CN215123934U - Quinoa milk powder production device - Google Patents
Quinoa milk powder production device Download PDFInfo
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- CN215123934U CN215123934U CN202120567135.1U CN202120567135U CN215123934U CN 215123934 U CN215123934 U CN 215123934U CN 202120567135 U CN202120567135 U CN 202120567135U CN 215123934 U CN215123934 U CN 215123934U
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Abstract
The utility model discloses a chenopodium quinoa milk powder production device, which comprises a raw material detection device for carrying out microorganism test on raw materials, a distribution device for distributing the raw materials in proportion, a filtering device for filtering impurities, a vacuum device for pumping away air in raw material mixtures and sealing, a stirring device for uniformly mixing the mixtures, a collecting device for collecting finished products, a finished product detection device for carrying out microorganism test on the finished products, and a filling device for filling the finished products in bottles; the raw material detection device, the distribution device, the filtering device, the vacuum device, the stirring device, the collecting device, the finished product detection device and the filling device are sequentially connected through the transmission device. The utility model discloses a raw materials detection device and finished product detection device are equipped with a plurality of culture containers, and every culture container all can be used for carrying out the microorganism detection experiment to promote the efficiency that the microorganism detected, agitating unit can make semi-manufactured goods stirring more even, solves the semi-manufactured goods adhesion and causes extravagant problem at the agitator inner wall.
Description
Technical Field
The utility model relates to a milk power manufacture equipment technical field, in particular to chenopodium quinoa milk power apparatus for producing.
Background
With the continuous improvement of living standard and the change of diet style of people, the healthy and special quinoa milk powder becomes the development trend of the high-end milk products at present. The quinoa is light in weight, has nut flavor, and has special high dietary fiber and low sugar property to promote digestion; chenopodium quinoa milk powder is a dairy food with high nutritive value, is easy to digest and has good taste.
The quinoa milk powder is beneficial to improving the immunity of the organism of the children, helping the metabolism of the children, preventing cardiovascular tissues from absorbing harmful elements such as lead and the like, and playing a decisive role in the development of the intelligence and retina of the children; the quinoa contains main components such as plant extract as food materials, is rich in zinc element, can effectively remove redundant free radicals in human body, and has effects of resisting oxidation, resisting allergy, relieving fatigue, improving body condition, improving sub-health state, delaying aging and enhancing organism function for the elderly with hyperglycemia, hypertension and hyperlipemia.
Before milk powder is processed, raw materials need to be quarantined and isolated, and microbial detection is one of important indexes for measuring the quality of the raw materials and is also one of scientific bases for judging whether the detected milk powder is safely used or not; the existing microbial detection kit has a single structure, only one group of microbial detection experiments can be carried out on a single microbial detection kit, and the microbial detection efficiency is low. In addition, the semi-finished product is not uniformly stirred in the processing process, so that the semi-finished product is adhered to the inner wall of the stirring barrel to cause waste.
SUMMERY OF THE UTILITY MODEL
Not enough more than, the utility model aims at providing a chenopodium quinoa milk powder apparatus for producing can improve the detection efficiency of microorganism in the production process, reduces the milk powder raw materials extravagant.
In order to achieve the above object, the utility model provides a following technical scheme:
a chenopodium quinoa milk powder production device comprises a raw material detection device for carrying out microorganism test on raw materials, a distribution device for distributing the raw materials in proportion, a filtering device for filtering impurities in a raw material mixture, a vacuum device for pumping away air in the raw material mixture and sealing, a stirring device for uniformly mixing the mixture, a collecting device for collecting stirred finished products, a finished product detection device for carrying out microorganism test on the finished products, and a filling device for bottling and filling the detected finished products; the raw material detection device, the distribution device, the filtering device, the vacuum device, the stirring device, the collecting device, the finished product detection device and the filling device are sequentially connected through the transmission device.
As a preferred technical scheme, the raw material detection device comprises a raw material detection kit, a raw material culture support parallel to the raw material detection kit and arranged on the right side of the raw material detection kit, a raw material illumination mechanism arranged right below the raw material culture support, and a raw material liquid supply mechanism arranged right below the raw material culture support.
As a preferred technical scheme, the raw materials detect reagent box includes raw materials box body, at least 2 levels set up side by side raw materials culture container, setting in the raw materials culture container raw materials culture medium, setting in raw materials box body and raw materials culture container right side raw materials transfer mechanism, raw materials culture container passes through raw materials transfer mechanism shifts to on the raw materials cultivation support.
As a preferred technical scheme, the raw material supply mechanism comprises a main liquid supply pipe, a sample solution supply pipe, a culture medium solution supply pipe, a discharge pipe and a four-way electromagnetic valve, wherein the main liquid supply pipe penetrates through the middle part of the raw material culture support and is communicated with the upper part of the raw material culture support, and the main liquid supply pipe is respectively communicated with the sample solution supply pipe, the culture medium solution supply pipe and the discharge pipe through the four-way electromagnetic valve; the side edges of the raw material culture bracket and the raw material culture container are provided with annular grooves.
As a preferable technical scheme, the upper surface of the raw material culture bracket is arc-shaped, and buffering cushions are arranged at two ends of the arc; the raw material illumination mechanism is a solar illumination plate.
As a preferred technical scheme, the finished product detection device comprises a finished product detection kit, a finished product culture bracket which is parallel to the finished product detection kit and is arranged on the right side of the finished product detection kit, a finished product liquid supply mechanism arranged right above the finished product culture bracket, and a finished product illumination mechanism arranged right below the finished product culture bracket;
finished product detection kit includes finished product box body, at least 2 levels and sets up side by side finished product culture container in the finished product box body, set up finished product culture medium in the finished product culture container, set up and be in finished product transfer mechanism on finished product box body and the finished product culture container right side, finished product culture container passes through finished product transfer mechanism shifts to on the finished product culture support.
As a preferred technical scheme, the feed inlet of the stirring device is arranged under the feed outlet of the vacuum device, and the stirring device comprises a frame, a stirring barrel arranged on the frame, a stirring rod arranged in the stirring barrel, a stirring paddle arranged on the stirring rod and a driving mechanism for driving the stirring rod to rotate.
As a preferred technical scheme, the driving mechanism comprises a driving motor arranged at the bottom of the stirring barrel, a driving gear in transmission connection with an output shaft of the driving motor through a bearing, a driven gear in reverse meshing transmission with the driving gear, and a transmission gear arranged between the driving gear and the driven gear, wherein the sum of the diameters of the driving gear and the transmission gear is equal to the diameter of the driven gear; the puddler is including setting up left puddler on left in the agitator and setting up the right part puddler on right side in the agitator, left part puddler and driving gear connection, right side puddler and driven gear connection, driving motor drive driving gear, left part puddler clockwise rotation, and the driving gear drives driven gear, right part puddler anticlockwise rotation.
As a preferable technical scheme, the cross section of the left stirring rod is cross-shaped, and the cross section of the right stirring rod is rhombic; the stirring paddles comprise S-shaped first stirring paddles which are radially and uniformly arranged on the outer ring surface of the stirring rod at intervals and scraping plates which are radially arranged on the outer ring surface of the lower part of the stirring rod, and the scraping plates are in contact with the inner wall of the stirring barrel.
As a preferable technical scheme, the collecting barrel is arranged right below the feeding hole of the stirring device, and the inner side of the collecting barrel is provided with a plastic bushing; the filter screen of the filter device is 20 meshes.
The beneficial effects of the utility model reside in that:
the utility model prevents the raw materials from being infected by bacteria and from generating oxidation reaction by isolating and quarantining, filtering impurities and vacuumizing the raw materials, and isolates and quarantines and mixes the finished product uniformly after stirring, so that the prepared milk powder is fresh, pure and free of impurities, balanced in nutrition and fresh in taste, the immunity of the body of the child can be improved, the digestion is promoted, and the old people can be prevented from getting diseases such as hypertension; raw materials detection device and finished product detection device are equipped with a plurality of culture containers, and every culture container all can be used for carrying out the microorganism detection experiment to promote the efficiency that the microorganism detected, agitating unit can make the stirring of semi-manufactured goods more even, solves the problem that semi-manufactured goods adhesion caused the waste at the agitator inner wall.
Drawings
FIG. 1 is a schematic diagram of a production line of a chenopodium quinoa milk powder production device of the present invention;
FIG. 2 is a schematic structural view of the raw material detecting device of the present invention;
FIG. 3 is a schematic structural view of the finished product inspection device of the present invention;
fig. 4 is a flow chart of the chenopodium quinoa milk powder production device of the utility model for producing chenopodium quinoa milk powder.
Detailed Description
For further understanding of the contents, features and effects of the present invention, the following embodiments are exemplified and will be described in detail with reference to the accompanying drawings. It should be noted that the following examples are illustrative and not restrictive, and should not be construed as limiting the scope of the present invention.
In the description of the present invention, unless otherwise expressly specified or limited, the first feature may be "on" or "under" the second feature in direct contact with the first feature or in indirect contact with the second feature through an intermediate. Also, a first feature "on," "over," or "above" a second feature may be directly or diagonally above the first feature, or may simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," or "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lower level than the second feature.
When an element is referred to as being "secured" to another element, it can be directly secured to the other element or secured through intervening elements. When an element is described as being "connected" to another element, it can be directly connected to the other element or be connected through intervening elements. The terms "upper," "lower," "left," "right," "top," "bottom," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.
A chenopodium quinoa milk powder production device is shown in figure 1 and comprises a raw material detection device 1 for carrying out microorganism test on raw materials, a distribution device for distributing the raw materials in proportion, a filtering device 2 for filtering impurities in a raw material mixture, a vacuum device 3 for pumping air in the raw material mixture and sealing, a stirring device 4 for uniformly mixing the mixture, a collecting device 5 for collecting stirred finished products, a finished product detection device 6 for carrying out microorganism test on the finished products and a filling device for filling the detected finished products in bottles; the raw material detection device 1, the distribution device, the filtering device 2, the vacuum device 3, the stirring device 4, the collecting device 5, the finished product detection device 6 and the filling device are sequentially connected through a transmission device such as a conveyor belt.
Although the dispensing device and the filling device are not shown in fig. 1, it is understood that the dispensing device is located between the raw material detecting device 1 and the filtering device 2, and is used for proportionally dispensing the raw materials and filling the raw materials into the raw material detecting device 1 for microorganism detection.
Further, in this embodiment, chenopodium quinoa milk powder apparatus for producing still includes the finished product jar after will filling seal the can sealing device, be used for pasting the sign for the finished product beat sign indicating number device and be used for packing off-the-shelf packing plant, can sealing device, beat sign indicating number device and packing plant set gradually at transmission device's end, set gradually promptly behind the filling device.
As shown in fig. 2, the raw material detecting apparatus 1 includes a raw material detecting kit 11, a raw material culturing support 12 parallel to the raw material detecting kit 11 and disposed on the right side of the raw material detecting kit 11, a raw material illuminating mechanism 13 disposed under the raw material culturing support 12, and a raw material liquid supplying mechanism disposed under the raw material culturing support 12.
The raw material detection kit 11 comprises a raw material box body 111, at least 2 raw material culture containers 112 horizontally arranged in the raw material box body 111 side by side, a raw material culture medium arranged in the raw material culture containers 112, and a raw material transfer mechanism 114 arranged on the right sides of the raw material box body 111 and the raw material culture containers 112, wherein the raw material culture containers 112 are transferred onto the raw material culture support 12 through the raw material transfer mechanism 114.
The raw material transfer mechanism 114 comprises raw material transfer brackets arranged on the right side of the raw material detection kit 11 in pairs, raw material handles arranged on the right side of the raw material culture container 112, a raw material transfer channel horizontally arranged in the raw material transfer brackets, and a raw material sliding groove vertically arranged in the raw material transfer brackets; the material transfer channel is communicated with the material sliding groove, a pair of material sliding blocks 115 are symmetrically arranged on the left side and the right side of the material culture container 112, and the material sliding blocks 115 are connected with the material sliding groove in the material transfer support in a matching way, so that the material sliding blocks 115 can slide in the material sliding groove. Holding the raw material pull handle, extracting 1 raw material culture container 112 from the direction of the raw material transfer channel, when the raw material culture container 112 is completely extracted, the raw material slide blocks 115 on both sides of the raw material culture container 112 slide down vertically along the raw material slide grooves in the raw material transfer rack, and the raw material culture container 112 is transferred to the raw material culture rack 12 through the raw material transfer mechanism. Each layer of raw material culture container 112 can be used for carrying out a group of microorganism detection experiments, and the design effectively improves the use efficiency of a single microorganism detection kit and shortens the time for detecting a plurality of groups of microorganisms.
In this embodiment, the upper surface of the raw material culture rack 12 is arc-shaped, and two ends of the arc are provided with buffering pads, so that the raw material culture container 112 can be stably placed on the raw material culture rack 12; the raw material illumination mechanism is a solar illumination plate, can utilize light energy to illuminate, and has the advantages of energy conservation and environmental protection.
The raw material liquid supply mechanism comprises a liquid supply main pipe 141, a sample solution supply pipe 142, a culture medium solution supply pipe 143, a discharge pipe 144 and a four-way electromagnetic valve 145, wherein the liquid supply main pipe 141 penetrates through the middle part of the raw material culture support 12 and is communicated with the upper part of the raw material culture support 12, and the liquid supply main pipe 141 is respectively communicated with the sample solution supply pipe 142, the culture medium solution supply pipe 143 and the discharge pipe 144 through the four-way electromagnetic valve 145; annular grooves are provided on the side edges of the raw material culture holder 12 and the raw material culture vessel 112. The sample solution or the culture medium solution can enter the liquid supply main pipe 141 through the sample solution supply pipe 142 or the culture medium solution supply pipe 143 under the control of the four-way solenoid valve 145, and then is injected into the arc-shaped upper space of the raw material culture support 12 from the liquid supply main pipe 141, and overflows onto the raw material culture medium from the annular grooves of the raw material culture support 12 and the raw material culture container 112.
The feed inlet setting of agitating unit 4 is under 3 feed openings of vacuum apparatus, and agitating unit 4 includes the frame, installs V-arrangement agitator in the frame, sets up puddler, the setting on the puddler and is used for driving puddler pivoted actuating mechanism at V-arrangement agitator.
The driving mechanism comprises a driving motor arranged at the bottom of the V-shaped stirring barrel, a driving gear in transmission connection with an output shaft of the driving motor through a bearing, a driven gear in reverse meshing transmission with the driving gear, and a transmission gear arranged between the driving gear and the driven gear, wherein the sum of the diameters of the driving gear and the transmission gear is equal to the diameter of the driven gear; the puddler is including setting up left puddler on left in the V-arrangement agitator and setting up the right part puddler on the right side in the V-arrangement agitator, left part puddler and driving gear connection, right side puddler and driven gear connection, driving motor drive driving gear, left part puddler clockwise rotation, and the driving gear drives driven gear, right part puddler anticlockwise rotation to accomplish half-and-half off-the-shelf stirring, and overall structure can save a driving motor, reduced equipment cost.
The cross section of left part puddler is the cross, the cross section of right part puddler is the rhombus, and the rhombus puddler can be around the circumferential direction of V-arrangement agitator, is convenient for stir near the thick liquids of V-arrangement agitator inside wall for stir more evenly. The stirring rake includes that radial even interval sets up the first stirring rake of S type and the scraper blade of radial setting at the outer anchor ring of puddler lower part outer anchor ring, and the first stirring rake of S type has increased the area of contact of stirring rake with the interior raw materials of agitator, can play better stirring effect, the contact of scraper blade and the inner wall of V-arrangement agitator can scrape the raw materials of adhesion on the inner wall, has solved the raw materials and has piled up the problem that the back is difficult to the ejection of compact and is difficult to the clearance.
In the present embodiment, the filter screen of the filter device 2 is 20 meshes; collecting device 5 can be the collecting vessel, sets up under agitating unit 3 feed opening, and collecting device 5's inboard is provided with the plastics bush.
As shown in fig. 3, the finished product detecting device 6 includes a finished product detecting kit 61, a finished product culturing support 62 parallel to the finished product detecting kit 61 and disposed on the right side of the finished product detecting kit 61, a finished product liquid supplying mechanism disposed right above the finished product culturing support 62, and a finished product illuminating mechanism 63 disposed right below the finished product culturing support 62;
the finished product detection kit 61 comprises a finished product box 611, at least 2 finished product culture containers 612 horizontally arranged in the finished product box 611 side by side, a finished product culture medium arranged in the finished product culture containers 612, and a finished product transfer mechanism 614 arranged on the right side of the finished product box 611 and the finished product culture containers 612, wherein the finished product culture containers 612 are transferred onto the finished product culture bracket 62 through the finished product transfer mechanism 614.
The finished product transfer mechanism 614 comprises finished product transfer brackets arranged on the right side of the finished product detection kit 61 in pairs, finished product handles arranged on the right side of the finished product culture container 612, a finished product transfer channel horizontally arranged in the finished product transfer brackets, and finished product sliding grooves vertically arranged in the finished product transfer brackets; the finished product transfer channel is communicated with the finished product sliding groove, a pair of finished product sliding blocks 615 are symmetrically arranged on the left side and the right side of the finished product culture container, and the finished product sliding blocks 615 are connected with the finished product sliding groove in the finished product transfer support in a matching mode, so that the finished product sliding blocks 615 can slide in the finished product sliding groove. Holding the finished product handle to extract 1 finished product culture container 612 from the direction of the finished product transfer channel, when finished product culture container 612 is completely extracted, finished product sliders 615 on two sides of finished product culture container 612 vertically slide down along the finished product sliding grooves in the finished product transfer rack, and finished product culture container 612 is transferred to finished product culture rack 62 through finished product transfer mechanism 614. Each layer of finished product culture container 612 can be used for carrying out a group of microorganism detection reagent experiments, and the design effectively improves the use efficiency of a single microorganism detection kit and shortens the time for detecting a plurality of groups of microorganisms.
The finished culture support 62 is in the shape of a square or square bar. The finished product liquid supply mechanism comprises a finished product liquid supply pipe and a plurality of finished product spray heads which are annularly arranged in the middle in the finished product transfer support, and the finished product spray heads are communicated with the finished product liquid supply pipe. The finished product illumination mechanism 63 is a solar illumination plate, can illuminate by using light energy, and has the advantages of energy conservation and environmental protection.
In this embodiment, the environmental humidity, temperature and air pressure during the milk powder production and packaging process are controlled as follows:
1. humidity control: the humidity of the production environment is strictly guaranteed to be between 20% RH and 30% RH, so that the growth of microorganisms can be more effectively controlled; 2. temperature control: the production environment temperature is strictly ensured to be between 20 and 23 ℃; 3. and (3) air pressure control: the pressure difference between the production room and the outside is 5Pascal, and materials in other production areas are prevented from entering the production room, so that cross infection is avoided. The humidity and microorganism of the material can be monitored during storage and transportation, and the humidity of the material is controlled below 5% RH, and if necessary, ultraviolet radiation sterilization and disinfection can be carried out.
Referring to fig. 4, the basic working flow of the chenopodium quinoa milk powder production device of the utility model is:
the raw material detection device 1 carries out microorganism test on raw materials through quarantine isolation, weighs various raw materials after the raw materials pass the quarantine isolation, and carries out distribution and combination according to certain components; the filtering device 2 filters impurities except the quinoa wheat flour, the milk powder and the anhydrous silicon dioxide; after evacuation and stirring in sequence, the mixed milk powder is filled into a bottle by the finished product detection device 6 and weighed for inspection, and the mixed milk powder is sampled at the stage for microbiological test; the finished product is put into the box, the opening of the box is sealed, and then the box is put on a tray and transported to a designated place.
The utility model prevents the raw materials from being infected by bacteria and from generating oxidation reaction by isolating and quarantining, filtering impurities and vacuumizing the raw materials, and isolates and quarantines and mixes the finished product uniformly after stirring, so that the prepared milk powder is fresh, pure and free of impurities, balanced in nutrition and fresh in taste, the immunity of the body of the child can be improved, the digestion is promoted, and the old people can be prevented from getting diseases such as hypertension; raw materials detection device and finished product detection device are equipped with a plurality of culture containers, and every culture container all can be used for carrying out the microorganism detection experiment to promote the efficiency that the microorganism detected, agitating unit can make the stirring of semi-manufactured goods more even, solves the problem that semi-manufactured goods adhesion caused the waste at the agitator inner wall.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can also substitute or change the technical solution and the concept of the present invention within the technical scope disclosed in the present invention.
Claims (10)
1. A chenopodium quinoa milk powder production device is characterized by comprising a raw material detection device for carrying out microorganism test on raw materials, a distribution device for distributing the raw materials in proportion, a filtering device for filtering impurities in a raw material mixture, a vacuum device for pumping away air in the raw material mixture and sealing, a stirring device for uniformly mixing the mixture, a collecting device for collecting stirred finished products, a finished product detection device for carrying out microorganism test on the finished products, and a filling device for bottling and filling the detected finished products; the raw material detection device, the distribution device, the filtering device, the vacuum device, the stirring device, the collecting device, the finished product detection device and the filling device are sequentially connected through the transmission device.
2. The chenopodium quinoa milk powder production device of claim 1, wherein the raw material detection device comprises a raw material detection kit, a raw material culture support parallel to the raw material detection kit and arranged on the right side of the raw material detection kit, a raw material illumination mechanism arranged right below the raw material culture support, and a raw material liquid supply mechanism arranged right below the raw material culture support.
3. The chenopodium quinoa milk powder production device according to claim 2, wherein the raw material detection kit comprises a raw material box body, at least 2 raw material culture containers horizontally arranged in the raw material box body side by side, a raw material culture medium arranged in the raw material culture containers, and a raw material transfer mechanism arranged on the right sides of the raw material box body and the raw material culture containers, and the raw material culture containers are transferred onto the raw material culture support through the raw material transfer mechanism.
4. The chenopodium quinoa milk powder production device of claim 2, wherein the raw material supply mechanism comprises a main liquid supply pipe, a sample solution supply pipe, a culture medium solution supply pipe, a discharge pipe and a four-way solenoid valve, the main liquid supply pipe passes through the middle part of the raw material culture support and is communicated with the upper part of the raw material culture support, and the main liquid supply pipe is respectively communicated with the sample solution supply pipe, the culture medium solution supply pipe and the discharge pipe through the four-way solenoid valve; the side edges of the raw material culture bracket and the raw material culture container are provided with annular grooves.
5. The chenopodium quinoa milk powder production device of claim 2, wherein the upper surface of the raw material culture support is arc-shaped, and buffering pads are arranged at two ends of the arc; the raw material illumination mechanism is a solar illumination plate.
6. The chenopodium quinoa milk powder production device of claim 1, wherein the finished product detection device comprises a finished product detection kit, a finished product culture bracket which is parallel to the finished product detection kit and is arranged on the right side of the finished product detection kit, a finished product liquid supply mechanism arranged right above the finished product culture bracket, and a finished product illumination mechanism arranged right below the finished product culture bracket;
finished product detection kit includes finished product box body, at least 2 levels and sets up side by side finished product culture container in the finished product box body, set up finished product culture medium in the finished product culture container, set up and be in finished product transfer mechanism on finished product box body and the finished product culture container right side, finished product culture container passes through finished product transfer mechanism shifts to on the finished product culture support.
7. The chenopodium quinoa milk powder production device of claim 1, wherein a feed inlet of the stirring device is arranged right below a feed outlet of the vacuum device, and the stirring device comprises a frame, a stirring barrel arranged on the frame, a stirring rod arranged in the stirring barrel, a stirring paddle arranged on the stirring rod, and a driving mechanism for driving the stirring rod to rotate.
8. The chenopodium quinoa milk powder production device of claim 7, wherein the driving mechanism comprises a driving motor arranged at the bottom of the stirring barrel, a driving gear in transmission connection with an output shaft of the driving motor through a bearing, a driven gear in reverse meshing transmission with the driving gear, and a transmission gear arranged between the driving gear and the driven gear, wherein the sum of the diameters of the driving gear and the transmission gear is equal to the diameter of the driven gear; the puddler is including setting up left puddler on left in the agitator and setting up the right part puddler on right side in the agitator, left part puddler and driving gear connection, right side puddler and driven gear connection, driving motor drive driving gear, left part puddler clockwise rotation, and the driving gear drives driven gear, right part puddler anticlockwise rotation.
9. The Chenopodium quinoa milk powder production device according to claim 8, wherein the cross section of the left stirring rod is cross-shaped, and the cross section of the right stirring rod is diamond-shaped; the stirring paddles comprise S-shaped first stirring paddles which are radially and uniformly arranged on the outer ring surface of the stirring rod at intervals and scraping plates which are radially arranged on the outer ring surface of the lower part of the stirring rod, and the scraping plates are in contact with the inner wall of the stirring barrel.
10. The quinoa milk powder production device according to claim 1, wherein the collection device is a collection barrel, the collection barrel is arranged right below the feed opening of the stirring device, and the inner side of the collection barrel is provided with a plastic bushing; the filter screen of the filter device is 20 meshes.
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CN202120567135.1U CN215123934U (en) | 2021-03-19 | 2021-03-19 | Quinoa milk powder production device |
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CN202120567135.1U CN215123934U (en) | 2021-03-19 | 2021-03-19 | Quinoa milk powder production device |
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CN202120567135.1U Active CN215123934U (en) | 2021-03-19 | 2021-03-19 | Quinoa milk powder production device |
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