CN222112536U - A raw material cleaning device for preparing hemp liver-protecting peptide - Google Patents

Abstract

A raw material cleaning device for preparing hemp liver-protecting peptides belongs to the technical field of raw material cleaning equipment. It is used to solve the problem that the existing cleaning device does not clean the raw materials thoroughly and cannot classify and screen the cleaned raw materials according to size. The screening mechanism is installed on the cleaning mechanism, the lower end of the screening mechanism is connected to the upper end of the cleaning mechanism, the discharge plate of the cleaning mechanism is arranged corresponding to the input end of the drain mechanism, the output end of the drain mechanism is arranged corresponding to the feed port three of the drying mechanism, and the discharge port three of the drying mechanism is connected to the storage mechanism. The utility model can remove large particle impurities in advance before the raw materials are cleaned, and clean while stirring, drain excess water before the raw materials enter the drying mechanism, dry the raw materials by air drying and heating, effectively improve the subsequent cleaning effect, ensure the cleaning quality, and can also sort the dried raw materials according to the particle size, and store them separately in different storage chambers, so as to facilitate the selection of raw materials of different particle sizes in subsequent operations.

Description

Hemp protects liver peptide preparation raw materials cleaning device

Technical Field

The utility model belongs to the technical field of raw material cleaning equipment, and particularly relates to a raw material cleaning device for preparing China hemp liver-protecting peptide.

Background

With the continuous development of modern biotechnology and medicine fields, the research on bioactive peptides with specific efficacy is increasingly intensive. The China hemp liver protection peptide is taken as a bioactive peptide with remarkable liver protection function, and the improvement of the preparation process and the raw material treatment technology of the bioactive peptide becomes a hot spot of current research. In the preparation process of the China hemp liver protection peptide, the cleaning of raw materials is an important link. The cleanliness of the raw materials directly influences the purity and activity of the final product, and further determines the curative effect and market competitiveness of the product. The traditional raw material cleaning method often has the problems of incomplete cleaning, low efficiency, complex operation and the like, and cannot meet the requirements of modern production. At present, some cleaning devices for preparing raw materials for bioactive peptides exist on the market, but the devices still have a plurality of defects in structural design and functional implementation. For example, some devices cannot effectively remove impurities and microorganisms in raw materials, and other devices have a certain cleaning effect, but are complex to operate and high in energy consumption, so that the device is not beneficial to mass production and application. Moreover, the existing device cannot sort and screen cleaned raw materials according to particle sizes, so that a novel hemp liver-protecting peptide preparation raw material cleaning device is developed, the efficiency and effect of raw material cleaning are improved, the practicability is improved, and the problem to be solved at present is urgent.

Disclosure of utility model

The utility model aims to provide a raw material cleaning device for preparing China hemp liver-protecting peptide, which is used for solving the problems that the existing cleaning device is not thorough in raw material cleaning and cannot sort and screen the cleaned raw materials according to the size.

The technical scheme includes that the raw material cleaning device for preparing the China hemp liver-protecting peptide comprises a screening mechanism, a cleaning mechanism, a draining mechanism, a drying mechanism and a storage mechanism, wherein the screening mechanism is arranged on the cleaning mechanism, the lower end of the screening mechanism is communicated with the upper end of the cleaning mechanism, a discharging plate of the cleaning mechanism is correspondingly arranged with the input end of the draining mechanism, the output end of the draining mechanism is correspondingly arranged with a third feeding port of the drying mechanism, and the third discharging port of the drying mechanism is communicated with the storage mechanism.

Further, the screening mechanism comprises a screening shell, a first screen and a second screen, a first feed inlet is formed in the upper end face of the screening shell, the first screen and the second screen are horizontally arranged in the screening shell in sequence, the mesh number of the first screen is smaller than that of the second screen, a vibrator is arranged in the middle of the lower end face of the second screen, the first screen is fixedly connected with the second screen through a connecting shaft, vibration is transmitted through the connecting shaft, a first discharge outlet is formed in the lower end face of the screening shell, and a cleaning door is formed in the side wall of the screening shell.

Further, the inside two bin about dividing into of washing casing of wiper mechanism through baffle one, the upper strata is washs the storehouse, and the lower floor is for handling the storehouse, it has water inlet and feed inlet two to open to wash the storehouse up end, the external water injection equipment of water inlet is provided with the rotation motor in the middle part of the washing storehouse up end, and the output and the pivot one end fixed connection of rotation motor, the pivot other end pass wash storehouse and baffle one up end rotate to be connected, pivot other end lateral wall equipartition is equipped with a plurality of stirring leaves, and a plurality of stirring leaf lower extreme and baffle one up end slip laminating setting, it has blanking mouth and outlet to open respectively on the baffle one, outlet and drainage pipe intercommunication, drainage pipe pass to handle storehouse lower extreme and waste water tank intercommunication, it has discharge gate two to handle the storehouse lateral wall opening, is provided with the blanking board that is used for the drainage between blanking mouth and the discharge gate two lower extreme downward sloping of the storehouse lateral wall discharge gate is provided with the discharge plate.

Further, the draining mechanism comprises a draining conveying belt, a draining groove and a draining box, wherein the draining groove is arranged at the lower end of the draining conveying belt and connected with a frame body of the draining conveying belt, the draining box is arranged on the ground at the lower end of the draining groove, and the draining groove is communicated with the draining box through a draining pipe.

Further, the drying mechanism comprises a drying shell, a second partition plate, a fan, a telescopic motor, a connecting rod, a ventilating plate, a heating plate and a scraping plate, wherein the drying shell is divided into an upper bin and a lower bin through the partition plate, the upper layer is a drying bin, the lower layer is a heating bin, the fan is arranged on the upper end face of the drying bin, the ventilating plate is arranged on the inner top face of the drying bin and communicated with the fan through an air duct, an exhaust hole and a third feed inlet are formed in the side wall of one end of the drying bin, the telescopic motor is arranged on the side wall of the other end of the drying bin, the telescopic end of the telescopic motor is fixedly connected with one end of the connecting rod, the other end of the connecting rod penetrates through the drying bin and is fixedly connected with the scraping plate, the lower end of the scraping plate is in sliding fit with the upper end face of the partition plate, a discharge hole is formed in the second partition plate, the heating plate is arranged in the heating bin, a third discharge hole is formed in the side wall of the heating bin, and the third discharge hole is communicated with the discharge hole.

Further, the storage mechanism comprises a storage shell and a separation plate, wherein the upper end face of the storage shell is provided with a blanking port which is communicated with the discharging port in three, the separation plate is arranged in the storage shell and is obliquely arranged from the blanking port to the inner bottom surface of the storage shell, three separation ports are respectively formed in the separation plate, the three separation ports are sequentially provided with a first separation port, a second separation port and a third separation port from the blanking port, the opening widths of the first separation port, the second separation port and the third separation port are sequentially increased, and a first storage chamber, a second storage chamber and a third storage chamber are respectively arranged in the storage shell corresponding to the first separation port, the second separation port and the third separation port.

Further, the first feed inlet, the first discharge outlet, the second feed inlet, the blanking inlet, the second discharge outlet, the water outlet, the third feed inlet, the third discharge outlet, the blanking inlet and the water inlet are all provided with electric bin gates.

Compared with the prior art, the utility model has the beneficial effects that:

1. The screening mechanism can carry out secondary screening operation on the raw materials, remove large-particle impurities in advance before cleaning the raw materials, effectively improve the subsequent cleaning effect and ensure the cleaning quality.

2. The cleaning mechanism can clean raw materials while stirring, and can fully clean the raw materials to ensure the cleaning quality.

3. The draining mechanism can drain excessive water before raw materials enter the drying mechanism, so that the drying time is prevented from being increased, the working efficiency is improved, workers can manually screen and remove impurities at one time beside the draining mechanism, the mixing of small-particle impurities is prevented, and the cleaning quality is further ensured.

4. According to the drying mechanism disclosed by the utility model, the raw materials can be dried through air drying and heating, and the raw materials can be turned over through the telescopic motor driving the scraping plate while being dried, so that the uneven drying is avoided, and the cleaning quality is further ensured.

5. The storage mechanism can sort the dried raw materials according to the particle size through the sorting plate, and respectively store the raw materials in different storage chambers, so that the raw materials with different particle sizes can be conveniently selected in the subsequent operation.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a cross-sectional view of the screening mechanism;

FIG. 3 is a cross-sectional view of the cleaning mechanism;

FIG. 4 is a cross-sectional view of the drying mechanism;

fig. 5 is a cross-sectional view of the storage mechanism.

The component names and reference numerals referred to in the above figures are as follows:

1. Screening mechanism, 2, cleaning mechanism, 3, draining mechanism, 4, drying mechanism, 5, storage mechanism, 6, cleaning door, 7, first feed inlet, 8, first screen, 9, second screen, 10, connecting shaft, 11, vibrator, 12, first discharge outlet, 13, second feed inlet, 14, rotating motor, 15, first baffle, 16, cleaning bin, 17, disposal bin, 18, rotating shaft, 19, stirring blade, 20, blanking inlet, 21, second discharge outlet, 22, discharge plate, 23, blanking plate, 24, water outlet, 25, water discharge pipeline, 26, waste water tank, 27, water discharge tank, 28, water discharge pipe, 29, water discharge tank, 30, fan, 31, drying bin, 32, heating bin, 33, third feed inlet, 34, telescopic motor, 35, connecting rod, 36, scraper, 37, exhaust hole, 38, third discharge outlet;

39. The device comprises a discharge hole, a ventilation plate, a 41, a heating plate, a 42, a blanking hole, a 43, a sorting plate, a 44, a first sorting hole, a 45, a second sorting hole, a 46, a third sorting hole, a 47, a first storage chamber, a 48, a second storage chamber, a 49, a third storage chamber, a 50, a water inlet, a 51, a second partition plate, a 52 and a draining conveyor belt.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are all within the protection scope of the present utility model.

The first embodiment discloses a raw material cleaning device for preparing the hemp liver-protecting peptide, which comprises a screening mechanism 1, a cleaning mechanism 2, a draining mechanism 3, a drying mechanism 4 and a storage mechanism 5, wherein the screening mechanism 1 is arranged on the cleaning mechanism 2, the lower end of the screening mechanism 1 is communicated with the upper end of the cleaning mechanism 2, a discharging plate 22 of the cleaning mechanism 2 is correspondingly arranged with the input end of the draining mechanism 3, the output end of the draining mechanism 3 is correspondingly arranged with a third feed inlet 33 of the drying mechanism 4, and a third discharge outlet 38 of the drying mechanism 4 is communicated with the storage mechanism 5.

Further, as shown in fig. 2, the screening mechanism 1 comprises a screening shell, a first screen 8 and a second screen 9, wherein a first feed inlet 7 is formed in the upper end face of the screening shell, the first screen 8 and the second screen 9 are horizontally arranged in the screening shell in sequence, the mesh number of the first screen 8 is smaller than that of the second screen 9, a vibrator 11 is arranged in the middle of the lower end face of the second screen 9, the first screen 8 and the second screen 9 are fixedly connected through a connecting shaft 10, vibration is transmitted through the connecting shaft 10, a first discharge outlet 12 is formed in the lower end face of the screening shell, and a cleaning door 6 is formed in the side wall of the screening shell.

Further, as shown in fig. 3, the inside of the cleaning housing of the cleaning mechanism 2 is divided into an upper bin and a lower bin by a first partition plate 15, the upper layer is a cleaning bin 16, the lower layer is a disposal bin 17, a water inlet 50 and a second feed inlet 13 are formed in the upper end surface of the cleaning bin 16, the water inlet 50 is externally connected with water injection equipment, a rotating motor 14 is arranged in the middle of the upper end surface of the cleaning bin 16, the output end of the rotating motor 14 is fixedly connected with one end of a rotating shaft 18, the other end of the rotating shaft 18 penetrates through the cleaning bin 16 and is rotationally connected with the upper end surface of the first partition plate 15, a plurality of stirring blades 19 are uniformly distributed on the outer side wall of the rotating shaft 18, the lower ends of the stirring blades 19 are in sliding fit with the upper end surface of the first partition plate 15, a blanking port 20 and a water outlet 24 are formed in the first partition plate 15, the water outlet 24 is communicated with a water outlet 25, the water outlet 25 penetrates through the lower end surface of the disposal bin 17 and is communicated with a wastewater tank 26, a second discharge port 21 is formed in the side wall of the disposal bin 17, a blanking plate 23 for drainage is arranged between the blanking port 20 and the second discharge port 21, and the lower end of the discharge port 21 of the outer side wall of the disposal bin 17 is obliquely arranged.

Further, the draining mechanism 3 comprises a draining conveyer belt 52 (which is the prior art), a draining groove 27 and a draining box 29, wherein the draining groove 27 is arranged at the lower end of the draining conveyer belt 52 and is connected with a frame body of the draining conveyer belt 52, the draining box 29 is arranged on the ground at the lower end of the draining groove 27, and the draining groove 27 is communicated with the draining box 29 through a draining pipe 28.

Further, as shown in fig. 4, the drying mechanism 4 comprises a drying shell, a second partition plate 51, a fan 30, a telescopic motor 34, a connecting rod 35, a ventilating plate 40, a heating plate 41 and a scraping plate 36, wherein the drying shell is internally divided into an upper bin and a lower bin through the second partition plate 51, the upper layer is the drying bin 31, the lower layer is the heating bin 32, the fan 30 is arranged on the upper end face of the drying bin 31, the ventilating plate 40 is arranged on the inner top face of the drying bin 31 and is communicated with the fan 30 through an air duct, an air exhaust hole 37 and a third feed inlet 33 are formed in the side wall of one end of the drying bin 31, the telescopic motor 34 is arranged on the side wall of the other end of the drying bin 31, the telescopic end of the telescopic motor 34 is fixedly connected with one end of the connecting rod 35, the other end of the connecting rod 35 penetrates through the drying bin 31 and is fixedly connected with the scraping plate 36, the lower end of the scraping plate 36 is in sliding fit with the upper end face of the second partition plate 51, a discharge hole 39 is formed in the second partition plate 51, a heating plate 41 is arranged in the heating bin 32, a third discharge hole 38 is formed in the side wall of the heating bin 32, and the discharge hole 39 is communicated with the discharge hole 39.

Further, as shown in fig. 5, the storage mechanism 5 includes a storage housing and a sorting plate 43, the upper end surface of the storage housing is provided with a feed opening 42, the feed opening 42 is communicated with the third discharge opening 38, the storage housing is internally provided with the sorting plate 43, the sorting plate 43 is obliquely arranged from the feed opening 42 to the direction of the inner bottom surface of the storage housing, the sorting plate 43 is respectively provided with three sorting openings, the three sorting openings are sequentially provided with a first sorting opening 44, a second sorting opening 45 and a third sorting opening 46 from the feed opening 42, the opening widths of the first sorting opening 44, the second sorting opening 45 and the third sorting opening 46 are sequentially increased, and the storage housing is internally provided with a first storage chamber 47, a second storage chamber 48 and a third storage chamber 49 corresponding to the first sorting opening 44, the second sorting opening 45 and the third sorting opening 46.

Further, the first feeding port 7, the first discharging port 12, the second feeding port 13, the blanking port 20, the second discharging port 21, the water outlet 24, the third feeding port 33, the third discharging port 38, the discharge port 39, the blanking port 42 and the water inlet 50 are all provided with electric bin gates.

During operation, raw materials to be cleaned enter the screening mechanism 1 from the first 7 feed inlet of the screening mechanism 1, at this time, the vibrator 11 is started, raw materials sequentially pass through the first 12 feed outlet of the first 8 and the second 9 screen screens and then enter the cleaning mechanism 2 for cleaning, as the mesh number of the first screen 8 is smaller than that of the second screen 9, when the raw materials sequentially pass through the first screen 8 and the second screen 9, the first screen 8 can screen leaves, stems and the like in the raw materials, the second screen 9 can screen large-particle impurities in the raw materials, and when in a non-working state, the cleaning door 6 of the screening mechanism 1 can be opened to clean the screened objects on the two screens, so that the next use is facilitated.

Raw materials screened by the screening mechanism 1 enter the cleaning mechanism 2 from the feed inlet II 13 of the cleaning mechanism 2, at the moment, the rotating motor is started to drive the stirring blades 19 to rotate, meanwhile, external water injection equipment injects water into the cleaning mechanism 2 through the water inlet 50, raw materials are soaked and stirred in the cleaning mechanism 2 to be cleaned, after the operation is completed, waste water enters the waste water tank 26 through the water drain pipeline 25 through the water drain port 24, raw materials fall through the blanking port 20 and are discharged through the obliquely arranged blanking plate 23 through the discharge port II 21, and fall into the input end of the draining conveyor belt 52 of the draining mechanism 3 through the discharging plate 22, enter the drying mechanism 4 through the draining and conveying of the draining conveyor belt 52 through the feed inlet III 33 of the drying mechanism 4, dry the drained water is collected into the water drain tank 27 and enters the water drain tank 29 through the water drain pipe 29, and when the draining and conveying is carried out, workers can carry out manual impurity screening work for one time beside the draining mechanism to prevent small particle impurities from being mixed, and further guarantee cleaning quality.

Raw materials that drips through the waterlogging caused by excessive rainfall mechanism 3 get into in the drying mechanism 4 from the feed inlet three 33 of drying mechanism 4, and fan 30, hot plate 41 and flexible motor 34 start this moment, carry out ventilation drying to the raw materials that get into dry storehouse 31 through ventilating board 40 and handle, carry out the heat drying through hot plate 41 simultaneously and handle, effectively improve drying efficiency. The generated vapor can be discharged through the exhaust hole 37, and in the drying process, the telescopic motor 34 drives the scraping plate 36 to turn over the raw materials, so that uneven drying is avoided. The dried raw material is discharged through the discharge port 39 and enters the storage mechanism 5 through the discharge port III 38 and the discharge port 42 of the storage mechanism 5.

Raw materials dried through the drying mechanism 4 enter the storage mechanism 5 from the blanking port 42 of the storage mechanism 5, the raw materials pass through the sorting plate 43 which is obliquely arranged, and fall into corresponding storage chambers according to particle sizes according to sorting ports with different widths on the sorting plate 43, so that the raw materials with different particle sizes can be conveniently taken out for next operation.

The raw material cleaning is completed, and the operation steps are repeated for the cleaning of the raw material of the next batch.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The hemp liver-protecting peptide preparation raw material cleaning device is characterized by comprising a screening mechanism (1), a cleaning mechanism (2), a draining mechanism (3), a drying mechanism (4) and a storage mechanism (5), wherein the screening mechanism (1) is arranged on the cleaning mechanism (2), the lower end of the screening mechanism (1) is communicated with the upper end of the cleaning mechanism (2), a discharging plate (22) of the cleaning mechanism (2) is correspondingly arranged with the input end of the draining mechanism (3), the output end of the draining mechanism (3) is correspondingly arranged with a feeding port III (33) of the drying mechanism (4), and a discharging port III (38) of the drying mechanism (4) is communicated with the storage mechanism (5).

2. The hemp liver-protecting peptide preparation raw material cleaning device according to claim 1, wherein the screening mechanism (1) comprises a screening shell, a first screen (8) and a second screen (9), a first feeding port (7) is formed in the upper end face of the screening shell, the first screen (8) and the second screen (9) are sequentially and horizontally arranged in the screening shell, the mesh number of the first screen (8) is smaller than that of the second screen (9), a vibrator (11) is arranged in the middle of the lower end face of the second screen (9), the first screen (8) and the second screen (9) are fixedly connected through a connecting shaft (10), vibration is transmitted through the connecting shaft (10), a first discharging port (12) is formed in the lower end face of the screening shell, and a cleaning door (6) is formed in the side wall of the screening shell.

3. The device for cleaning the raw materials for preparing the hemp liver-protecting peptide according to claim 2, wherein the cleaning shell of the cleaning mechanism (2) is internally divided into an upper bin and a lower bin by a first baffle plate (15), the upper layer is a cleaning bin (16), the lower layer is a disposal bin (17), a water inlet (50) and a second feed port (13) are formed in the upper end face of the cleaning bin (16), the water inlet (50) is externally connected with water injection equipment, a rotary motor (14) is arranged in the middle of the upper end face of the cleaning bin (16), the output end of the rotary motor (14) is fixedly connected with one end of a rotary shaft (18), the other end of the rotary shaft (18) penetrates through the cleaning bin (16) and is in rotary connection with the upper end face of a first baffle plate (15), a plurality of stirring blades (19) are uniformly distributed on the outer side wall of the other end of the rotary shaft (18), the lower end of the stirring blades (19) is in sliding fit with the upper end face of the first baffle plate (15), a water inlet (20) and a water outlet (24) are respectively formed in the upper end face of the first baffle plate (15), the water outlet (24) is communicated with a disposal path (25), the water outlet (25) is communicated with one end of the rotary motor (14), the other end of the rotary motor (16) penetrates through the upper end of the cleaning bin (16) and is communicated with the upper end of the water outlet (21) by a second baffle plate (21), the lower end of a second discharging hole (21) on the outer side wall of the disposal bin (17) is provided with a discharging plate (22) in a downward inclined mode.

4. The device for cleaning raw materials for preparing the China hemp liver-protecting peptide according to claim 3, wherein the draining mechanism (3) comprises a draining conveyor belt (52), a draining groove (27) and a draining box (29), the draining groove (27) is arranged at the lower end of the draining conveyor belt (52) and is connected with a frame body of the draining conveyor belt (52), the draining box (29) is arranged on the ground at the lower end of the draining groove (27), and the draining groove (27) is communicated with the draining box (29) through a draining pipe (28).

5. The hemp liver-protecting peptide preparation raw material cleaning device according to claim 4, wherein the drying mechanism (4) comprises a drying shell, a second partition plate (51), a fan (30), a telescopic motor (34), a connecting rod (35), a ventilating plate (40), a heating plate (41) and a scraping plate (36), the interior of the drying shell is divided into an upper bin and a lower bin through the second partition plate (51), the upper layer is a drying bin (31), the lower layer is a heating bin (32), the fan (30) is arranged on the upper end face of the drying bin (31), the ventilating plate (40) is communicated with the fan (30) through an air duct, the side wall at one end of the drying bin (31) is provided with an exhaust hole (37) and a third feed inlet (33), the side wall at the other end of the drying bin (31) is provided with the telescopic motor (34), the telescopic end of the telescopic motor (34) is fixedly connected with one end of the connecting rod (35), the other end of the connecting rod (35) penetrates through the drying bin (31) to be fixedly connected with the scraping plate (36), the lower end of the scraping plate (36) is provided with the ventilating plate (40) and is provided with an exhaust hole (37) and the upper end face (51) is provided with a second partition plate (41), the side wall of the heating bin (32) is provided with a third discharge hole (38), and the third discharge hole (38) is communicated with a discharge hole (39).

6. The device for cleaning raw materials for preparing the hemp liver-protecting peptide according to claim 5, wherein the storage mechanism (5) comprises a storage shell and a separation plate (43), a blanking port (42) is formed in the upper end face of the storage shell, the blanking port (42) is communicated with the discharging port III (38), the separation plate (43) is arranged in the storage shell, the separation plate (43) is obliquely arranged from the blanking port (42) to the inner bottom face of the storage shell, three separation ports are formed in the separation plate (43) respectively, a first separation port (44), a second separation port (45) and a third separation port (46) are sequentially formed in the three separation ports from the blanking port (42), and the opening widths of the first separation port (44), the second separation port (45) and the third separation port (46) are sequentially increased, and a first storage chamber (47), a second storage chamber (49) and a third storage chamber (49) are respectively arranged in the storage shell corresponding to the first separation port (44), the second separation port (45) and the third separation port (46).

7. The device for cleaning raw materials for preparing the China-hemp liver-protecting peptide according to claim 6, wherein the first feeding port (7), the first discharging port (12), the second feeding port (13), the blanking port (20), the second discharging port (21), the water outlet (24), the third feeding port (33), the third discharging port (38), the discharging port (39), the blanking port (42) and the water inlet (50) are respectively provided with an electric bin gate.