve 10 open, make the medicament of lower floor pass through middle part water conservancy diversion frame 7 arrange to the external world, continuously make simultaneously piston plate 3 upwards slide, liquid level and superiors infrared emitter 11 during the contact, the top layer through-flow solenoid valve 10 open, make near the medicament of contact wire pass through top water conservancy diversion frame 9 arrange to the external world, realize separating the medicament of different components.

In the second embodiment, on the basis of the first embodiment, when the piston plate 3 is driven by the electric push rod, the electric push rod needs to occupy a large amount of operating space, and the total height of the device is increased, so that the operation is inconvenient, and therefore, the present embodiment provides a new lifting driving device, specifically, the lifting driving device includes an air supply pipe 13 fixedly connected to the lower end of the liquid storage barrel 2, the air supply pipe 13 is connected to an air pump 14 fixedly connected to the lower end of the base 1, the lower end of the liquid storage barrel 2 is supplied with air by the air pump 14 and the air supply pipe 13, the piston plate 3 is pushed by air pressure to slide up and down, the piston plate 3 slides up and down to drive the medicament at the upper end to slide up and down synchronously, the air supply pipe 13 is fixedly connected to an air supply solenoid valve 15, the air in the liquid storage barrel 2 is limited by the air supply solenoid valve 15, through the gas supply solenoid valve 15 open and close and realize right the liquid storage bucket 2 in the gaseous gassing of inflating, gas supply solenoid valve 15, air pump 14 all with control module 12 link to each other, through control module 12 right air pump 14 and gas supply solenoid valve 15 open and close and control.

In the third embodiment, on the basis of the second embodiment, in order to ensure that the different components of the medicament can be separated efficiently, and at the same time, the volume of the mixed contact surface can be reduced, and the separation rate can be improved, therefore, the present embodiment provides a structure for layering and efficiently separating different components of the medicament, specifically, the air supply channel is internally and vertically connected with a plastic partition plate 16 in a sliding manner, the density of the plastic partition plate 16 is between the densities of two different components of the medicament, so that under normal conditions, the plastic partition plate 16 is positioned between the two different components of the medicament, the two components of the medicament are layered, one medicament is positioned at the upper end, the other medicament with high density is positioned at the lower end of the plastic partition plate 16, in order to enable the different components of the medicament to be layered smoothly, the plastic partition plate 16 is provided with a plurality of through holes, so that the medicament can pass smoothly, and meanwhile, the plastic partition plate 16 can sink into the medicament, because different biopharmaceutical ingredients are different, the density value of the two medicaments at the upper layer and the lower layer can be changed due to different pharmaceuticals, so in order to improve the universality of the plastic isolation plate 16, the density of the plastic isolation plate 16 needs to be adjusted according to actual conditions, a plurality of mounting rings 17 are arranged on the isolation plate, the mounting rings 17 can be detachably connected with counterweight rings 18, and the density of the plastic isolation plate 16 can be greatly adjusted by mounting different numbers of counterweight rings 18, so that the density of the plastic isolation plate 16 is close to the density between the two medicaments;

the division board on seted up a plurality of installation ring 17 storehouses 19 that are cyclic annular equidistant distribution, installation ring 17 storehouse 19 in can dismantle and be connected with the micro-weight plate 20, it is right to realize through the micro-weight plate 20 of installing different quantity the micro-adjustment of plastics division board 16 density, make the density of plastics division board 16 be in between the density value of two kinds of medicaments, make plastics division board 16 effectively separate two kinds of medicaments.

Fourth embodiment, on the basis of the first embodiment, in order to fully separate the liquid medicines and fully release the gas entering the liquid medicines, the first embodiment provides a structure for fully oscillating the liquid storage barrel 2, specifically, the lower end of the liquid storage barrel 2 is fixedly connected with a plurality of buffer springs 21, the other ends of the buffer springs 21 are fixedly connected with the upper end of the base 1, support pillars 22 are coaxially arranged in the buffer springs 21, the lower ends of the support pillars 22 are rotatably connected with support bottom rods 23, and under the action of the support bottom rods 23 and the buffer springs 21, the liquid storage barrel 2 can rock along the base 1, so as to realize the rocking of the liquid in the liquid storage barrel 2;

the lower end of the liquid storage barrel 2 is fixedly connected with a vibration ring 24, and the lower end of the vibration ring 24 is fixedly connected with a driven hemisphere 25;

the upper end of the base 1 is coaxially and rotatably connected with a driving ring 26, the upper end of the driving ring 26 is fixedly connected with a plurality of driving hemispheres 29 matched with the driven hemispheres 25, the driving ring 26 rotates to drive the driving hemispheres 29 to synchronously rotate, the driving hemispheres 29 rotate to drive the driven hemispheres 25 to slide up and down in a reciprocating manner, the driven hemispheres 25 slide up and down in a reciprocating manner to drive the liquid storage barrel 2 to vibrate, the lower end of the driving ring 26 is coaxially and fixedly connected with a driving gear ring 27, the driving gear ring 27 is meshed with a driving gear 28 rotatably connected to the base 1, the driving gear 28 is connected with a driving motor fixedly connected to the base 1, the driving motor is connected with the control module 12, and the driving motor rotates to drive the driving gear 28 to rotate, the driving gear 28 rotates to drive the driving gear ring 27 to rotate, and further drives the driving ring 26 to rotate synchronously.

Fifth, on the basis of fourth embodiment, this embodiment provides a support column 22 along support sill 23 universal pivoted structure, specifically, support column 22 lower extreme seted up and rotate circular arc groove 30, support sill 23 upper end fixedly connected with rotation circular arc groove 30 matched with roating ball 31, through roating ball 31 with the cooperation of rotation circular arc groove 30 realize support column 22 along support sill 23 universal pivoted.

Sixth embodiment, on the basis of first embodiment, in order to realize the sealing to liquid storage barrel 2, make piston plate 3 upwards gliding process promote liquid flow to the external world smoothly through the solenoid valve, so this embodiment provides a liquid storage barrel 2 seal structure, specifically, top flowing back 8 upper end fixedly connected with threaded seal ring 32, threaded seal ring 32 threaded connection have a sealed apron 33, realize the sealing to liquid storage barrel 2 through threaded seal ring 32 and sealed apron 33, threaded seal ring 32 can dismantle simultaneously, be convenient for pour into the separation liquid medicine into.

Seventh embodiment, on the basis of the sixth embodiment, when the plastic partition board 16 slides to the uppermost end, in order to enable the liquid to be sufficiently absorbed and wipe the plastic partition board 16, in this embodiment, a liquid wiping absorption structure is provided, specifically, a water absorption sponge block 34 is coaxially and fixedly connected to the lower end of the sealing cover plate 33, and the plastic partition board 16 is wiped while the liquid is absorbed by the water absorption sponge block 34.

Eighth embodiment, on the basis of sixth embodiment, when separating the bio-pharmaceuticals, sometimes need the enterprise to separate, make gaseous emission through shaking, in order to facilitate collecting gaseous simultaneously, this embodiment provides a gas collecting device, specifically, sealed apron 33 axle center seted up vent hole 35, vent hole 35 internal fixation connected with discharge valve 36, discharge valve 36 and control module 12 link to each other, control module 12 through the opening and closing of discharge valve 36, vent hole 35 upper end detachable connection have collect gasbag 37, collect the gaseous through collect gasbag 37.

When the device is used specifically, when the device is required to be used, firstly, biopharmaceutical medicaments are analyzed and layered by the existing analysis and extraction technology, then the density of a plastic isolation plate 16 is adjusted, then an air pump 14 is controlled to be started by a control module 12, meanwhile, the air pump 14 supplies air to a liquid storage barrel 2 to drive a piston plate 3 to slide upwards, the piston plate 3 slides upwards to push the medicaments in the liquid storage barrel 2 to slide upwards synchronously, when the uppermost end of the medicaments slides to be contacted with an infrared emitter 11 at the lowest end, an infrared emitter 11 transmits a signal to the control module 12, the control module 12 controls a flow electromagnetic valve 10 at the lower end to be opened, the flow electromagnetic valve 10 is opened to enable the medicament at the uppermost layer after layering to be discharged to the outside through a top diversion frame 9 and collected by an external collecting device, and when the plastic isolation plate 16 is contacted with the infrared emitter 11 at the lower end, the flow electromagnetic valve 10 at the lowest end is controlled to be closed by the control module 12, meanwhile, when the plastic isolation plate 16 is contacted with the middle layer of infrared emitter 11, the middle current-passing electromagnetic valve 10 is opened, so that the medicament on the lower layer is discharged to the outside through the middle diversion frame 7, and the piston plate 3 continuously slides upwards, and when the plastic isolation plate 16 is contacted with the infrared emitter 11 on the uppermost layer, the top layer current-passing electromagnetic valve 10 is opened, so that the medicament in the plastic isolation plate 16 is discharged to the outside through the top diversion frame 9, and the separation of the medicaments with different components is realized;

when needing exhaust gas, start driving motor, start discharge valve 36 simultaneously, driving motor rotates and drives drive gear 28 and rotate, and drive gear 28 rotates and drives drive ring gear 27 and rotate, and then drives drive ring 26 and rotate in step, and drive ring 26 drives the vibrations of stock solution bucket 2 through drive hemisphere 29, driven hemisphere 25, buffer spring 21, realizes the emission to gas, collects the exhaust gas through collecting gasbag 37 simultaneously.

The invention improves the existing structure for separating the biopharmaceuticals subjected to vibration delamination, and effectively solves the problem of separating and discharging different components of the delaminated medicament by arranging the piston plate, the primary liquid discharge sleeve, the secondary liquid discharge sleeve, the top liquid discharge sleeve, the through-flow electromagnetic valve and the infrared emitter; the problem that the plastic isolation plate is positioned between two medicaments with two components to divide and separate the two medicaments is effectively solved by additionally arranging the plastic isolation plate, the mounting ring and the micro-weight plate; the problem of discharging gas in liquid by vibrating the liquid storage barrel is effectively solved by arranging the buffer spring, the support column, the support bottom rod, the drive ring, the driven hemisphere and the drive hemisphere; and the structure is simple and stable, and the universality is extremely high.

Claims (8)

1. The efficient separation system for the bio-pharmaceuticals comprises a base (1), wherein a liquid storage barrel (2) is connected to the upper end of the base (1), a piston plate (3) is connected into the liquid storage barrel (2) in an up-and-down sliding manner, and the lower end of the piston plate (3) is connected with a lifting driving device arranged on the base (1);

the upper end of the liquid storage barrel (2) is fixedly connected with a primary liquid drainage sleeve (4), the primary liquid drainage sleeve (4) is fixedly communicated with a lower flow guide frame (5), the upper end of a primary liquid drainage pipe is fixedly connected with a secondary liquid drainage sleeve (6), the secondary liquid drainage sleeve (6) is fixedly communicated with a middle flow guide frame (7), the upper end of the secondary liquid drainage sleeve (6) is coaxially and fixedly connected with a top liquid drainage sleeve (8), the top liquid drainage sleeve (8) is fixedly communicated with a top flow guide frame (9), and the lower flow guide frame (5), the middle flow guide frame (7) and the top flow guide frame (9) are all fixedly connected with a through-flow electromagnetic valve (10);

lower water conservancy diversion frame (5) below, middle part water conservancy diversion frame (7) top and top water conservancy diversion frame (9) opposite face equal fixedly connected with arrange in respectively one-level flowing back cover (4), second grade flowing back cover (6) and top flowing back cover (8) on infrared transmitter (11), through-flow solenoid valve (10), infrared transmitter (11) all with fixed connection the liquid storage bucket (2) on control module (12) link to each other.

2. The high-efficiency separation system for bio-pharmaceuticals according to claim 1, wherein the lifting driving device comprises an air supply pipe (13) fixedly connected to a lower end of the liquid storage barrel (2), the air supply pipe (13) is connected to an air pump (14) fixedly connected to a lower end of the base (1), an air supply solenoid valve (15) is fixedly connected to the air supply pipe (13), and the air supply solenoid valve (15) and the air pump (14) are both connected to the control module (12).

3. The high-efficiency separation system for bio-pharmaceuticals according to claim 2, wherein the gas feed channel is connected with a plastic isolation plate (16) in a vertical sliding manner, the isolation plate is provided with a plurality of mounting rings (17), and the mounting rings (17) are detachably connected with a counterweight ring (18);

the partition plate is provided with a plurality of mounting ring (17) bins (19) which are annularly distributed at equal intervals, and the mounting ring (17) bins (19) are internally detachably connected with micro-weight plates (20).

4. The high-efficiency separation system for bio-pharmaceuticals according to claim 1, wherein a plurality of buffer springs (21) are fixedly connected to the lower end of the liquid storage barrel (2), the other ends of the buffer springs (21) are fixedly connected to the upper end of the base (1), a support column (22) is coaxially arranged in the buffer springs (21), and a support bottom rod (23) is rotatably connected to the lower end of the support column (22);

the lower end of the liquid storage barrel (2) is fixedly connected with a vibration ring (24), and the lower end of the vibration ring (24) is fixedly connected with a driven hemisphere (25);

the coaxial rotation of base (1) upper end be connected with drive ring (26), drive ring (26) upper end fixedly connected with a plurality of with driven hemisphere (25) matched with drive hemisphere (29), drive ring (26) lower extreme coaxial fixedly connected with drive ring gear (27), drive ring gear (27) with rotate the connection and be in base (1) on drive gear (28) mesh mutually, drive gear (28) with fixed connection base (1) on the driving motor link to each other, driving motor with control module (12) link to each other.

5. The high-efficiency separation system for bio-pharmaceuticals according to claim 4, wherein the support column (22) has a rotary arc groove (30) formed at a lower end thereof, and the support bottom bar (23) has a rotary ball (31) fixedly connected to an upper end thereof, the rotary ball being engaged with the rotary arc groove (30).

6. The high-efficiency separation system for biopharmaceuticals of claim 1, wherein a threaded sealing ring (32) is fixedly connected to the upper end of said top drainage sleeve (8), and a sealing cover plate (33) is threadedly connected to said threaded sealing ring (32).

7. The high-efficiency separation system for biopharmaceuticals of claim 6, wherein a water-absorbing sponge block (34) is coaxially and fixedly connected to a lower end of said sealing cover plate (33).

8. The high-efficiency separation system for bio-pharmaceuticals according to claim 6, wherein a vent hole (35) is formed in the axis of the sealing cover plate (33), an exhaust valve (36) is fixedly connected in the vent hole (35), and a collecting air bag (37) is detachably connected to the upper end of the vent hole (35).

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