CN115340935A - Efficient continuous tremella cell separation method and device - Google Patents

Abstract

The invention discloses a high-efficiency continuous tremella cell separation method and a device, relates to the field related to tremella cell separation, and aims to solve the problem that the existing tremella cell separation device cannot continuously separate tremella cells in the prior art.

Description

A high-efficiency continuous tremella cell separation method and device

technical field

The invention relates to the related field of tremella cell separation, in particular to a high-efficiency continuous tremella cell separation method and device.

Background technique

Tremella is a kind of fruiting body of Basidiomycota, Tremella, Tremella, Tremellaceae, and Tremella genus fungi. The active ingredient Tremella polysaccharide contained in it has special health care functions, and Tremella polysaccharide often needs to be extracted. The cells are separated and processed, so a cell separation device is required to realize the separation and processing of Tremella cells.

For example, the Chinese authorized patent (cell separation device and cell separation method) whose notification number is CN112457967A: includes a stirring chamber, a connecting device and a separating chamber, the stirring chamber is connected to the separating chamber through a connecting device, and the connecting device includes a connecting tube and a card The passage valve on the connecting pipe, the two ends of the connecting pipe extend into the mixing chamber and the separation chamber respectively, the passage valve includes a rotating shaft perpendicular to the connecting pipe, and a through hole is opened in the middle of the rotating shaft, and the through hole matches the pipe of the connecting pipe The end of the rotating shaft is provided with a rotating handle.

Although the above-mentioned prior art has the advantages of thorough solid-liquid separation and not easy to grow bacteria when it is used, it needs a device to split the cells first and then centrifuge the tremella cells in a single cell separation, so as to realize the separation of white fungus cells. For the extraction of cells, when extracting a large number of Tremella cells, it often takes a lot of time to perform cell separation operations many times, which can easily affect the user experience. Therefore, the market urgently needs to develop a high-efficiency continuous Tremella cell separation devices to help people solve existing problems.

Contents of the invention

The purpose of the present invention is to provide a high-efficiency continuous Tremella cell separation device to solve the problem that the existing Tremella cell separation device is difficult to continuously separate Tremella cells proposed in the background technology.

In order to achieve the above object, the present invention provides the following technical solutions: a high-efficiency continuous Tremella cell separation device, comprising a device shell, the inside of the device shell is provided with a ventilating plate, and the ventilating plate is provided with a plurality of ventilating holes, and The ventilation hole is set in the shape of a round hole, the upper end of the ventilation plate is provided with a second electric slideway, and the second electric slideway is connected with the ventilation plate by bolts, and the inside of the second electric slideway is provided with a second electric slideway. The slider, the second electric slider is electrically connected to the second electric slideway, the second electric slider is provided with a connecting frame, and the connecting frame is connected to the second electric slider by bolts, so The connecting frame is provided with a fixed ring, the fixed ring is arranged in a ring shape, the fixed ring is fixedly connected with the connecting frame, the lower end of the fixed ring is provided with a rotating block, and the outer side of the rotating block is provided with An adjustment box, the adjustment box and the rotating block are set to be rotationally connected, the adjustment box and the fixed ring are provided with connecting sleeves, and there are multiple connecting sleeves, and the connecting sleeves are provided with connecting rings. The number of connecting rings is set to be consistent with the number of connecting sleeves, and the connecting rings and connecting sleeves are connected by bolts.

Preferably, the connecting ring is provided with an adjusting rod, and there are multiple adjusting rods, and the adjusting rod is provided with an adjusting groove, and the adjusting rod and the connecting ring are connected with the adjusting groove by a bolt, and the adjusting rod A splint is arranged on the splint, the splint is set in the shape of an arc plate, a soft gasket is arranged on the splint, and the soft gasket and the splint are set to be glued and connected, the inner side of the splint is provided with a first separation tube, and the second There are multiple separation pipes, and the upper end of the first separation pipe is provided with a second separation pipe. The number of shapes and structures of the second separation pipes is set to be consistent with the number of shapes and structures of the first separation pipes.

Preferably, the lower end of the rotating block is provided with a fitting sleeve, the lower end of the fitting sleeve is provided with a motor shaft, the lower end of the motor shaft is provided with a driving motor, and a rotating disk is provided on the motor shaft. An electric push rod is arranged on the rotating disk.

Preferably, the upper end of the housing of the device is provided with a sealing cover, and the lower end of the air-permeable plate is provided with a blower.

Preferably, the lower end of the sealing cover is provided with a first electric slideway, and there are multiple first electric slideways, and the plurality of first electric slideways are arranged in a circular shape, and the first electric slideway It is connected with the housing of the device by bolts, and a first electric slider is arranged inside the first electric slideway, and the first electric slideway is electrically connected with the first electric slideway, and the first electric slideway A first electric ring is arranged on the top, and the first electric ring is connected with the first electric slider by bolts. One side of the first electric ring is provided with a partition, and the partition and the first electric ring The road is connected by bolts, and a second electric ring is arranged on one side of the partition, and the second electric ring and the first electric ring are both set in a semicircular arc shape, and the second electric ring and the partition pass through Bolted.

Preferably, the inside of the first electric ring is provided with a first rotating block, the first rotating block is electrically connected with the first electric ring, and the inside of the second electric ring is provided with a second Rotating block, the second rotating block is electrically connected to the second electric circuit, the second rotating block and the first rotating block are provided with fixed sleeves, and the fixed sleeves are respectively connected to the second rotating block and the first rotating block. The first rotating block is connected by bolts.

Preferably, the fixed sleeve is provided with a first connecting rod, and the first connecting rod is connected with the fixed sleeve by bolts, and the lower end of the first connecting rod is provided with a protective shell, and the protective shell and the first connecting rod Set as a fixed connection, the inside of the protective shell is provided with a suction pump, the lower end of the suction pump is provided with a suction pipe, the suction pipe and the suction pump are fixedly connected, the suction pump A catheter is provided on one side, and the catheter is fixedly connected to the suction pump. A liquid storage tank is provided on one side of the catheter, and multiple storage tanks are provided. The liquid storage tank is arranged in a semi-circumferential shape, and the liquid storage tank is connected with the device shell by bolts. The liquid storage tank is provided with a liquid inlet pipe, and the liquid inlet pipe is provided with an electric valve. The liquid inlet pipe and the The liquid storage tank is provided as a fixed connection.

Preferably, a second connecting rod is provided on one side of the protective shell, and an ultrasonic breaker is provided at the lower end of the second connecting rod.

A separation method of a high-efficiency continuous tremella cell separation device, comprising the steps of:

Step 1: The user can place the tremella cells in the first separation tube and the second separation tube respectively by opening the sealing cover, and drive the ultrasonic breaker through the electrically connected second electric circuit and the second rotating block move;

Step 2: Use the ultrasonic breaker to extend into the corresponding first separation tube, and use the ultrasonic breaker to realize the crushing treatment of Tremella cells. block to rotate the first separation tube, through the rotation of the first separation tube to realize the centrifugation of the broken tremella cells, after a period of time, the suction tube is driven by the electrically connected first electric loop and the first rotating block moving to realize the suction of the cell fluid inside the first separation tube, thereby sucking the stratified cell fluid into the interior of the liquid storage tank;

Step 3: After the ultrasonic breaker is crushed, re-move the ultrasonic breaker to extend the ultrasonic breaker into the corresponding second separation tube, and repeat the operation of the above step 2 to realize the cleaning of the white fungus in the second separation tube. The cells are stratified, and when the tremella cells are stratified in the second separation tube, the tremella cells added in the first separation tube can be crushed under the action of the ultrasonic breaker to realize the separation of the separation device. continuous separation.

Compared with prior art, the beneficial effect of the present invention is:

1. In this invention, through the setting of the first separation tube, the second separation tube, the first electric loop and the second electric loop, when the user uses the tremella cell separation device, the ultrasonic breaker is used to insert the corresponding In the first separation tube, the tremella cells are crushed by an ultrasonic breaker. After the crushing is completed, the first separation tube is rotated through the electrically connected second electric slideway and the second electric slider. The first separation tube is used to centrifuge the broken tremella cells. After a period of time, the suction tube is driven to move through the electrically connected first electric loop and the first rotating block, so as to realize the inside of the first separation tube. The cell fluid is extracted, so that the stratified cell fluid is sucked into the interior of the liquid storage tank, and after the ultrasonic breaker is crushed, the ultrasonic breaker is re-moved to extend the ultrasonic breaker into the corresponding second separation tube , and repeat the operation of the above-mentioned step 2, to realize the layering of the Tremella cells in the second separation tube, and when the layering operation of the Tremella cells in the second separation tube is performed, the Tremella cells added again in the first separation tube Then it can be crushed under the action of the ultrasonic breaker to realize the continuous separation of the separation device, thereby solving the problem that the existing tremella cell separation device is difficult to continuously separate the tremella cells to a certain extent;

2. In this invention, through the setting of the first rotating block, the second rotating block and the liquid storage tank, the user can rotate the first rotating block and the second rotating block during the process of using the tremella cell separation device. To realize the rapid switching between the suction structure and the crushing structure, and at the same time, the collection of the stratified solution in the separation tube can be realized through the setting of multiple liquid storage tanks, so that the efficiency of the entire cell separation device can be improved to a certain extent. work efficiency;

3. The invention uses the setting of the air-permeable plate and the air blower. During the process of using the tremella cell separation device, the user can heat or cool down the inside of the device shell through the setting of the air-exhaust plate, and through the air-permeable plate setting to achieve the transfer efficiency of the temperature inside the device shell, which can greatly improve the service life of the whole tremella cell separation device, and thus relieve the user's pressure to a certain extent;

4. In this invention, through the setting of the drive motor, electric push rod, second electric slideway and second electric slider, the user can drive a plurality of first A separation pipe is rotated, and the height of the first separation pipe can be adjusted through the setting of the electric push rod, and the height of the second separation pipe can also be adjusted through the electrically connected second electric slideway and the second electric slider. The rotation and centrifugation of the separation tube can improve the applicability of the whole tremella cell separation device to a certain extent;

5. In this invention, through the setting of the connecting ring, the adjusting rod and the splint, the user can use the tremella cell separation device to clamp the separation tube through the two splints, and can also adjust the The position of the rod on the connecting ring can realize the clamping of separation tubes of different specifications, which can relieve the pressure of the user to a certain extent.

Description of drawings

Fig. 1 is a schematic structural view of a ventilating panel of the present invention;

Fig. 2 is the partial sectional structure schematic diagram of the present invention;

Fig. 3 is a partial sectional structural schematic diagram of the regulating box of the present invention;

Fig. 4 is a structural schematic diagram of A place of the present invention;

Fig. 5 is a partial sectional structural schematic diagram of the protective shell of the present invention.

In the figure: 1. Device shell; 2. Sealing cover; 3. The first electric slideway; 4. The first electric slider; 5. The first electric ring; 6. The first rotating block; 7. Fixed sleeve; 8 , the first connecting rod; 9, the protective shell; 10, the suction pump; 11, the suction pipe; 12, the catheter; 13, the liquid storage tank; 14, the liquid inlet pipe; 15, the fixed ring; ; 17, the second electric slideway; 18, the second electric slider; 19, the breathable plate; 20, the adjustment box; 21, the driving motor; 22, the motor shaft; 23, the rotating disc; 24, the electric push rod; 25, Fitting sleeve; 26, rotating block; 27, connecting sleeve; 28, connecting ring; 29, adjusting rod; 30, splint; 31, first separation pipe; 32, second separation pipe; 33, air blower; 34, second Electric circuit; 35, the second rotating block; 36, the second connecting rod; 37, the ultrasonic breaker; 38, the dividing plate.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention.

Please refer to Fig. 1-5, a kind of embodiment provided by the present invention: a kind of efficient continuous Tremella cell separation device, comprises device shell 1, and the interior of device shell 1 is provided with ventilating plate 19, is provided with a plurality of Vent hole, and vent hole is set to circular hole shape, and the upper end of breathable plate 19 is provided with the second electric slideway 17, and the second electric slideway 17 is connected with breathable plate 19 by bolt, and the inside of the second electric slideway 17 is provided with The second electric slider 18, the second electric slider 18 is electrically connected with the second electric slideway 17, the second electric slider 18 is provided with a connecting frame 16, and the connecting frame 16 and the second electric sliding block 18 pass through Bolt connection, the connecting frame 16 is provided with a fixed ring 15, the fixed ring 15 is arranged in a ring shape, the fixed ring 15 and the connecting frame 16 are fixedly connected, the lower end of the fixed ring 15 is provided with a rotating block 26, and the outer side of the rotating block 26 An adjustment box 20 is provided, and the adjustment box 20 and the rotating block 26 are arranged to be rotationally connected. Both the adjustment box 20 and the fixed ring 15 are provided with a connecting sleeve 27, and there are multiple connecting sleeves 27, and the connecting sleeve 27 is provided with a connecting ring 28 , the number of connecting rings 28 is set to be consistent with the number of connecting sleeves 27, and the connecting rings 28 and connecting sleeves 27 are connected by bolts.

Further, the connecting ring 28 is provided with an adjusting rod 29, and there are multiple adjusting rods 29. The adjusting rod 29 is provided with an adjusting groove, and the adjusting rod 29 and the connecting ring 28 are connected with the adjusting groove by bolts. 30, the splint 30 is set in the shape of an arc plate, the splint 30 is provided with a soft gasket, and the soft gasket and the splint 30 are set to be pasted and connected, the inner side of the splint 30 is provided with a first separation pipe 31, and the first separation pipe 31 is provided with Multiple, the upper end of the first separation pipe 31 is provided with a second separation pipe 32 , the number of shapes and structures of the second separation pipe 32 is set to be consistent with the number of shapes and structures of the first separation pipe 31 .

Further, the lower end of the rotating block 26 is provided with a fitting sleeve 25, the fitting sleeve 25 and the rotating block 26 are fixedly connected, the lower end of the fitting sleeve 25 is provided with a motor shaft 22, and the motor shaft 22 and the fitting sleeve 25 are arranged to rotate Connect, the lower end of the motor shaft 22 is provided with a drive motor 21, the drive motor 21 is connected with the motor shaft 22 through a coupling, the motor shaft 22 is provided with a rotating disc 23, the rotating disc 23 and the motor shaft 22 are fixedly connected, and the rotating disc 23 is provided with electric push rod 24, and electric push rod 24 is provided with a plurality of, and electric push rod 24 is set to be fixedly connected with rotating disc 23, and electric push rod 24 is set to be fixedly connected with rotating block 26.

Further, the upper end of the device housing 1 is provided with a sealing cover 2, the sealing cover 2 and the device housing 1 are arranged to fit together, the sealing cover 2 and the device housing 1 are connected by bolts, the lower end of the air-permeable plate 19 is provided with a blower 33, and the blower 33 is provided with A plurality of air blowers 33 are connected to the device housing 1 by bolts.

Further, the lower end of the sealing cover 2 is provided with a first electric slideway 3, the first electric slideway 3 is provided with a plurality, and the plurality of first electric slideway 3 is arranged in a circular shape, the first electric slideway 3 and the device casing 1 Connected by bolts, the inside of the first electric slideway 3 is provided with a first electric slide block 4, the first electric slide block 4 is electrically connected with the first electric slideway 3, and the first electric slide block 4 is provided with a second An electric circuit 5, the first electric circuit 5 and the first electric slider 4 are connected by bolts, one side of the first electric circuit 5 is provided with a partition 38, and the partition 38 and the first electric circuit 5 are connected by bolts Connect, one side of the dividing plate 38 is provided with the second electric loop 34, the second electric loop 34 and the first electric loop 5 are all arranged in a semi-arc shape, the second electric loop 34 and the dividing plate 38 are connected by bolts.

Further, the inside of the first electric ring 5 is provided with a first rotating block 6, the first rotating block 6 is electrically connected with the first electric ring 5, and the inner side of the second electric ring 34 is provided with a second rotating block 35, the second rotating block 35 and the second electric circuit 34 are set to be electrically connected, the second rotating block 35 and the first rotating block 6 are provided with fixed sleeves 7, and the fixed sleeves 7 are respectively connected to the second rotating block 35 and the second rotating block 35. The first rotating block 6 is connected by bolts.

Further, the fixed sleeve 7 is provided with a first connecting rod 8, the first connecting rod 8 and the fixed sleeve 7 are connected by bolts, the lower end of the first connecting rod 8 is provided with a protective shell 9, and the protective shell 9 and the first connecting rod 8 are arranged For fixed connection, the inside of protective shell 9 is provided with suction pump 10, and the lower end of suction pump 10 is provided with suction pipe 11, and suction pipe 11 and suction pump 10 are arranged as fixed connection, and one side of suction pump 10 A catheter 12 is provided, and the catheter 12 is fixedly connected to the suction pump 10. One side of the catheter 12 is provided with a liquid storage tank 13, and the liquid storage tank 13 is provided with multiple, multiple liquid storage tanks 13 Arranged in a semi-circular shape, the liquid storage tank 13 is connected to the device shell 1 by bolts, the liquid storage tank 13 is provided with a liquid inlet pipe 14, and the liquid inlet pipe 14 is provided with an electric valve, and the liquid inlet pipe 14 and the liquid storage tank 13 are arranged for a fixed connection.

Further, one side of the protective casing 9 is provided with a second connecting rod 36, the second connecting rod 36 is connected with the fixed sleeve 7 by bolts, and the lower end of the second connecting rod 36 is provided with an ultrasonic breaker 37, and the ultrasonic breaker 37 is connected to the second connecting rod 36. The connecting rods 36 are connected by bolts.

A separation method of a high-efficiency continuous tremella cell separation device, comprising the steps of:

Step 1: The user can place the tremella cells in the first separation tube 31 and the second separation tube 32 by opening the sealing cover 2 respectively, and the second electric circuit 34 and the second rotating block 35 are electrically connected to separate the tremella cells. Drive ultrasonic breaker 37 to move;

Step 2: Insert the ultrasonic breaker 37 into the corresponding first separation tube 31, and use the ultrasonic breaker 37 to realize the crushing treatment of Tremella cells. After the crushing is completed, the second electric slideway 17 electrically connected with The second electric slider 18 rotates the first separating tube 31, and the broken tremella cells are centrifuged through the rotating first separating tube 31. After a period of time, the electrically connected first electric loop 5 and the second A rotating block 6 drives the suction tube 11 to move, so as to extract the cell fluid inside the first separation tube 31, thereby sucking the layered cell fluid into the liquid storage tank 13;

Step 3: After the ultrasonic breaker 37 is crushed, move the ultrasonic breaker 37 again to extend the ultrasonic breaker 37 into the corresponding second separation pipe 32, and repeat the operation of the above step 2 to realize the second separation The tremella cells in the tube 32 are stratified, and when the tremella cells in the second separation tube 32 are stratified, the tremella cells added in the first separation tube 31 can be crushed under the action of the ultrasonic breaker 37 , to achieve continuous separation of the separation device.

Working principle: When in use, the user can place the tremella cells in the first separation tube 31 and the second separation tube 32 by opening the sealing cover 2, and the second electric circuit 34 electrically connected with the second rotation block 35 to drive the ultrasonic breaker 37 to move, to extend into the corresponding first separation tube 31 through the ultrasonic breaker 37, to realize the crushing treatment of Tremella cells by the ultrasonic breaker 37, after the crushing is completed, through the electrical connection The second electric slideway 17 and the second electric slide block 18 are used to rotate the first separation tube 31, and the broken tremella cells are centrifuged through the rotating first separation tube 31. After a period of time, through the electrically connected The first electric circuit 5 and the first rotating block 6 drive the suction tube to move, so as to extract the cell fluid inside the first separation tube 31, thereby sucking the layered cell fluid into the liquid storage tank 13. Inside, after the ultrasonic breaker 37 is broken, move the ultrasonic breaker 37 again to extend the ultrasonic breaker 37 into the corresponding second separation tube 32, and repeat the operation of the above-mentioned step 2, to realize the second separation tube Tremella cells in 32 are stratified, while Tremella cells in the second separation tube 32 are stratified, Tremella cells added in the first separation tube 31 can be crushed under the action of ultrasonic breaker 37, In order to realize the continuous separation of the separation device, the user can realize the suction structure and the crushing structure by driving the first rotating block 6 and the second rotating block 35 to rotate in the process of using the Tremella cell separation device. Fast switching, and at the same time, the collection of the stratified solution in the separation tube can be realized through the setting of multiple liquid storage tanks 13, so that the working efficiency of the entire cell separation device can be improved to a certain extent, and the blower 33 can also be used. The setting of the device shell 1 is realized to heat or cool down the inside of the device shell 1, and the transmission efficiency of the internal temperature of the device shell 1 is realized through the setting of the air-permeable plate 19, so that the service life of the whole tremella cell separation device can be greatly improved , and then can relieve the pressure of the user to a certain extent, and then drive a plurality of first separation pipes 31 to rotate through the drive motor 21, and realize the height adjustment of the first separation pipe 31 through the setting of the electric push rod 24 At the same time, the rotation and centrifugation of the second separation tube 32 can also be realized through the electrically connected second electric slideway 17 and the second electric slide block 18, thereby improving the use of the whole tremella cell separation device to a certain extent. Applicability, finally, the separation tube can be clamped by two splints 30, and the position of the adjustment rod 29 on the connecting ring 28 can also be adjusted to realize the clamping of the separation tube of different specifications, and then can To a certain extent, the user's pressure is relieved.

It will be apparent to those skilled in the art that the invention is not limited to the details of the above-described exemplary embodiments, but that the invention can be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Accordingly, the embodiments should be regarded in all points of view as exemplary and not restrictive, the scope of the invention being defined by the appended claims rather than the foregoing description, and it is therefore intended that the scope of the invention be defined by the appended claims rather than by the foregoing description. All changes within the meaning and range of equivalents of the elements are embraced in the present invention. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a high-efficient continuous type white fungus cell separation device, includes device shell (1), its characterized in that: the device is characterized in that a ventilation plate (19) is arranged in the device shell (1), a plurality of ventilation holes are formed in the ventilation plate (19), the ventilation holes are arranged to be circular holes, a second electric slide (17) is arranged at the upper end of the ventilation plate (19), the second electric slide (17) is connected with the ventilation plate (19) through bolts, a second electric slide (18) is arranged in the second electric slide (17), the second electric slide (18) and the second electric slide (17) are electrically connected, a connecting frame (16) is arranged on the second electric slide (18), the connecting frame (16) is connected with the second electric slide (18) through bolts, a fixing ring (15) is arranged on the connecting frame (16), the fixing ring (15) is arranged to be a connecting sleeve, the fixing ring (15) is fixedly connected with the connecting frame (16), a rotating block (26) is arranged at the lower end of the fixing ring (15), an adjusting box (20) is arranged at the outer side of the rotating block (26), the adjusting box (20) is rotatably connected with the rotating block (26), a plurality of connecting sleeves (27) are arranged on the adjusting box (20), and a plurality of fixing rings (27) are arranged on the connecting sleeve (27), the number of the connecting rings (28) is consistent with that of the connecting sleeves (27), and the connecting rings (28) are connected with the connecting sleeves (27) through bolts.

2. The efficient continuous tremella cell separating device as claimed in claim 1, wherein: be provided with on go-between (28) and adjust pole (29), it is provided with a plurality ofly to adjust pole (29), be provided with the adjustment tank on adjusting pole (29), it is connected with the adjustment tank through the bolt with go-between (28) to adjust pole (29), be provided with splint (30) on adjusting pole (29), splint (30) set up to the arc platelike, be provided with the soft gasket on splint (30), and soft gasket and splint (30) set up to paste and are connected, the inboard of splint (30) is provided with first separator tube (31), first separator tube (31) are provided with a plurality ofly, the upper end of first separator tube (31) is provided with second separator tube (32), the shape structure quantity of second separator tube (32) and the shape structure quantity of first separator tube (31) all set up to the unanimity.

3. The efficient continuous tremella cell separating device as claimed in claim 1, wherein: the lower extreme of rotatory piece (26) is provided with laminating cover (25), the lower extreme of laminating cover (25) is provided with motor shaft (22), the lower extreme of motor shaft (22) is provided with driving motor (21), be provided with rolling disc (23) on motor shaft (22), be provided with electric putter (24) on rolling disc (23).

4. The efficient continuous tremella cell separating device as claimed in claim 1, wherein: the upper end of the device shell (1) is provided with a sealing cover (2), and the lower end of the ventilation plate (19) is provided with a blower (33).

5. The efficient continuous tremella cell separating device as claimed in claim 4, wherein: the lower extreme of sealed lid (2) is provided with first electronic slide (3), first electronic slide (3) are provided with a plurality ofly, and are a plurality of first electronic slide (3) are the circumference form and arrange, first electronic slide (3) pass through bolted connection with device shell (1), the inside of first electronic slide (3) is provided with first electronic slider (4), first electronic slider (4) set up to electric connection with first electronic slide (3), be provided with first electronic loop (5) on first electronic slider (4), first electronic loop (5) pass through bolted connection with first electronic slider (4), one side of first electronic loop (5) is provided with baffle (38), baffle (38) pass through bolted connection with first electronic loop (5), one side of baffle (38) is provided with second electronic loop (34), second electronic loop (34) all set up to the semicircle arc-shape with first electronic loop (5), second electronic loop (34) pass through bolted connection with electronic loop (38).

6. The efficient continuous tremella cell separating device as claimed in claim 5, wherein: the inside of first electronic ring way (5) is provided with first turning block (6), first turning block (6) set up to electric connection with first electronic ring way (5), the inboard of second electronic ring way (34) is provided with second turning block (35), second turning block (35) set up to electric connection with second electronic ring way (34), all be provided with fixed cover (7) on second turning block (35) and first turning block (6), fixed cover (7) pass through bolted connection with second turning block (35) and first turning block (6) respectively.

7. The efficient continuous tremella cell separating device as claimed in claim 6, wherein: be provided with head rod (8) on fixed cover (7), head rod (8) and fixed cover (7) pass through bolted connection, the lower extreme of head rod (8) is provided with protecting sheathing (9), protecting sheathing (9) set up to fixed connection with head rod (8), the inside of protecting sheathing (9) is provided with suction pump (10), the lower extreme of suction pump (10) is provided with suction tube (11), suction tube (11) set up to fixed connection with suction pump (10), one side of suction pump (10) is provided with catheter (12), catheter (12) set up to fixed connection with suction pump (10), one side of catheter (12) is provided with deposit liquid case (13), deposit liquid case (13) is provided with a plurality ofly, and is a plurality of deposit liquid case (13) are half week form and arrange, deposit liquid case (13) and device shell (1) pass through bolted connection, be provided with feed liquor pipe (14) on deposit liquid case (13), be provided with electric valve on feed liquor pipe (14), deposit liquid case (14) sets up to fixed connection with feed liquor deposit liquid case (13).

8. The efficient continuous tremella cell separating device as claimed in claim 7, wherein: one side of the protective shell (9) is provided with a second connecting rod (36), and the lower end of the second connecting rod (36) is provided with an ultrasonic crusher (37).

9. A separation method of a high-efficiency continuous tremella cell separation device is based on any one of claims 1 to 8, and is characterized by comprising the following steps:

the method comprises the following steps: a user can place tremella cells in the first separation tube (31) and the second separation tube (32) respectively by opening the sealing cover (2), and the ultrasonic crusher (37) is driven to move by the second electric loop (34) and the second rotating block (35) which are electrically connected;

step two: the tremella cells are crushed by the ultrasonic crusher (37) and extend into the corresponding first separating tube (31), the tremella cells are crushed by the ultrasonic crusher (37), after the tremella cells are crushed, the first separating tube (31) is rotated by the electrically connected second electric slide way (17) and the second electric slide block (18), the crushed tremella cells are centrifuged by the rotated first separating tube (31), and after a period of time, the suction tube (11) is driven to move by the electrically connected first electric loop (5) and the first rotating block (6) so as to extract the cell sap in the first separating tube (31) and suck the layered cell sap into the liquid storage box (13);

step three: and after the ultrasonic crusher (37) is crushed, the ultrasonic crusher (37) is moved again to enable the ultrasonic crusher (37) to stretch into the corresponding second separation tube (32), and the operation of the second step is repeated, so that the tremella cells in the second separation tube (32) are subjected to layering treatment, and meanwhile, when the tremella cells in the second separation tube (32) are subjected to layering operation, the tremella cells added again in the first separation tube (31) can be crushed under the action of the ultrasonic crusher (37), so that the separation device can be continuously separated.

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