CN114130105A

CN114130105A - Purification device is used in tetrapeptide production with impurity separation structure

Info

Publication number: CN114130105A
Application number: CN202111055891.7A
Authority: CN
Inventors: 杨庆雄; 张云超
Original assignee: Hainan Xinxin Biotechnology Co ltd
Current assignee: Hainan Xinxin Biotechnology Co ltd
Priority date: 2021-09-09
Filing date: 2021-09-09
Publication date: 2022-03-04

Abstract

The invention discloses a purifying device with an impurity separation structure for tetrapeptide production, which relates to the technical field of tetrapeptide production, and specifically comprises a placing frame and a window, wherein a storage cavity is arranged in the placing frame, a water pump is arranged at one end outside the top of the storage cavity, a top cover plate is arranged outside the upper end of the water pump, a connecting pipe is slidably arranged in the top cover plate, a feeding hole is arranged at one end outside the connecting pipe, and a connecting frame is arranged outside the bottom of the feeding hole. This purification device is used in tetrapeptide production with impurity separation structure can upwards stimulate the link after the edulcoration separation is finished, can make the link separate with the processing frame, and convenient to use person collects the impurity of processing the inside separation of frame, and the reuse of being convenient for processes the frame, and the lamina tecti can with place the frame and separate when upwards stimulating the link, and convenient to use person overhauls and maintains the while person of facilitating the use and places the raw materials to placing the frame inside.

Description

Purification device is used in tetrapeptide production with impurity separation structure

Technical Field

The invention relates to the technical field of tetrapeptide production, in particular to a purifying device with an impurity separation structure for tetrapeptide production.

Background

The tetrapeptide belongs to polypeptide components, and the latest research shows that the tetrapeptide has good biological activity, can effectively reduce the roughness of the skin, improve the skin tightening effect, effectively fade wrinkles, nourish the skin, improve the metabolism of the skin, has a whitening effect, but has a long period, and is required to be purified in the production process of the tetrapeptide so as to be convenient for subsequent use.

The purification device for producing the existing tetrapeptides is complex in structure, inconvenient for a user to use, poor in impurity removal effect in the using process and inconvenient for cleaning internal impurities of the purification device after the purification device is used.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a purification device with an impurity separation structure for tetrapeptide production, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a purifying device with an impurity separation structure for producing tetrapeptide comprises a placing frame and a window, wherein a storage cavity is arranged in the placing frame, and one end of the top outer part of the storage cavity is provided with a water pump, the outer part of the upper end of the water pump is provided with a top cover plate, and the inside of the top cover plate is slidably provided with a connecting pipe, one end of the outside of the connecting pipe is provided with a feed inlet, and the outside of the bottom of the feed inlet is provided with a connecting frame, the outside of the bottom of the connecting frame is provided with a processing frame, and the upper end in the processing frame is provided with a guide pipe, the lower end of the guide pipe is provided with an auxiliary component for impurity removal and filtration, an ultrafiltration membrane is arranged outside the bottom of the auxiliary component, a side pipe is arranged at one end outside the bottom of the ultrafiltration membrane, the backup pad is all installed at the outside both ends of processing frame, the window is located the outside of placing the frame front end.

Optionally, the left end of the outside of the supporting plate is provided with a side placing frame, a collecting assembly used for collecting extracting solution is installed inside the side placing frame, and a baffle is installed at one end, close to the supporting plate, of the outside of the collecting assembly in a sliding mode.

Optionally, the collecting assembly comprises a connecting shaft, a servo motor, a connecting rod, an annular pipe, a placing groove, an externally-arranged groove and a sliding rail, the servo motor is arranged outside the bottom of the connecting shaft, the connecting rod is arranged outside the connecting shaft, the externally-arranged groove is arranged outside the connecting rod, the placing groove is arranged in the middle of the inside of the externally-arranged groove, the annular pipe is arranged outside the externally-arranged groove, and the sliding rail is arranged at the bottom of the servo motor in a sliding mode.

Optionally, the central axes of the placing groove and the external groove coincide with each other, and the external groove is in through connection with the annular pipe.

Optionally, the right-hand member of backup pad outside is provided with the side and puts the frame, and the fixed plate is installed at the top of the frame of just inclining, the inside fixed mounting of the frame of inclining has electronic slide rail, and the inside slidable mounting of electronic slide rail has the slider, the top of slider is provided with the hydraulic pressure gas pole, and the diaphragm is installed at the top of hydraulic pressure gas pole, the inside of diaphragm is provided with the sterilamp.

Optionally, the outside of diaphragm is provided with the clearance cotton, and the clearance cotton is provided with two to be parallel to each other between the clearance cotton, the cotton bottom of clearance is connected with the diaphragm block moreover.

Optionally, the hydraulic air rod and the sliding block are perpendicular to each other, and two sliding blocks are arranged.

Optionally, the auxiliary assembly comprises a first motor, a first rotating shaft, a first filter frame, a second rotating shaft, a second motor and a flow collecting plate, the first rotating shaft is arranged outside the bottom of the first motor, the first filter frame is arranged outside the bottom of the first rotating shaft, the second filter frame is arranged in the middle of the inside of the first filter frame, the second rotating shaft is arranged outside the bottom of the second filter frame, the second motor is arranged outside the bottom of the second rotating shaft, and the flow collecting plate is arranged outside the bottom of the first filter frame.

Optionally, the first filter frame and the second filter frame are both cylindrical structures, and the middle points of the first filter frame and the second filter frame are located on the same central axis.

Optionally, the connection frame is connected with the processing frame in a clamping manner, and the connection frame is of a hollow structure.

The invention provides a purifying device with an impurity separation structure for tetrapeptide production, which has the following beneficial effects:

can carry out automatic material loading processing to the tetrapeptide stoste that has impurity in the use, can carry out dual centrifugation edulcoration filtration processing after the material loading finishes, can utilize the milipore filter to carry out the filtration purification processing of going on once more after the filtration finishes, and can carry out convenient clearance to impurity after the purification finishes, moreover, the steam generator is simple in structure, and can incessantly collect when collecting purification liquid, and can place the collecting vessel of different capacities according to collecting capacity needs, and can need not use the completion after and can clear up the disinfection to it at the unloading pipe, avoid when collecting purification liquid because of the unloading pipe is unclean causes the problem of purification liquid pollution.

1. The purifying device with the impurity separation structure for the tetrapeptide production can rotate a valve switch to enable purifying liquid to flow downwards from a discharging pipe after purification is finished, so that a servo motor can be horizontally moved by utilizing the design of a sliding rail according to the requirement of a collecting position, the collecting area of the purifying liquid can be conveniently and properly adjusted, a user can place collecting barrels with different capacities in a placing groove in advance according to the requirement of use, a connecting rod connected with the connecting shaft can be rotated by synchronously utilizing the interaction of the connecting shaft and the servo motor, the position of the placing groove and an external groove can be adjusted, the collecting of the purifying liquid with different capacities is realized, the uniform collecting of the user is convenient, the design of a ring-shaped pipe can be utilized to carry out uninterrupted collecting when the purifying liquid is collected, the purifying liquid flowing downwards can be concentrated between the external groove and the placing groove through the ring-shaped pipe when the collecting barrels are replaced, the subsequent user can conveniently open the valve of the external groove to collect the external groove;

2. the purifying device with the impurity separation structure for the tetrapeptide production can move the position of the hydraulic air rod by utilizing the interaction of the electric slide rail and the slide block when the blanking pipe is not needed, so that cleaning cotton connected with the hydraulic air rod can be subjected to sliding friction treatment outside the blanking pipe, the outside of the blanking pipe can be cleaned, and the blanking pipe can be sterilized and disinfected from bottom to top by utilizing the design of the ultraviolet disinfection lamp in the cleaning process, so that the possibility of purifying liquid pollution caused by unclean blanking pipe when the final purifying liquid is collected is avoided;

3. the purifying device with the impurity separation structure for the tetrapeptide production can be used for pulling the cleaning cotton upwards to separate the cleaning cotton from the transverse plate after the cleaning cotton is used for a single time and is bound, so that a user can conveniently detach and clean the cleaning cotton, the cleaning of the cleaning cotton is kept, and when a blanking pipe is not required to be cleaned and disinfected, components connected with the sliding block can be moved to the inner part of the side frame by using the design of the electric sliding rail and the sliding block, the side frame can be used for carrying out uniform storage and protection on the components, and the occupied space for collecting the purifying liquid is reduced;

4. according to the purifying device with the impurity separation structure for the tetrapeptide production, the stock solution can be firstly transferred and guided to the inside of the second filter frame, the second filter frame can rotate through the second rotating shaft and the second motor, the stock solution placed in the second filter frame can be subjected to centrifugal filtration treatment through the quick rotation of the second filter frame, impurities can be retained in the second filter frame, the filtered liquid can be transferred to the inside of the first filter frame due to the centrifugal effect, so that the first filter frame can perform secondary centrifugal effect by utilizing the interaction of the first motor and the first rotating shaft, and the impurities in the stock solution can be quickly separated through double centrifugal motions;

5. this purification device is used in tetrapeptide production with impurity separation structure can upwards stimulate the splice box after the edulcoration separation is ended, can make the splice box separate with the processing frame, and convenient to use person collects the impurity that processing frame inside was separated, and the reuse processing frame of being convenient for, and the lamina tecti can with place the frame and separate when upwards pulling the splice box, and the person of facilitating the use places the raw materials to placing frame inside overhaul and maintain the person of facilitating the use simultaneously.

Drawings

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the processing frame according to the present invention;

FIG. 3 is a schematic view of the internal structure of the side frame of the present invention;

FIG. 4 is a schematic view of a top connection portion of the side frame of the present invention;

FIG. 5 is a schematic view of the internal structure of the placement frame of the present invention.

In the figure: 1. placing the frame; 2. a window; 3. a top cover plate; 4. a connecting pipe; 5. a feed inlet; 6. a connecting frame; 7. processing the frame; 8. a discharging pipe; 9. a support plate; 10. a side frame; 11. laterally placing a frame; 12. a fixing plate; 13. an electric slide rail; 14. a guide tube; 15. an auxiliary component; 1501. a first motor; 1502. a first rotating shaft; 1503. a first filter frame; 1504. a second filter frame; 1505. a second rotating shaft; 1506. a second motor; 1507. a collector plate; 16. ultrafiltration membranes; 17. a side tube; 18. cleaning cotton; 19. a transverse plate; 20. A sterilizing lamp; 21. a hydraulic gas lever; 22. a slider; 23. a baffle plate; 24. a collection assembly; 2401. a connecting shaft; 2402. a servo motor; 2403. a connecting rod; 2404. an annular tube; 2405. a placement groove; 2406. An external groove; 2407. a slide rail; 25. a water pump; 26. a storage chamber.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a technical solution: a purification device with an impurity separation structure for tetrapeptide production comprises a placing frame 1, a window 2, a top cover plate 3, a connecting pipe 4, a feeding hole 5, a connecting frame 6, a processing frame 7, a blanking pipe 8, a supporting plate 9, a side placing frame 10, a side placing frame 11, a fixing plate 12, an electric sliding rail 13, a guiding pipe 14, an auxiliary component 15, a first motor 1501, a first rotating shaft 1502, a first filtering frame 1503, a second filtering frame 1504, a second rotating shaft 1505, a second motor 1506, a collecting plate 1507, an ultrafiltration membrane 16, a side placing pipe 17, cleaning cotton 18, a transverse plate 19, a disinfection lamp 20, a hydraulic air rod 21, a sliding block 22, a baffle plate 23, a collecting component 24, a connecting shaft 2401, a servo motor 2402, a connecting rod 2403, a ring-shaped pipe 2404, a placing groove 2405, an external groove 2406, a sliding rail 2407, a water pump 25 and a storage cavity 26, wherein the storage cavity 26 is arranged inside the placing frame 1, and a water pump 25 is arranged at one end outside the top of the storage cavity 26, a top cover plate 3 is arranged outside the upper end of the water pump 25, a connecting pipe 4 is slidably mounted inside the top cover plate 3, a feed inlet 5 is formed in one end outside the connecting pipe 4, a connecting frame 6 is mounted outside the bottom of the feed inlet 5, a processing frame 7 is arranged outside the bottom of the connecting frame 6, a guide pipe 14 is mounted at the upper end inside the processing frame 7, an auxiliary assembly 15 for impurity removal and filtration is arranged at the lower end of the guide pipe 14, an ultrafiltration membrane 16 is mounted outside the bottom of the auxiliary assembly 15, a side pipe 17 is arranged at one end outside the bottom of the ultrafiltration membrane 16, supporting plates 9 are mounted at two ends outside the processing frame 7, and a window 2 is located outside the front end of the placing frame 1;

the specific operation is as follows, firstly, the user can pull the top cover plate 3 upwards to separate the top cover plate from the placing frame 1, the user can place raw materials into the storage cavity 26 in the placing frame 1, then the water pump 25 and the connecting pipe 4 can be used for transferring the objects to be purified to the connecting frame 6 and the processing frame 7 for impurity removal treatment, then the ultrafiltration membrane 16 can be used for filtration and purification, the purified raw liquid can flow out through the discharging pipe 8, and the collecting assembly 24 can be used for collecting the purified raw liquid.

As shown in fig. 4, a side frame 10 is arranged at the left end outside the supporting plate 9, a collecting assembly 24 for collecting the extracting solution is arranged inside the side frame 10, a baffle plate 23 is slidably arranged at one end, close to the supporting plate 9, outside the collecting assembly 24, the collecting assembly 24 comprises a connecting shaft 2401, a servo motor 2402, a connecting rod 2403, an annular tube 2404, a placing groove 2405, an external groove 2406 and a sliding rail 2407, a servo motor 2402 is arranged outside the bottom of the connecting shaft 2401, a connecting rod 2403 is arranged outside the connecting shaft 2401, an external groove 2406 is arranged outside the connecting rod 2403, a placing groove 2405 is arranged in the middle inside the external groove 2406, an annular tube 2404 is arranged outside the external groove 2406, a sliding rail 2407 is slidably arranged at the bottom of the servo motor 2402, central axes of the placing groove 2405 and the external groove 2406 are overlapped, and the external groove 2406 is connected with the annular tube 2404 in a penetrating manner;

the purified liquid can flow downwards from the blanking pipe 8 by rotating the valve switch after purification is finished, so that the servo motor 2402 can be horizontally moved by utilizing the design of the slide rail 2407 according to the requirement of a collection position, the collection area of the purified liquid is convenient to be properly adjusted, a user can place collection barrels with different capacities in the placement groove 2405 according to the requirement of the user in advance, the connecting rod 2403 connected with the connecting shaft 2401 can be rotated by synchronously utilizing the interaction of the connecting shaft 2401 and the servo motor 2402, so that the placement groove 2405 and the external groove 2406 can be subjected to position adjustment, the collection of the purified liquid with different capacities is realized, the user can uniformly collect the purified liquid, the design of the annular pipe 2404 can be utilized for uninterrupted collection when the purified liquid is collected, the purified liquid flowing downwards can be concentrated between the external groove 2406 and the placement groove 2405 through the annular pipe 2404 when the collection barrels are replaced, the external groove 2406 valve is convenient for a subsequent user to open and collect.

As shown in fig. 1 and 3, a side frame 11 is arranged at the right end of the outer part of the supporting plate 9, a fixed plate 12 is arranged at the top of the side frame 11, an electric slide rail 13 is fixedly arranged inside the side frame 11, a slide block 22 is slidably arranged inside the electric slide rail 13, a hydraulic air rod 21 is arranged at the top of the slide block 22, a transverse plate 19 is arranged at the top of the hydraulic air rod 21, and a disinfection lamp 20 is arranged inside the transverse plate 19;

when can not need to use unloading pipe 8, usable electronic slide rail 13 and slider 22's interact carries out the removal of position to hydraulic pressure gas pole 21, thereby can make the clearance cotton 18 that is connected with hydraulic pressure gas pole 21 carry out slidingtype friction processing in unloading pipe 8's outside, with this can clear up unloading pipe 8 outside, and can utilize ultraviolet ray disinfection lamp 20's design to carry out sterilization and disinfection processing to unloading pipe 8 from bottom to top in the clearance process, avoid when collecting final purification liquid because unloading pipe 8 is located unclean possibility that leads to improving the pure liquid and polluting.

As shown in fig. 1 and 3, two cleaning cottons 18 are arranged outside the transverse plate 19, the cleaning cottons 18 are parallel to each other, the bottom of the cleaning cottons 18 is connected with the transverse plate 19 in a clamping manner, the hydraulic air rod 21 is perpendicular to the sliding block 22, and the sliding block 22 is provided with two sliding blocks;

can upwards stimulate clearance cotton 18 after the cotton 18 of single use clearance makes it separate with diaphragm 19, convenient to use person dismantles the clearance to clearance cotton 18, keep the cleanness of clearance cotton 18, and can be when need not clearing up the disinfection to unloading pipe 8, can utilize the design of electronic slide rail 13 and slider 22 to make the subassembly that is connected with slider 22 move to the side and put inside frame 11, usable side is put frame 11 and is carried out unified protection of accomodating to it, reduce the occupation space when collecting purification liquid.

As shown in fig. 2, the auxiliary assembly 15 includes a first motor 1501, a first rotating shaft 1502, a first filter frame 1503, a second filter frame 1504, a second rotating shaft 1505, a second motor 1506 and a current collecting plate 1507, the first rotating shaft 1502 is arranged outside the bottom of the first motor 1501, the first filter frame 1503 is arranged outside the bottom of the first rotating shaft 1502, the second filter frame 1504 is arranged in the middle of the inside of the first filter frame 1503, the second rotating shaft 1505 is arranged outside the bottom of the second filter frame 1504, the second motor 1505 is arranged outside the bottom of the second rotating shaft 1505, the current collecting plate 1507 is arranged outside the bottom of the first filter frame 1503, the first filter frame 1503 and the second filter frame 1504 are both cylindrical structures, and the midpoints of the first filter frame 1503 and the second filter frame 1504 are located on the same central axis 1506;

the stock solution is firstly transferred and guided to the inside of the second filter frame 1504, the second filter frame 1504 is rotated through the second rotating shaft 1505 and the second motor 1506, the stock solution placed in the second filter frame 1504 can be subjected to centrifugal filtration treatment through the rapid rotation of the second filter frame 1504, impurities can be remained in the second filter frame 1504, the filtered liquid can be transferred to the inside of the first filter frame 1503 due to the centrifugal effect, the first filter frame 1503 can perform the centrifugal effect again through the interaction of the first motor 1501 and the first rotating shaft 1502, and the impurities in the stock solution can be rapidly separated through the double centrifugal movement.

As shown in fig. 1, the connection frame 6 is connected with the processing frame 7 in a clamping manner, and the interior of the connection frame 6 is of a hollow structure;

can upwards stimulate the connecting frame 6 after the edulcoration separation is ended, can make connecting frame 6 separate with processing frame 7, the person of facilitating the use collects the impurity that processing frame 7 inside was separated out, reuse of being convenient for processing frame 7, and the lamina tecti 3 can with place frame 1 and separate when upwards stimulating connecting frame 6, the person of facilitating the use is to placing frame 1 inside overhaul and maintain simultaneously the person of facilitating the use and place the raw materials.

In summary, when the purifying device with the impurity separating structure for producing tetrapeptides is used, firstly, a user can pull the top cover plate 3 upwards to separate the top cover plate from the placing frame 1, the user can place raw materials into the storage cavity 26 inside the placing frame 1, then the water pump 25 and the connecting pipe 4 can be used for transferring articles to be purified to the connecting frame 6 and the processing frame 7 for impurity removal treatment, namely, the raw liquid is firstly transferred and guided to the inside of the second filter frame 1504, the second filter frame 1504 can rotate through the second rotating shaft 1505 and the second motor 1506, the raw liquid placed in the second filter frame 1504 can be centrifugally filtered through the quick rotation of the second filter frame 1504, impurities can be retained in the second filter frame 1504, the filtered liquid can be transferred to the inside of the first filter frame 1503 due to the centrifugal effect, and the first filter frame 1503 can perform centrifugal separation treatment again by utilizing the interaction of the first motor 1501 and the first rotating shaft 1502 The function, the double centrifugal motion can rapidly separate impurities in the stock solution, then the purification can be carried out by utilizing the design of the ultrafiltration membrane 16, the purified solution can be turned to a valve switch to flow downwards from the blanking pipe 8 after the purification is finished, so that the servo motor 2402 can be horizontally moved by utilizing the design of the slide rail 2407 according to the requirement of the collection position, the collection area of the purified solution can be conveniently and properly adjusted, a user can place collection barrels with different capacities in the placement groove 2405 according to the requirement of use in advance, the connecting rod 2403 connected with the connecting shaft 2401 can be turned by synchronously utilizing the interaction of the connecting shaft 2401 and the servo motor 2402, the positions of the placement groove 2405 and the external groove 2406 can be adjusted, the collection of the purified solution with different capacities is realized, the user can conveniently carry out uniform collection, and uninterrupted collection can be carried out by utilizing the design of the annular pipe 2404 when the purified solution is collected, when the collecting barrel is replaced, the downflow purified liquid is concentrated between the external groove 2406 and the placing groove 2405 through the annular pipe 2404, so that a subsequent user can conveniently open the valve of the external groove 2406 to collect the downflow purified liquid, and finally, when the blanking pipe 8 is not needed, the hydraulic air rod 21 can be moved by utilizing the interaction of the electric slide rail 13 and the slide block 22, so that the cleaning cotton 18 connected with the hydraulic air rod 21 can be subjected to sliding friction treatment outside the blanking pipe 8, the outside of the blanking pipe 8 can be cleaned, the blanking pipe 8 can be sterilized and disinfected from bottom to top by utilizing the design of the ultraviolet disinfection lamp 20 in the cleaning process, the possibility of purified liquid pollution caused by unclean blanking pipe 8 when the final purified liquid is collected is avoided, the cleaning cotton 18 can be pulled upwards to be separated from the transverse plate 19 after the single use of the cleaning cotton 18 is finished, the cleaning cotton 18 is convenient for a user to disassemble and clean, the cleaning cotton 18 is kept clean, and when the blanking pipe 8 is not required to be cleaned and disinfected, the components connected with the sliding block 22 can be moved to the inside of the side frame 11 by utilizing the design of the electric sliding rail 13 and the sliding block 22.

Claims

1. The utility model provides a tetrapeptide production is with purification device with impurity separation structure, which is characterized in that, including placing frame (1) and window (2), the inside of placing frame (1) is provided with stores chamber (26), and stores chamber (26) top outside one end and install water pump (25), the outside of water pump (25) upper end is provided with lamina tecti (3), and the inside slidable mounting of lamina tecti (3) has connecting pipe (4), the outside one end of connecting pipe (4) outside is provided with feed inlet (5), and the externally mounted of feed inlet (5) bottom has connection frame (6), the outside of connection frame (6) bottom is provided with processing frame (7), and the inside upper end of processing frame (7) installs guide tube (14), the lower extreme of guide tube (14) is provided with and is used for edulcoration filterable auxiliary assembly (15), and the externally mounted of auxiliary assembly (15) bottom has milipore filter (16), the utility model discloses a processing frame, including ultrafiltration membrane (16), backup pad (9), window (2) are located the outside of placing frame (1) front end, the outside one end of ultrafiltration membrane (16) bottom is provided with side pipe (17), backup pad (9) are all installed at the outside both ends of processing frame (7).

2. The purification apparatus for tetrapeptide production with impurity separation structure according to claim 1, wherein a side rack (10) is provided at the left end of the outside of the support plate (9), a collection assembly (24) for collecting the extract is installed inside the side rack (10), and a baffle (23) is slidably installed at one end of the outside of the collection assembly (24) close to the support plate (9).

3. The purification device with the impurity separation structure for tetrapeptide production according to claim 1, wherein the collection assembly (24) comprises a connection shaft (2401), a servo motor (2402), a connection shaft (2403), a circular tube (2404), a placement groove (2405), an external groove (2406) and a slide rail (2407), the servo motor (2402) is arranged outside the bottom of the connection shaft (2401), the connection shaft (2403) is mounted outside the connection shaft (2401), the external groove (2406) is arranged outside the connection shaft (2403), the placement groove (2405) is mounted in the middle of the internal of the external groove (2406), the circular tube (2404) is arranged outside the external groove (2406), and the slide rail (2407) is slidably mounted at the bottom of the servo motor (2402).

4. The purification apparatus for tetrapeptide production with impurity separation structure according to claim 3, wherein the central axes of the placement tank (2405) and the external tank (2406) coincide with each other, and the external tank (2406) is connected to the annular tube (2404) in a penetrating manner.

5. The purification device with the impurity separation structure for tetrapeptide production according to claim 1, wherein the right end of the outside of the support plate (9) is provided with a side frame (11), the top of the side frame (11) is provided with a fixed plate (12), the inside of the side frame (11) is fixedly provided with an electric slide rail (13), the inside of the electric slide rail (13) is slidably provided with a slide block (22), the top of the slide block (22) is provided with a hydraulic air rod (21), the top of the hydraulic air rod (21) is provided with a transverse plate (19), and the inside of the transverse plate (19) is provided with a disinfection lamp (20).

6. The purifying apparatus with the impurity separating structure for tetrapeptide production according to claim 5, characterized in that two cleaning cottons (18) are provided outside the horizontal plate (19), the cleaning cottons (18) are parallel to each other, and the bottom of the cleaning cottons (18) is connected with the horizontal plate (19) in a clamping manner.

7. The purification apparatus for tetrapeptide production with impurity separation structure according to claim 5, wherein the hydraulic gas rod (21) and the slide block (22) are perpendicular to each other, and two slide blocks (22) are provided.

8. The purification device with the impurity separation structure for tetrapeptide production according to claim 1, characterized in that the auxiliary assembly (15) comprises a first motor (1501), a first rotating shaft (1502), a first filter frame (1503), a second filter frame (1504), a second rotating shaft (1505), a second motor (1506) and a current collecting plate (1507), wherein the first rotating shaft (1502) is arranged outside the bottom of the first motor (1501), the first filter frame (1503) is arranged outside the bottom of the first rotating shaft (1502), the second filter frame (1504) is arranged in the middle of the inside of the first filter frame (1503), the second rotating shaft (1505) is arranged outside the bottom of the second filter frame (1504), the second motor (1506) is arranged outside the bottom of the second rotating shaft (1505), and the plate (1507) is arranged outside the bottom of the first filter frame (1503).

9. The purification apparatus for tetrapeptide production with impurity separation structure according to claim 8, wherein the first filter frame (1503) and the second filter frame (1504) are both cylindrical in shape, and the midpoints of the first filter frame (1503) and the second filter frame (1504) are located on the same central axis.

10. The purification apparatus for tetrapeptide production with separation of impurities structure of claim 1, wherein the connection frame (6) is connected with the processing frame (7) by snap-fitting, and the connection frame (6) has a hollow structure inside.