CN113933463A

CN113933463A - Rapid sorting device and method for maca polypeptide activity

Info

Publication number: CN113933463A
Application number: CN202111197426.7A
Authority: CN
Inventors: 徐舟
Original assignee: Lijiang Yinghuangji Bioengineering Co ltd
Current assignee: Lijiang Yinghuangji Bioengineering Co ltd
Priority date: 2021-10-14
Filing date: 2021-10-14
Publication date: 2022-01-14
Anticipated expiration: 2041-10-14
Also published as: CN113933463B

Abstract

The invention discloses a rapid maca polypeptide activity sorting device and method, relates to the field of maca polypeptide production, and aims to solve the problems that detection equipment in the prior art is general in detection effect, low in efficiency and incapable of adapting to different conditions. The internally mounted of triage case has the activity detection case, the activity detection case is provided with a plurality of, a plurality of solvent feeding case is all installed to outside one side of activity detection case, the internally mounted of solvent feeding case has the metering valve, the externally mounted of solvent feeding case has the solvent pipe, and a plurality of the detection sensor is installed to the inside lower extreme of activity detection case, the detection sensor is provided with two sets ofly, two sets ofly be provided with the water conservancy diversion passageway between the detection sensor, install the agate coffee polypeptide shunt tubes in the middle of the inside of triage case, just row's material pipe is installed in the outside of agate coffee polypeptide shunt tubes, install first solenoid valve between agate coffee polypeptide shunt tubes and the activity detection case.

Description

Rapid sorting device and method for maca polypeptide activity

Technical Field

The invention relates to the technical field of maca polypeptide production, and particularly relates to a rapid maca polypeptide activity sorting device and method.

Background

Maca, also known as maca, is an annual herb of the genus Lepidium in the family Brassicaceae. The maca has poor growth conditions, is mainly distributed in Andes mountain areas of Peru in south America and Yulong snow mountain areas of Lijiang in Yunnan China, has oval leaves and roots similar to small turnips, and can be eaten. The hypocotyl of maca may be gold or yellowish, red, purple, blue, black or green. Maca is native to Peru Andes mountain in south America, and then the nutritional ingredients of the maca are researched and published, wherein the protein content is more than 10 percent, and the protein content is 59 percent of carbohydrate; 8.5 percent of fiber contains rich mineral substances such as zinc, calcium, iron, titanium, rubidium, potassium, sodium, copper, manganese, magnesium, strontium, phosphorus, iodine and the like, and contains vitamins C, B1, B2, B6, A, E, B12 and B5, and natural active ingredients comprise alkaloid, glucosinolate and decomposition products thereof, namely benzyl isothiocyanate, sterol, polyphenol substances, macamide, maca diluent and the like, wherein the macamide and the maca diluent have obvious effects on balancing the secretion of hormones in human bodies, so the maca is also called a natural hormone engine.

In the preparation process, the activity of the maca alcohol extract needs to be detected, but the existing detection equipment has a common detection effect and low efficiency and cannot adapt to different conditions; therefore, the market urgently needs to develop a rapid sorting device and a sorting method for maca polypeptide activity to help people solve the existing problems.

Disclosure of Invention

The invention aims to provide a rapid maca polypeptide activity sorting device and a rapid maca polypeptide activity sorting method, and aims to solve the problems that the existing detection equipment in the background technology is general in detection effect, low in efficiency and incapable of adapting to different conditions.

In order to achieve the purpose, the invention provides the following technical scheme: a rapid sorting device for maca polypeptide activity comprises sorting boxes, wherein two sorting boxes are arranged, feed hoppers are mounted above the two sorting boxes, an activity detection box is mounted inside the sorting boxes, a plurality of activity detection boxes are arranged, a solvent feeding box is mounted on one side of the outside of each of the plurality of activity detection boxes, a metering valve is mounted inside the solvent feeding box, a solvent pipe is mounted outside the solvent feeding box, detection sensors are mounted at the lower end of the inside of each of the plurality of activity detection boxes, two groups of detection sensors are arranged, a flow guide channel is arranged between the two groups of detection sensors, a maca polypeptide shunt pipe is mounted in the middle of the inside of the sorting boxes, a discharge pipe is mounted on the outer side of the maca polypeptide shunt pipe, and a first electromagnetic valve is mounted between the maca polypeptide shunt pipe and the activity detection boxes, a plurality of install the second solenoid valve between activity detection case and the row's material pipe, two be provided with between the sorting case and receive the workbin, receive the inside top of workbin and install the lift case, the upper end of lift case is provided with the stock guide, the inside upper end of stock guide is provided with the subchannel, the inside of lift case is provided with the baffle, the suction pump is installed to one side of baffle, the filter is installed to the centre of baffle.

Preferably, the water conservancy diversion swash plate is all installed to the inside both sides of feeder hopper, two install the third solenoid valve between the water conservancy diversion swash plate, just the heater is installed to the lower terminal surface of water conservancy diversion swash plate, the surface mounting of feeder hopper has the temperature display screen, temperature display screen and heater electric connection.

Preferably, install feed sleeve between feeder hopper and the sorting case, the preceding terminal surface of sorting case is installed and is detected the display screen, detect display screen and detection sensor electric connection.

Preferably, the externally mounted of sorting case below has the access door, just install the support frame between the lower extreme of sorting case and the receipts workbin, the support frame respectively with sorting case and receipts workbin welded connection, the externally mounted of receipts workbin has the door plant that opens and shuts, the door plant that opens and shuts passes through buckle and fixed connection.

Preferably, flow distribution box and go-no-go case fixed connection, the inside upper end of flow distribution box is installed and is washd the water tank, the top of wasing the water tank is provided with the inlet tube, flow distribution box's surface is provided with shift knob, connecting tube is installed to flow distribution box's inside below, row's material pipe is installed to connecting tube's lower extreme, connecting tube and row install discharging pipe between the material pipe, discharging pipe's centre is installed the circulating pump, discharging pipe and connecting tube all are provided with a plurality of, a plurality of connecting tube's position is corresponding with the position of subchannel.

Preferably, electronic jar is installed to the lower extreme of lift case, the centre below of lift case is provided with portable collection box, portable collection box passes through guide rail and receipts workbin sliding connection, the lower extreme of lift case is provided with the fourth solenoid valve, the position of fourth solenoid valve is corresponding with the position of portable collection box, the one end of subchannel is provided with the unloading passageway, the unloading passageway extends to lift incasement portion and lift case sealing connection.

Preferably, a cleaning circulating pipe is installed inside the sorting box, a cleaning water flow dividing pipe is installed outside the cleaning circulating pipe, a plurality of pressurizing nozzles are installed on the inner surface of the activity detection box and are in sealed connection with the cleaning water flow dividing pipe, a booster pump is installed at the lower end of the cleaning water tank, and the booster pump is in sealed connection with the cleaning water tank and the cleaning circulating pipe respectively.

A sorting method of a rapid sorting device for maca polypeptide activity comprises the following steps:

the method comprises the following steps: guiding maca polypeptide to be subjected to activity detection into the feed hopper, starting a heater to heat the diversion inclined plate, and heating the maca polypeptide at the upper end of the diversion inclined plate;

step two: after the temperature is adjusted to be proper, the third electromagnetic valve is opened, the heated maca polypeptide is led into the maca polypeptide shunt pipe, and the maca polypeptide enters different activity detection boxes by adjusting the plurality of first electromagnetic valves;

step three: opening a solvent pipe, introducing different types of detection solvents into a solvent feeding box, adjusting the flow through a metering valve, mixing the different detection solvents with the maca polypeptide, then carrying out detection activity work by a detection sensor, and displaying detection data in a detection display screen;

step four: after detection, adjusting the second electromagnetic valve according to a detection result, so that the detected mixed liquid enters different discharge pipes, is discharged into different connecting pipes, and is guided into different sub-runners for respective diversion;

step five: after the water is guided to the interior of the lifting box, the lifting box is divided into a plurality of cavities by the partition plates in the lifting box, the water enters different cavities to be stored respectively, and after precipitation, the water filtered by the filter plate can be led out by a water suction pump;

step six: and after the detection is finished, the booster pump is started, the cleaning water in the cleaning water tank is introduced into the cleaning circulating pipe, and the booster nozzle is started to spray and wash the inner wall of the activity detection box.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the sorting box, when the maca polypeptide activating detection device is used, maca polypeptide to be subjected to activity detection is introduced into the feeding hopper, the heater is started to heat the flow guide sloping plate, the maca polypeptide at the upper end of the flow guide sloping plate is heated, after the temperature is adjusted to be proper, the third electromagnetic valve is opened, the heated maca polypeptide is introduced into the maca polypeptide shunt pipe, the maca polypeptide enters different activity detection boxes through adjusting the plurality of first electromagnetic valves, the solvent pipe is opened, different types of detection solvents are introduced into the solvent feeding box, the flow is adjusted through the metering valve, after different detection solvents and the maca polypeptide are mixed, the detection sensor performs activity detection work, detection data is displayed in the detection display screen, different detections can be performed simultaneously, different activity detection works can be rapidly performed under the same specific condition, the structure is simple, convenient to use has effectually improved detection efficiency, the long-term work of being convenient for, and can be different according to the measured data, deposit respectively, carry out follow-up work, the classification of being convenient for.

2. According to the invention, through the arrangement of the feed hopper, the oblique flow guide inclined plate can guide the maca polypeptide, so that the contact area between the maca polypeptide and the flow guide inclined plate is increased, the working efficiency of the heater at the lower end of the flow guide inclined plate is improved, and the working efficiency is favorably improved.

3. According to the invention, through the arrangement of the lifting box, the height of the electric cylinder is adjusted according to environmental requirements, so that the adaptability of the lifting box is improved, after the detection liquid is guided into the lifting box, the lifting box is divided into a plurality of cavities by the partition plates in the lifting box, and the detection liquid enters different cavities for storage respectively, after precipitation, the water filtered by the filter plate can be led out through the water suction pump, the classified detection liquid can be recycled according to requirements, and the consumption is reduced.

Drawings

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

FIG. 2 is an internal structural view of a sorting box of the present invention;

FIG. 3 is an internal structural view of a feed hopper of the present invention;

FIG. 4 is an internal structural view of an activity detection kit according to the present invention;

FIG. 5 is a cross-sectional view of a lift bin and a bin of the present invention.

In the figure: 1. a feed hopper; 2. a temperature display screen; 3. a feed sleeve; 4. sorting boxes; 5. detecting a display screen; 6. an access door; 7. a shunt box body; 8. a water inlet pipe; 9. a solvent feed tank; 10. a solvent tube; 11. a switch button; 12. connecting a conduit; 13. a discharge conduit; 14. a material guide plate; 15. a shunt channel; 16. a lifting box; 17. a material receiving box; 18. a door panel is opened and closed; 19. a support frame; 20. an activity detection box; 21. a maca polypeptide shunt tube; 22. a first solenoid valve; 23. cleaning the circulating pipe; 24. cleaning the water shunt pipe; 25. a second solenoid valve; 26. a discharge pipe; 27. a discharge conduit; 28. cleaning the water tank; 29. a booster pump; 30. a circulation pump; 31. a flow guiding sloping plate; 32. a heater; 33. a third electromagnetic valve; 34. a pressurized spray head; 35. a flow guide channel; 36. a detection sensor; 37. a water pump; 38. a partition plate; 39. a filter plate; 40. a fourth solenoid valve; 41. a portable recovery tank; 42. an electric cylinder; 43. a blanking channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a rapid active sorting device of maca polypeptides comprises sorting boxes 4, wherein two sorting boxes 4 are arranged, feed hoppers 1 are respectively arranged above the two sorting boxes 4, an activity detection box 20 is arranged inside the sorting box 4, a plurality of activity detection boxes 20 are arranged, a solvent feeding box 9 is respectively arranged on one side of the outside of each of the activity detection boxes 20, a metering valve is arranged inside the solvent feeding box 9, a solvent pipe 10 is arranged outside the solvent feeding box 9, detection sensors 36 are arranged at the lower ends of the inside of the activity detection boxes 20, two groups of detection sensors 36 are arranged, a flow guide channel 35 is arranged between the two groups of detection sensors 36, a maca polypeptide shunt pipe 21 is arranged in the middle of the inside of the sorting box 4, a discharge pipe 26 is arranged on the outer side of the maca polypeptide shunt pipe 21, and a first electromagnetic valve 22 is arranged between the maca polypeptide shunt pipe 21 and the activity detection boxes 20, a second electromagnetic valve 25 is arranged between the plurality of activity detection boxes 20 and the discharge pipe 26, a material receiving box 17 is arranged between the two sorting boxes 4, a lifting box 16 is arranged above the inside of the material receiving box 17, a material guide plate 14 is arranged at the upper end of the lifting box 16, a shunt passage 15 is arranged at the upper end of the inside of the material guide plate 14, a partition plate 38 is arranged inside the lifting box 16, a water suction pump 37 is arranged at one side of the partition plate 38, a filter plate 39 is arranged in the middle of the partition plate 38, after different detection solvents and maca polypeptide are mixed, the detection sensor 36 carries out detection activity work, the detection data is displayed in the detection display screen 5, different detections can be carried out simultaneously, different activity detections can be carried out rapidly under the same specific conditions, the structure is simple, the use is convenient, the detection efficiency is effectively improved, the long-term work is convenient, and the detection data can be stored respectively according to different detection data, and subsequent work is carried out, and classification is facilitated.

Further, water conservancy diversion swash plate 31 is all installed to the inside both sides of feeder hopper 1, install third solenoid valve 33 between two water conservancy diversion swash plates 31, and the lower terminal surface of water conservancy diversion swash plate 31 installs heater 32, the surface mounting of feeder hopper 1 has temperature display screen 2, temperature display screen 2 and heater 32 electric connection, oblique water conservancy diversion swash plate 31 can carry out the water conservancy diversion to the agate coffee polypeptide, make agate coffee polypeptide and water conservancy diversion swash plate 31 improve area of contact, make the work efficiency of heater 32 of water conservancy diversion swash plate 31 lower extreme promote, be favorable to improving work efficiency.

Further, install feeder hopper 3 between feeder hopper 1 and the sorting case 4, the preceding terminal surface of sorting case 4 is installed and is detected display screen 5, detects display screen 5 and detects 36 electric connection of sensor, conveniently dismantles feeder hopper 1 through feeder hopper 3 to later stage cleaning work.

Further, the externally mounted of sorting box 4 below has access door 6, and installs support frame 19 between sorting box 4's lower extreme and the receipts workbin 17, support frame 19 respectively with sorting box 4 and receipts workbin 17 welded connection, the externally mounted of receipts workbin 17 has the door plant 18 that opens and shuts, door plant 18 that opens and shuts passes through buckle and fixed connection, opens and shuts door plant 18 through the switch and can take out portable collection box 41, carries out follow-up operation.

Further, flow distribution box 7 and 4 fixed connection of branch inspection box, wash water tank 28 is installed to the inside upper end of flow distribution box 7, the top of washing water tank 28 is provided with inlet tube 8, the surface of flow distribution box 7 is provided with shift knob 11, connecting tube 12 is installed to the inside below of flow distribution box 7, row's material pipe 13 is installed to the lower extreme of connecting tube 12, connecting tube 12 and row install discharging tube 27 between the material pipe 26, circulating pump 30 is installed to discharging tube 27's centre, discharging tube 27 and connecting tube 12 all are provided with a plurality of, the position of a plurality of connecting tube 12 is corresponding with the position of subchannel 15, through the leading-in washing water of circulating pump 30 inside to washing circulating pipe 23, make the inner wall of activity detection case 20 can obtain the washing at any time.

Further, electronic jar 42 is installed to the lower extreme of lift case 16, the middle below of lift case 16 is provided with portable collection box 41, portable collection box 41 passes through guide rail and material receiving box 17 sliding connection, the lower extreme of lift case 16 is provided with fourth solenoid valve 40, the position of fourth solenoid valve 40 corresponds with the position of portable collection box 41, the one end of subchannel 15 is provided with unloading passageway 43, unloading passageway 43 extends to lift case 16 inside and lift case 16 sealing connection, adjust the height of electronic jar 42 according to the environmental requirement, make lift case 16 improve the adaptability, detect the inside back of liquid water conservancy diversion to lift case 16, lift case 16 is divided into a plurality of cavitys with baffle 38 of lift case 16 inside, get into different cavitys and deposit respectively.

Furthermore, a cleaning circulating pipe 23 is installed inside the sorting box 4, a cleaning water shunt pipe 24 is installed outside the cleaning circulating pipe 23, a pressurizing nozzle 34 is installed on the inner surface of each of the plurality of activity detection boxes 20, the pressurizing nozzle 34 is hermetically connected with the cleaning water shunt pipe 24, a pressurizing pump 29 is installed at the lower end of the cleaning water tank 28, the pressurizing pump 29 is hermetically connected with the cleaning water tank 28 and the cleaning circulating pipe 23, after the detection is completed, the pressurizing pump 29 is opened, the cleaning water in the cleaning water tank 28 is guided into the cleaning circulating pipe 23, and the pressurizing nozzle 34 is opened to spray the inner wall of the activity detection box 20.

the method comprises the following steps: guiding maca polypeptide to be subjected to activity detection into the feed hopper 1, and starting the heater 32 to heat the diversion inclined plate 31 to heat the maca polypeptide at the upper end of the diversion inclined plate 31;

step two: after the temperature is adjusted to be proper, the third electromagnetic valve 33 is opened, the heated maca polypeptides are led into the maca polypeptide shunt tube 21, and the maca polypeptides enter different activity detection boxes 20 by adjusting the plurality of first electromagnetic valves 22;

step three: the solvent pipe 10 is opened, different types of detection solvents are led in the solvent feeding box 9, the flow is adjusted through the metering valve, after the different detection solvents are mixed with the maca polypeptide, the detection sensor 36 performs detection activity work, detection data are displayed in the detection display screen 5, the detection efficiency is effectively improved, long-term work is facilitated, the detection solvents can be stored respectively according to different detection data, follow-up work is performed, and classification is facilitated;

step four: after detection, the second electromagnetic valve 25 is adjusted according to the detection result, so that the detected mixed liquid enters different discharging pipes 26, is discharged into different connecting pipes 12, and is guided into different sub-runners 15 for respective diversion;

step five: after the water is guided into the lifting box 16, the lifting box 16 is divided into a plurality of cavities by the partition plates 38 in the lifting box 16, the water enters different cavities to be stored respectively, after precipitation, the water filtered by the filter plate 39 can be led out by the water suction pump 37 and enters different cavities to be stored respectively, after precipitation, the water filtered by the filter plate 39 can be led out by the water suction pump 37, the classified detection liquid can be recycled according to requirements, and the consumption is reduced;

step six: after the detection is finished, the booster pump 29 is opened, the cleaning water in the cleaning water tank 28 is introduced into the cleaning circulating pipe 23, the booster nozzle 34 is opened to spray the inner wall of the activity detection box 20, and the cleaning water is introduced into the cleaning circulating pipe 23 through the circulating pump 30, so that the inner wall of the activity detection box 20 can be cleaned at any time.

The working principle is as follows: when the maca polypeptide detection device is used, maca polypeptides needing activity detection are led into the feed hopper 1, the heater 32 is started to heat the diversion inclined plate 31, the maca polypeptides at the upper end of the diversion inclined plate 31 are heated, after the maca polypeptides are adjusted to a proper temperature, the third electromagnetic valve 33 is opened, the heated maca polypeptides are led into the maca polypeptide shunt tube 21, the maca polypeptides enter different activity detection boxes 20 by adjusting the plurality of first electromagnetic valves 22, the solvent tube 10 is opened, different types of detection solvents are led into the solvent feeding box 9, the flow is adjusted through the metering valve, after the different detection solvents and the maca polypeptides are mixed, the detection sensor 36 carries out activity detection work, detection data are displayed in the detection display screen 5, the detection efficiency is effectively improved, long-term work is facilitated, and the maca polypeptides can be respectively stored according to different detection data for subsequent work, after detection, the second electromagnetic valve 25 is adjusted according to the detection result, the detected mixed liquid enters different discharging pipes 26 and is discharged into different connecting pipes 12, then the mixed liquid is guided into different branch channels 15 for respective diversion, and is guided into the lifting box 16, the lifting box 16 is divided into a plurality of cavities by a partition plate 38 in the lifting box 16 and is stored in different cavities respectively, after precipitation, the water filtered by a filter plate 39 can be guided out by a water suction pump 37 and enters different cavities for respective storage, after precipitation, the water filtered by the filter plate 39 can be guided out by the water suction pump 37, the classified detection liquid can be recycled according to requirements, consumption is reduced, after detection is completed, a booster pump 29 is opened, the cleaning water in the cleaning water tank 28 is guided into a cleaning circulating pipe 23, and a booster nozzle 34 is opened to spray-clean the inner wall of the activity detection tank 20, the circulation pump 30 introduces the cleaning water into the cleaning circulation pipe 23, so that the inner wall of the activity detection chamber 20 can be cleaned at any time.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an active quick go-no-go device of agate coffee polypeptide, includes go-no-go case (4), its characterized in that: the sorting box (4) is provided with two, two feeder hoppers (1) are installed above the sorting box (4), the internal mounting of the sorting box (4) is provided with an activity detection box (20), the activity detection box (20) is provided with a plurality of solvent feeding boxes (9), one side of the outside of the activity detection box (20) is provided with a solvent feeding box (9), the internal mounting of the solvent feeding box (9) is provided with a metering valve, the outside of the solvent feeding box (9) is provided with a solvent pipe (10), the inner lower end of the activity detection box (20) is provided with a plurality of detection sensors (36), the detection sensors (36) are provided with two groups, a diversion channel (35) is arranged between the two groups of detection sensors (36), a maca polypeptide shunt pipe (21) is installed in the middle of the inside of the sorting box (4), and a discharge pipe (26) is installed outside the maca polypeptide shunt pipe (21), install first solenoid valve (22), a plurality of between maca polypeptide shunt tubes (21) and activity detection case (20) second solenoid valve (25) are installed to activity detection case (20) and row between material pipe (26), two be provided with between go-no-go box (4) and receive workbin (17), it installs lifting box (16) to receive the inside top of workbin (17), the upper end of lifting box (16) is provided with baffle (14), the inside upper end of baffle (14) is provided with subchannel (15), the inside of lifting box (16) is provided with baffle (38), suction pump (37) are installed to one side of baffle (38), filter (39) are installed to the centre of baffle (38).

2. The device for rapidly screening the activity of maca polypeptides according to claim 1, wherein: flow guide swash plate (31) are all installed to the inside both sides of feeder hopper (1), two install third solenoid valve (33) between flow guide swash plate (31), just heater (32) are installed to the lower terminal surface of flow guide swash plate (31), the surface mounting of feeder hopper (1) has temperature display screen (2), temperature display screen (2) and heater (32) electric connection.

3. The device for rapidly screening the activity of maca polypeptides according to claim 1, wherein: install feed sleeve (3) between feeder hopper (1) and sorting case (4), preceding terminal surface of sorting case (4) is installed and is detected display screen (5), detect display screen (5) and detect sensor (36) electric connection.

4. The device for rapidly screening the activity of maca polypeptides according to claim 1, wherein: the externally mounted of sorting case (4) below has access door (6), just install support frame (19) between the lower extreme of sorting case (4) and receipts workbin (17), support frame (19) respectively with sorting case (4) and receipts workbin (17) welded connection, the externally mounted of receiving workbin (17) has door plant (18) that opens and shuts, door plant (18) that opens and shuts pass through buckle and fixed connection.

5. The device for rapidly screening the activity of maca polypeptides according to claim 1, wherein: flow distribution box body (7) and go-no-go box (4) fixed connection, the inside upper end of flow distribution box body (7) is installed and is washd water tank (28), the top of wasing water tank (28) is provided with inlet tube (8), the surface of flow distribution box body (7) is provided with shift knob (11), connecting tube (12) are installed to the inside below of flow distribution box body (7), row's material pipe (13) are installed to the lower extreme of connecting tube (12), install discharging tube (27) between connecting tube (12) and row's material pipe (26), circulating pump (30) are installed to the centre of discharging tube (27), discharging tube (27) and connecting tube (12) all are provided with a plurality of, a plurality of the position of connecting tube (12) is corresponding with the position of subchannel (15).

6. The device for rapidly screening the activity of maca polypeptides according to claim 1, wherein: electronic jar (42) are installed to the lower extreme of lift case (16), the middle below of lift case (16) is provided with portable collection box (41), portable collection box (41) are through guide rail and receipts workbin (17) sliding connection, the lower extreme of lift case (16) is provided with fourth solenoid valve (40), the position of fourth solenoid valve (40) is corresponding with the position of portable collection box (41), the one end of subchannel (15) is provided with unloading passageway (43), unloading passageway (43) extend to lift case (16) inside and lift case (16) sealing connection.

7. The device for rapidly screening the activity of maca polypeptides according to claim 5, wherein: the inside of go-no-go box (4) is installed and is washd circulating pipe (23), the outside of wasing circulating pipe (23) is installed and is washd water shunt tubes (24), and a plurality of pressure boost shower nozzle (34) are all installed to the internal surface of activity detection case (20), pressure boost shower nozzle (34) and washing water shunt tubes (24) sealing connection, booster pump (29) are installed to the lower extreme of wasing water tank (28), booster pump (29) respectively with wash water tank (28) and wash circulating pipe (23) sealing connection.

8. A sorting method of a rapid maca polypeptide activity sorting device is realized on the basis of any one of the rapid maca polypeptide activity sorting devices of claims 1-7, and is characterized by comprising the following steps:

the method comprises the following steps: guiding maca polypeptides to be subjected to activity detection into the feed hopper (1), and starting a heater (32) to heat the diversion inclined plate (31) to heat the maca polypeptides at the upper end of the diversion inclined plate (31);

step two: after the temperature is adjusted to be proper, the third electromagnetic valve (33) is opened, the heated maca polypeptide is led into the maca polypeptide shunt tube (21), and the maca polypeptide enters different activity detection boxes (20) by adjusting the first electromagnetic valves (22);

step three: opening a solvent pipe (10), introducing different types of detection solvents into a solvent feeding box (9), adjusting the flow through a metering valve, mixing the different detection solvents with maca polypeptide, then carrying out detection activity work by a detection sensor (36), and displaying detection data in a detection display screen (5);

step four: after detection, adjusting a second electromagnetic valve (25) according to a detection result, so that the detected mixed liquid enters different discharging pipes (26), is discharged into different connecting guide pipes (12), and is guided into different sub-runners (15) for respective diversion;

step five: after the water is guided into the lifting box (16), the lifting box (16) is divided into a plurality of cavities by a partition plate (38) in the lifting box (16), the water enters different cavities for storage respectively, and after precipitation, the water filtered by a filter plate (39) can be led out through a water suction pump (37);

step six: after the detection is finished, the booster pump (29) is turned on, the cleaning water in the cleaning water tank (28) is guided into the cleaning circulating pipe (23), and the booster nozzle (34) is turned on to spray the inner wall of the activity detection box (20).