CN222564930U - Wolfberry powder production system - Google Patents

Abstract

The medlar powder production system comprises a medlar dry fruit low-temperature unpacking chamber, a medlar dry fruit storage bin, a vacuumizing pump, an inert gas storage tank, a powder beating mechanism, a medlar powder storage tank and a medlar powder packing mechanism, wherein the medlar dry fruit low-temperature unpacking chamber is provided with a discharge conveying belt, the discharge conveying belt is connected with a feeding hole of the medlar dry fruit storage bin, an air outlet of the medlar dry fruit storage bin is connected with the vacuumizing pump through a pipeline so as to discharge air in the medlar dry fruit storage bin, an air inlet of the medlar dry fruit storage bin is connected with an air inlet of the inert gas storage tank through a pipeline so as to be filled with low-temperature nitrogen, a discharging hole of the medlar dry fruit storage bin is connected with the feeding hole of the powder beating mechanism so as to beat medlar powder, the discharging hole of the powder beating mechanism is communicated with the medlar powder storage tank so as to collect medlar powder in time, the bottom of the medlar powder storage tank is provided with a plurality of discharging holes, the discharging hole of the medlar powder storage tank is opposite to the medlar powder packing mechanism, and the medlar powder packing mechanism is provided with the packing tank.

Description

Wolfberry powder production system

Technical Field

The utility model relates to the technical field of wolfberry processing, in particular to a wolfberry powder production system.

Background

The medlar powder is prepared by pulverizing dried medlar fruits by a pulverizing machine, and nutrient substances in cells can be thoroughly released after the medlar is pulverized, so that a better health-care effect can be generated on a human body. There are two existing production processes of wolfberry powder. One is to clean fresh wolfberry fruits, convey the cleaned fresh wolfberry fruits into a drying chamber to form dried wolfberry fruits, and then crush and package the dried wolfberry fruits. And the other is to pour the purchased and stored dried medlar fruits from the storage bag into a powdering machine, and pack after powdering. The medlar is exposed in the air in the two processing processes, and heat is generated in the powdering process. Some antioxidant substances in the wolfberry, such as wolfberry polysaccharide, are easily oxidized when exposed to air and at a high temperature, so that the antioxidant effect of the wolfberry on a human body is poor. Meanwhile, when the medlar powder is ground under the condition of higher temperature, sugar substances in the medlar are easy to be sticky, and the grinding effect of the medlar is affected.

Disclosure of Invention

In view of the above, it is necessary to provide a production system for fructus Lycii powder, wherein fructus Lycii is not easy to contact with air during production, and saccharide is not easy to adhere.

The utility model provides a matrimony vine powder production system includes that matrimony vine dry fruit low temperature unpacking room, matrimony vine dry fruit storage storehouse, evacuation pump, inert gas storage jar, powder beating mechanism, matrimony vine powder storage jar, matrimony vine powder packing mechanism, matrimony vine dry fruit low temperature unpacking room is equipped with the ejection of compact conveyer belt, the ejection of compact conveyer belt is connected with the feed inlet of matrimony vine dry fruit storage storehouse, the gas outlet and the evacuation pump of matrimony vine dry fruit storage storehouse pass through the pipe connection, in order to discharge the air in the matrimony vine dry fruit storage storehouse, the air inlet and the inert gas storage jar pass through the pipe connection, in order to let in low temperature nitrogen gas, the discharge gate and the feed inlet of beating powder mechanism of matrimony vine dry fruit storage storehouse are connected, in order to beat the matrimony vine dry fruit into matrimony vine powder, the discharge gate and matrimony vine powder storage jar intercommunication of beating mechanism, in time collect matrimony vine powder storage jar's bottom is equipped with a plurality of discharge gates, matrimony vine powder storage jar's discharge gate and matrimony vine powder packing mechanism are just to, matrimony vine powder packing mechanism has placed packing can in order to hold matrimony vine powder.

Preferably, the low-temperature unpacking room for the dried wolfberry fruits comprises a dried wolfberry fruit screening workbench, a wolfberry fruit trough and a lifter, wherein the dried wolfberry fruit screening workbench is positioned in the low-temperature unpacking room for unpacking and sorting the dried wolfberry fruits, the wolfberry fruit trough is positioned at the tail end of the dried wolfberry fruit screening workbench and is used for receiving the screened dried wolfberry fruits, a feeding hole of the lifter is connected with the bottom of the wolfberry fruit trough, and a discharging hole of the lifter is connected with a discharging conveying belt so as to transfer the dried wolfberry fruits onto the discharging conveying belt.

Preferably, the lower extreme in matrimony vine dry fruit storage storehouse is the toper, and the bottom in matrimony vine dry fruit storage storehouse is equipped with screw conveyer, and screw conveyer's discharge gate is connected with the feed inlet of powdering mechanism, and the top in matrimony vine dry fruit storage storehouse is equipped with the feed inlet, and during powdering, the feed inlet is in sealing state.

Preferably, the powder beating mechanism comprises a powder beating tank, a cutter head and a driving motor, wherein the cutter head is arranged at the bottom of the powder beating tank, a rotating shaft of the cutter head is fixedly connected with the rotating shaft of the driving motor, the cutter head is driven to rotate by the driving motor, a feeding hole is formed in the side wall of the powder beating tank, and the feeding hole of the powder beating tank is connected with a medlar dry fruit storage bin.

Preferably, a negative pressure fan is arranged between the powder beating mechanism and the medlar powder storage tank, an air inlet of the negative pressure fan is connected with a discharge port of the powder beating mechanism through a pipeline, a feed port of an air outlet medlar powder storage tank of the negative pressure fan is connected through a pipeline, and a filter screen is further arranged at the discharge port of the powder beating mechanism so as to filter large-particle medlar powder.

Preferably, the matrimony vine powder storage jar still is equipped with the filter mechanism of airing exhaust to separate matrimony vine powder, the filter mechanism of airing exhaust includes baffle, net shape support, filtration sack, the baffle is two upper and lower cavities with matrimony vine powder storage jar, and wherein, the cavity of baffle top is the exhaust chamber, and the cavity of baffle below is matrimony vine powder settling chamber, be equipped with a plurality of holes on the baffle, net shape support sets up on the hole of baffle, and net shape support is cylindricality and is arranged in matrimony vine powder settling chamber, and filtration sack cover is established on net shape support, and the lateral wall of matrimony vine powder settling chamber is equipped with matrimony vine feed inlet, and the lateral wall of exhaust chamber is equipped with the air outlet.

Preferably, the matrimony vine powder packing mechanism includes the packing jar conveyer belt, seals the packing workstation, the packing jar conveyer belt is just right with matrimony vine powder storage tank mutually, seals the end that the packing workstation is located the packing jar conveyer belt to seal and pack the packing jar of splendid attire matrimony vine powder, matrimony vine powder storage tank is equipped with the control valve, in order to control the ejection of compact of matrimony vine powder, correspondingly, matrimony vine powder production system still includes the controller, and the controller is connected with control valve, packing jar transportation electrification nature to control the ejection of compact of matrimony vine powder and the transportation of matrimony vine powder storage tank.

The medlar powder production system has the beneficial effects that when the medlar powder production system is in operation, the low-temperature unpacking chamber of the medlar dry fruit can reduce the temperature of the medlar dry fruit, so that the follow-up powder beating process is quicker and more efficient, the medlar dry fruit with reduced temperature is easier to separate and screen, the medlar dry fruit is conveyed into the medlar dry fruit storage bin through the discharging conveying belt after being subjected to low-temperature treatment, then the air in the medlar dry fruit storage bin is pumped away through the vacuumizing pump, and the inert gas is pumped into the inert gas storage tank to maintain the micro-positive pressure anoxic state in the medlar dry fruit storage bin, and the micro-positive pressure can reduce the entry of external air. And then the dried Chinese wolfberry fruits in the dried Chinese wolfberry fruit storage bin enter a powder grinding mechanism, the dried Chinese wolfberry fruits are ground into powder under the action of the powder grinding mechanism, and then the Chinese wolfberry powder enters a Chinese wolfberry powder storage tank to be filled by a Chinese wolfberry powder packing mechanism. The whole process is carried out under the condition of less oxygen, so that the oxidation of the medlar powder can be reduced, meanwhile, the medlar powder is not easy to be sticky, and the state of the medlar powder can be well maintained.

Drawings

FIG. 1 is a schematic diagram of a production system of fructus Lycii powder according to the present utility model.

Fig. 2 is a schematic structural view of the connection between the storage bin of dried wolfberry fruits and the powdering device.

Fig. 3 is a schematic diagram of the internal structure of the low-temperature unpacking chamber for dried wolfberry fruits.

Fig. 4 is a schematic structural view of a wolfberry powder storage tank of the present utility model.

In the figure, a medlar powder production system 10, a medlar dry fruit low-temperature unpacking room 20, a medlar dry fruit screening workbench 201, a medlar trough 202, a lifter 203, a medlar dry fruit storage bin 30, a vacuumizing pump 40, an inert gas storage tank 50, a powdering mechanism 60, a powdering tank 601, a cutter head 602, a driving motor 603, a medlar powder storage tank 70, a partition plate 701, a net-shaped support 702, a filter cloth bag 703, a medlar powder packing mechanism 80, a packing tank conveying belt 801 and a sealing and packing workbench 802.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Referring to fig. 1 to 4, a system 10 for producing dried wolfberry fruit comprises a low-temperature unpacking chamber 20 for unpacking dried wolfberry fruit, a storage bin 30 for storing dried wolfberry fruit, a vacuumizing pump 40, an inert gas storage tank 50, a powdering mechanism 60, a storage tank 70 for storing dried wolfberry fruit, and a packaging mechanism 80 for packaging dried wolfberry fruit, wherein the low-temperature unpacking chamber 20 for unpacking dried wolfberry fruit is provided with a discharging conveyer belt, the discharging conveyer belt is connected with a feeding port of the storage bin 30 for storing dried wolfberry fruit, an air outlet of the storage bin 30 for storing dried wolfberry fruit is connected with the vacuumizing pump 40 through a pipeline so as to discharge air in the storage bin 30 for storing dried wolfberry fruit, an air inlet of the storage bin 30 for storing dried wolfberry fruit is connected with an air inlet of the inert gas storage tank 50 through a pipeline so as to introduce low-temperature nitrogen gas, the discharging port of the storage bin 30 for storing dried wolfberry fruit is communicated with the feeding port of the powdering mechanism 60 so as to collect dried wolfberry fruit in time, the bottom of the storage tank 70 for storing wolfberry fruit is provided with a plurality of discharging ports, the discharging ports are arranged opposite to the packaging mechanism 80 for storing wolfberry fruit powder, and the packaging mechanism 80 for storing wolfberry fruit is packed with packaging powder.

The low temperature unpacking chamber 20 of the dried medlar of the present utility model is used for unpacking purchased medlar in a low temperature environment. The packaging bag filled with the dried fruits of the Chinese wolfberry is firstly stacked in a low-temperature unpacking chamber for cooling, and the dried fruits of the Chinese wolfberry after cooling are more easily separated and selected so as to conveniently pick out rotten fruits, mildewed fruits and impurities in the packaging bag. The low-temperature unpacking chamber 20 of the dried medlar fruits is refrigerated by a refrigerator. Unpacking can be performed when the packaging bag filled with the dried medlar is placed for a certain time and then is reduced to a preset temperature. After unpacking and sorting, the dried medlar fruits are conveyed into a medlar dried fruit storage bin 30 through a discharging conveying belt.

In a preferred embodiment, the low-temperature unpacking chamber 20 for the dried wolfberry comprises a dried wolfberry screening workbench 201, a dried wolfberry trough 202 and a lifter 203, wherein the dried wolfberry screening workbench 201 is located in the low-temperature unpacking chamber 20 for unpacking and sorting the dried wolfberry, the dried wolfberry trough 202 is located at the tail end of the dried wolfberry screening workbench 201 and is used for receiving the screened dried wolfberry, a feed inlet of the lifter 203 is connected with the bottom of the dried wolfberry trough 202, and a discharge outlet of the lifter 203 is connected with a discharge conveyor belt so as to transfer the dried wolfberry onto the discharge conveyor belt.

The worker firstly pours the packaging bag containing the dried medlar fruits onto the medlar dried fruit screening workbench 201 to pick out rotten fruits, mildewed fruits and impurities. The screened wolfberry fruits are pushed into the wolfberry fruit trough 202 and conveyed onto a discharge conveyor belt by the elevator 203 and further conveyed into the wolfberry fruit storage bin 30.

The storage bin 30 for dried fruits of Chinese wolfberry can store a large amount of Chinese wolfberry at one time, can be used for the powder beating mechanism 60 to beat powder for multiple times, and can reduce the chance that the powder beating mechanism 60 is contacted with air due to the addition of dried fruits of Chinese wolfberry.

The vacuum pump 40 of the utility model is used for pumping air from the storage bin 30 of the dried fruits of the Chinese wolfberry and even from a subsequent tank body connected with the storage bin 30 of the dried fruits of the Chinese wolfberry, so as to reduce the contact of the Chinese wolfberry powder and oxygen in the powdering process. In the vacuumizing process, the feed inlet, the discharge outlet, the air inlet and the like of the dried wolfberry fruit storage bin are all in a closed state and can be controlled by valves. After the vacuum pumping is finished, the inert gas storage tank is firstly opened to supply gas to the dried medlar fruit storage bin, so that the dried medlar fruit storage bin is in the inert gas protection atmosphere. And then opening a discharge hole to convey the dried medlar fruits to a powdering mechanism.

The inert gas storage tank 50 is used for providing inert gas, such as nitrogen, carbon dioxide, and the nitrogen and the carbon dioxide, for the dried wolfberry fruit storage bin 30, so that the micro-positive pressure environment can be improved for the dried wolfberry fruit storage bin 30, the external air inlet amount can be reduced, and meanwhile, a low-oxygen environment can be provided, and the dried wolfberry fruit is not easy to oxidize after being crushed into powder.

The present utility model of the wolfberry powder storage tank 70 is used for holding ground wolfberry powder. After the dried wolfberry fruits in the prior art are ground into powder, the cover of the grinding mechanism 60 needs to be opened and then poured into a packaging bag. Thus, the medlar powder is still contacted with air, so that more medlar powder is oxidized. The medlar powder storage tank 70 is directly filled into the medlar powder storage tank 70 after the medlar dry fruits are crushed into powder, so that the medlar powder storage tank 70 is prevented from being contacted with air, and the oxidization of medlar powder is reduced.

The powdering device 60 of the present utility model is used to powderize dried fruits of Lycium barbarum. The prior art powdering device 60 typically contacts the air after opening the lid. The oxygen content in the powdering device 60 is the same as that in the air, and part of the wolfberry powder is oxidized by the oxygen in the powdering device 60 during powdering. The pulverizing mechanism 60 of the utility model and the dried wolfberry storage bin 30 have the advantages that the wolfberry adding process is not contacted with the outside air, and the oxidation degree of the wolfberry powder is lower.

There are various ways in which the dried wolfberry fruit storage bin 30 delivers dried wolfberry fruit to the powdering device 60, such as by a belt conveyor or by a negative pressure fan. In a preferred embodiment, the lower end of the storage bin 30 is conical, a screw conveyor is arranged at the bottom of the storage bin 30, a discharge port of the screw conveyor is connected with a feed port of the powdering device 60, a feed port is arranged at the top of the storage bin 30, and the feed port is in a sealing state during powdering. The screw conveyor can ensure the stability of the conveying flow of the dried fruits of the Chinese wolfberry and can realize the continuous powder grinding of the Chinese wolfberry. Meanwhile, a good sealing environment can be kept for the storage bin 30 of the dried fruits of the Chinese wolfberry, and oxidation of the dried fruits of the Chinese wolfberry is reduced.

In a preferred embodiment, the powdering device 60 includes a powdering tank 601, a cutter head 602, and a driving motor 603, the cutter head 602 is disposed at the bottom of the powdering tank 601, a rotating shaft of the cutter head 602 is fixedly connected with a rotating shaft of the driving motor 603, so as to drive the cutter head 602 to rotate through the driving motor 603, a feeding hole is disposed on a side wall of the powdering tank 601, and the feeding hole of the powdering tank 601 is connected with the dried wolfberry storage bin 30. The powdering device 60 of the present utility model has a similar structure to the powdering device 60 of the prior art, and the side wall of the powdering device 60 of the present utility model is provided with a feed inlet, and dried fruits of Lycium barbarum fruit enter from the side of the powdering tank 601.

In a preferred embodiment, a negative pressure fan is arranged between the powder beating mechanism 60 and the medlar powder storage tank 70, an air inlet of the negative pressure fan is connected with a discharge port of the powder beating mechanism 60 through a pipeline, an air outlet of the negative pressure fan is connected with a feed port of the medlar powder storage tank 70 through a pipeline, and a filter screen is further arranged at the discharge port of the powder beating mechanism 60 to filter large-particle medlar powder.

Therefore, the continuity of the pulverizing process of the medlar can be ensured, and the pulverizing efficiency of the medlar is improved. Specifically, the dried fruits of the Chinese wolfberry enter the powdering mechanism 60 from the side wall of the powdering mechanism 60, fall to the bottom of the powdering tank 601 under the action of gravity, are powdered by the cutter head 602, become smaller under the action of the negative pressure fan, and enter the Chinese wolfberry powder storage tank 70 from the top of the powdering tank 601. Meanwhile, the medlar with larger particles attracted by the negative pressure fan falls back to the bottom of the powdering tank 601 under the action of the filter screen. In order to enable the medlar of the part to have better falling-back effect, the negative pressure fan can run in a gap mode.

It should be noted that, because the powdering is continuously performed, heat is easily accumulated in the powdering device 60, and the matrimony vine polysaccharide and the like are more easily oxidized. Therefore, oxidation of the dried wolfberry powder can be significantly suppressed by cooling the dried wolfberry in the early stage and filling the inert gas in the dried wolfberry storage bin 30.

Under the action of the negative pressure fan, the medlar powder entering the medlar powder storage tank 70 has certain kinetic energy to influence the falling of the medlar powder, and the medlar powder is easily carried out from the air outlet in the air exhaust process. Therefore, in a preferred embodiment, the medlar powder storage tank 70 is further provided with an air-exhausting and filtering mechanism to separate medlar powder, the air-exhausting and filtering mechanism includes a partition 701, a net-shaped support 702, and a filtering cloth bag 703, the partition 701 divides the medlar powder storage tank 70 into an upper chamber and a lower chamber, wherein the chamber above the partition 701 is an air-exhausting chamber, the chamber below the partition 701 is a medlar powder settling chamber, a plurality of holes are formed in the partition 701, the net-shaped support 702 is disposed on the holes of the partition 701, the net-shaped support 702 is cylindrical and is located in the medlar powder settling chamber, the filtering cloth bag 703 is sleeved on the net-shaped support 702, a medlar feeding port is formed in a sidewall of the medlar powder settling chamber, and an air outlet is formed in a sidewall of the air-exhausting chamber.

Thus, the wolfberry powder loses kinetic energy under the action of the filter cloth bag 703 and falls to the bottom of the wolfberry powder storage tank 70. The wind passes through the filter cloth bag 703 and is discharged from the air outlet.

Further, the medlar powder packing mechanism 80 includes a packing tank conveying belt 801 and a sealing packing workbench 802, the packing tank conveying belt 801 is opposite to the medlar powder storage tank 70, the sealing packing workbench 802 is located at the tail end of the packing tank conveying belt 801 to seal and pack the packing tank containing the medlar powder, the medlar powder storage tank 70 is provided with a control valve to control the discharging of the medlar powder, and correspondingly, the medlar powder production system 10 further includes a controller, and the controller is electrically connected with the control valve and the packing tank conveying belt 801 to control the discharging of the medlar powder and the conveying of the medlar powder storage tank 70.

The medlar powder packaging mechanism 80 is used for timely packaging medlar powder into a packaging can, so that the contact time of the medlar powder and air is reduced. When in use, the packaging can is firstly placed on the packaging can conveying belt 801 by a mechanical arm or manually. The matrimony vine powder storage tank 70 may simultaneously fill a plurality of packaging tanks with matrimony vine powder. The distance of each movement of the conveyor belt is the same as the total length of a plurality of packaging cans filled simultaneously. After filling the medlar powder, the medlar powder storage tank 70 can be packaged by a packaging machine or manually. After packaging, the wolfberry powder may be sold until the user opens the wolfberry powder storage tank 70 after purchasing it. The specifications of the medlar powder storage tank 70 are determined according to the actual situation. In places such as canteens where the amount of use is relatively large, the size of the wolfberry powder storage tank 70 is correspondingly large, for example, 100-500 ml. If the amount is small in restaurants or the like, but the amount is relatively frequent, the size of the wolfberry powder storage tank 70 is small, for example, 50 to 100 ml. The medlar powder can be stored in a packaging can, and can be packaged in a packaging box, a packaging bag and the like. The packaging bag of the medlar powder can be sealed by heat sealing.

The foregoing disclosure is illustrative of the preferred embodiments of the present utility model, and is not to be construed as limiting the scope of the utility model, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalents thereof, which fall within the scope of the utility model as defined by the appended claims.

Claims (7)

1. A medlar powder production system is characterized by comprising a medlar dry fruit low-temperature unpacking chamber, a medlar dry fruit storage bin, a vacuumizing pump, an inert gas storage tank, a powder beating mechanism, a medlar powder storage tank and a medlar powder packing mechanism, wherein the medlar dry fruit low-temperature unpacking chamber is provided with a discharge conveying belt, the discharge conveying belt is connected with a feed inlet of the medlar dry fruit storage bin, an air outlet of the medlar dry fruit storage bin is connected with the vacuumizing pump through a pipeline so as to discharge air in the medlar dry fruit storage bin, an air inlet of the medlar dry fruit storage bin is connected with an air inlet of the inert gas storage tank through a pipeline so as to introduce low-temperature nitrogen, a discharge outlet of the medlar dry fruit storage bin is connected with a feed inlet of the powder beating mechanism so as to beat medlar powder, the discharge outlet of the medlar powder beating mechanism is communicated with the medlar powder storage tank so as to collect medlar powder in time, the bottom of the medlar powder storage tank is provided with a plurality of discharge outlets, the discharge outlet of the medlar powder storage tank is opposite to the medlar powder packing mechanism, and the medlar powder packing mechanism is placed with the packing tank so as to contain medlar powder.

2. The system of claim 1, wherein the low temperature unpacking chamber comprises a dried wolfberry screening table, a dried wolfberry trough and a lifter, wherein the dried wolfberry screening table is positioned in the low temperature unpacking chamber and is used for unpacking and sorting dried wolfberry, the dried wolfberry trough is positioned at the tail end of the dried wolfberry screening table and is used for receiving screened dried wolfberry, a feed inlet of the lifter is connected with the bottom of the dried wolfberry trough, and a discharge outlet of the lifter is connected with a discharge conveyor belt so as to transfer dried wolfberry onto the discharge conveyor belt.

3. The system of claim 1, wherein the lower end of the storage bin is conical, a screw conveyor is arranged at the bottom of the storage bin, a discharge port of the screw conveyor is connected with a feed port of the powdering device, a feed port is arranged at the top of the storage bin, and the feed port is in a sealed state during powdering.

4. The system of claim 1, wherein the powder-making mechanism comprises a powder-making tank, a cutter head and a driving motor, the cutter head is arranged at the bottom of the powder-making tank, a rotating shaft of the cutter head is fixedly connected with a rotating shaft of the driving motor so as to drive the cutter head to rotate through the driving motor, a feeding hole is arranged on the side wall of the powder-making tank, and the feeding hole of the powder-making tank is connected with a dried wolfberry storage bin.

5. The system of claim 1, wherein a negative pressure fan is arranged between the powder beating mechanism and the Chinese wolfberry powder storage tank, an air inlet of the negative pressure fan is connected with a discharge port of the powder beating mechanism through a pipeline, a feed port of an air outlet Chinese wolfberry powder storage tank of the negative pressure fan is connected with the discharge port of the powder beating mechanism through a pipeline, and a filter screen is further arranged at the discharge port of the powder beating mechanism to filter large-particle Chinese wolfberry powder.

6. The system of claim 1, wherein the tank further comprises an exhaust filter mechanism for separating fructus Lycii powder, the exhaust filter mechanism comprises a partition plate, a net-shaped support and a filter cloth bag, the partition plate divides the tank into an upper chamber and a lower chamber, the chamber above the partition plate is an exhaust chamber, the chamber below the partition plate is a fructus Lycii powder settling chamber, the partition plate is provided with a plurality of holes, the net-shaped support is arranged on the holes of the partition plate, the net-shaped support is cylindrical and is positioned in the fructus Lycii powder settling chamber, the filter cloth bag is sleeved on the net-shaped support, the side wall of the fructus Lycii powder settling chamber is provided with a fructus Lycii feeding port, and the side wall of the exhaust chamber is provided with an air outlet.

7. The system of claim 1, wherein the packaging mechanism comprises a packaging tank conveyor belt and a sealing and packaging workbench, the packaging tank conveyor belt is opposite to the packaging tank conveyor belt, the sealing and packaging workbench is positioned at the tail end of the packaging tank conveyor belt to seal and package the packaging tank containing the wolfberry powder, the packaging tank is provided with a control valve to control the discharging of the wolfberry powder, and the controller is electrically connected with the control valve and the packaging tank in a conveying manner to control the discharging of the wolfberry powder and the conveying of the packaging tank.