CN113522079A - Powdered raw materials ratio mixing arrangement of beverage machine - Google Patents

Abstract

The invention provides a proportioning and mixing device for powdery raw materials of a beverage machine, and belongs to the technical field of automatic beverage machines. The quantitative material sucking and mixing device comprises a plurality of raw material storage bins, wherein the raw material storage bins are fixedly arranged on a base, the base is fixedly arranged on the side wall of a vertical plate, the bottom of each raw material storage bin is fixedly connected with a quantitative material conveying mechanism, the quantitative material conveying mechanism extends into a sealed material sucking and mixing cavity, the bottom of the base is fixedly connected with a sealing shell, the sealing shell and the base form a sealed material sucking and mixing cavity, and a plurality of air inlets are fixedly arranged on the sealing shell; the 3D printing raw material mixture is fixedly connected to the bottom of the sealing shell. The automatic beverage dispenser is provided with the raw material storage box, the quantitative material conveying mechanism and the 3D printing raw material mixture, so that quantitative matching and mixed conveying of various different powdered raw materials can be performed, the automatic beverage dispenser can be applied to automatic beverage dispensers, and beverages with good taste can be prepared; through overall structure's design, make things convenient for the dismouting to wash, guarantee to use the health of the automatic beverage machine in the public place.

Description

Powdered raw materials ratio mixing arrangement of beverage machine

Technical Field

The invention relates to the technical field of automatic beverage machines, in particular to a proportioning and mixing device for powdery raw materials of a beverage machine.

Background

The automatic beverage machine is a device which can be used for measuring various different beverage raw materials, then feeding the beverage raw materials through a pipeline and sucking the beverage raw materials to a stirring and mixing device arranged in the whole machine through a material sucking mechanism, mixing and stirring the beverage raw materials into mixed beverage with a certain ingredient matching ratio, automatically filling the beverage into a cup after sucking the beverage raw materials, and finishing the delivery of the beverage through a material discharging slide way to an outlet. Wherein the beverage raw materials include powdered beverage raw materials and liquid beverage raw materials, the beverage raw materials generally adopt the liquid pump to absorb in the liquid, and absorb the powdered beverage raw materials and exist following difficult point all the time to the automatic beverage machine product of automatic preparation beverage: 1) the raw materials for preparing the beverage are various and different, the different raw materials have the mixture ratio, and the beverage with good taste can be prepared only by absorbing the mixed raw materials to the mixing device, so the structure for absorbing the raw materials after quantitative weighing is lacked in the prior art; 2) automatic beverage machine is applied to the public place, and is very strict to its sanitary requirement, needs often to change the raw materials bin to and wash each structure, among the powdered raw materials ration that exists at present mixes the suction means, the dismouting of being not convenient for.

Disclosure of Invention

In view of the problems identified in the background art, the present invention provides a powdered ingredient proportioning and mixing device for a beverage machine.

The technical scheme of the invention is realized as follows:

a proportioning and mixing device for powdered raw materials of a beverage machine comprises a plurality of raw material storage bins which are arranged side by side and fixedly arranged on a base, the base is fixedly arranged on the side wall of a vertical plate, the bottom of each raw material storage bin is fixedly connected with a quantitative material conveying mechanism, the quantitative material conveying mechanism comprises a quantitative material conveying shell, a quantitative material conveying ball body is rotationally matched in the quantitative material conveying shell, the spherical surface of the quantitative material conveying ball body is matched with the inner side wall of the quantitative material conveying shell, the top of the quantitative material conveying ball body is positioned at the outer side of the quantitative material conveying shell, a first discharge hole is arranged at the bottom of each raw material storage bin, the bottom side of the first discharge hole is matched with the spherical surface at the top of the quantitative material conveying ball body, a plurality of hemispherical material conveying grooves are uniformly arranged on the quantitative material conveying ball body, and are matched with the first discharge hole, a second discharge hole is formed in the bottom of the quantitative material conveying shell, and the hemispherical material conveying grooves are matched with the second discharge hole; the quantitative material conveying mechanism penetrates through the base and extends into the sealed material sucking and mixing cavity, the bottom of the base is fixedly connected with a sealed shell, the sealed shell and the base form the sealed material sucking and mixing cavity, and the sealed shell is fixedly provided with a plurality of air inlets along the circumferential direction of the sealed shell; the bottom of the sealing shell is fixedly connected with a 3D printing raw material mixture.

According to an embodiment of the invention, the quantitative material conveying sphere is fixedly connected with a first rotating shaft, the first rotating shaft is fixedly arranged on the quantitative material conveying shell through a bearing, the first rotating shaft extends to the outside of the quantitative material conveying shell and is in sleeve fit with a first auxiliary sleeve shaft, a first gear is fixedly connected to the first auxiliary sleeve shaft, the first auxiliary sleeve shaft is fixedly connected with a motor shaft, the motor shaft is fixedly arranged on the vertical plate through the bearing, the motor shaft extends to the other side of the vertical plate and is fixedly connected with a motor, and the motor is fixedly arranged on the vertical plate.

According to an embodiment of the invention, the first gear is engaged with the bottom of the gear belt, the top of the gear belt is engaged with the second gear, the second gear is fixedly connected with the second auxiliary sleeve shaft, one end of the second auxiliary sleeve shaft is fixedly connected with one end of the second rotating shaft, the other end of the second rotating shaft is fixedly arranged on the side wall of the vertical plate through a bearing, the other end of the second auxiliary sleeve shaft is sleeved and matched with the third rotating shaft, the third rotating shaft is fixedly arranged on the side wall of the raw material storage box through a bearing and extends into the raw material storage box, the third rotating shaft is fixedly connected with a plurality of stirring blades, and the plurality of stirring blades are all arranged in the raw material storage box.

According to one embodiment of the invention, the quantitative material conveying shell is fixedly arranged at the bottom of the raw material storage box through bolts, the base is provided with a through hole for the quantitative material conveying shell to pass through, the periphery of the through hole of the base is provided with a sealing gasket, and the sealing gasket is in butt fit with the bottom of the raw material storage box.

According to an embodiment of the present invention, the inner side wall of the quantitative conveying shell includes a spherical inner side wall and a cylindrical inner side wall, the spherical inner side wall is adapted to the quantitative conveying sphere, the cylindrical inner side wall forms the second discharging hole, and the inner diameter of the cylindrical inner side wall is equal to the minimum outer diameter of the quantitative conveying sphere.

According to one embodiment of the invention, the 3D printing raw material mixture comprises a mixing shell, the top of the mixing shell is in threaded fit with the bottom of the sealing shell through an internal thread, the bottom of the mixing shell is provided with a third discharge hole, a reticular plate is fixedly arranged in the mixing shell, a plurality of spiral shafts are fixedly arranged on the reticular plate, the spiral shafts penetrate through the bottom of the sealing shell and extend into the sealing shell, spiral blades are fixedly arranged on the spiral shafts, and the diameter of meshes of the reticular plate is larger than or equal to the distance between two adjacent spiral shafts.

According to one embodiment of the invention, one side of the inner side wall of the sealed shell, which is close to the 3D printing raw material mixture, is obliquely arranged and is set as an oblique inner side wall, the oblique inner side wall is sequentially provided with a plurality of convex rings from top to bottom, and the air inlet direction of the air inlet is obliquely downward.

In conclusion, the beneficial effects of the invention are as follows:

1. the automatic beverage dispenser is provided with the raw material storage box, the quantitative material conveying mechanism and the 3D printing raw material mixture, so that quantitative matching and mixed conveying of various different powdered raw materials can be performed, the automatic beverage dispenser can be applied to automatic beverage dispensers, and beverages with good taste can be prepared;

2. through overall structure's design, make things convenient for the dismouting to wash, guarantee to use the health of the automatic beverage machine in the public place.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view showing the rotation of a ball for quantitative transfer and the rotation of a paddle according to an embodiment of the present invention, (a) is a front view of a part of a structure mounted on a vertical plate, and (b) is a side view of a part of a structure mounted on a vertical plate;

FIG. 3 is an enlarged view of the structure at A in the embodiment of the present invention;

FIG. 4 is an enlarged view of the structure at B in the embodiment of the present invention;

fig. 5 is an enlarged view of the structure at C in the embodiment of the present invention.

Reference numerals: 1. a raw material storage box; 101. a first discharge port; 2. a base; 201. a through hole; 3. a vertical plate; 4. a quantitative material conveying mechanism; 401. a quantitative material conveying shell; 402. quantitatively conveying the spheres; 403. a hemispherical material conveying groove; 404. a second discharge port; 5. sealing the material suction mixing chamber; 6. sealing the housing; 601. a convex ring; 7. 3D printing a raw material mixture; 701. a mixing housing; 702. a third discharge port; 703. a mesh plate; 704. a helical blade; 8. a first rotating shaft; 9. a first auxiliary sleeve shaft; 10. a first gear; 11. a motor shaft; 12. a motor; 13. a gear belt; 14. a second gear; 15. a second auxiliary sleeve shaft; 16. a second rotating shaft; 17. a third rotating shaft; 18. stirring blades; 19. a sealing gasket; 20. an air inlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention is described below with reference to fig. 1-5:

a proportioning and mixing device for powdered raw materials of a beverage machine, as shown in fig. 1, which is a schematic structural diagram of an embodiment of the present invention, and by using the product of the present embodiment, in cooperation with a negative pressure material suction function of a material suction mechanism (not shown in the figure), proportioning and quantitative delivery of various raw materials and uniform mixing between different ingredients can be realized. The embodiment does not describe the specific structure of the material suction mechanism too much.

This embodiment provides a powdered raw materials ratio mixing arrangement of beverage machine, including a plurality of raw materials bin 1, different powdered beverage raw materials are being stored respectively to a plurality of raw materials bin 1, and according to the selection of different taste beverages, the ratio of different beverage raw materials can change. A plurality of raw material storage boxes 1 are arranged in parallel and fixedly arranged on a base 2, and the raw material storage boxes 1 are fixed on the base 2 through screws; the base 2 is fixedly arranged on the side wall of the vertical plate 3.

The bottom of each raw material storage tank 1 is fixedly connected with a quantitative material conveying mechanism 4, and the quantitative material conveying mechanism 4 is used for quantitatively conveying beverage raw materials. Specifically, the quantitative feeding mechanism 4 comprises a quantitative feeding shell 401, and the quantitative feeding shell 401 is fixedly arranged at the bottom of the raw material storage tank 1 through bolts; the base 2 is provided with a through hole 201 for the quantitative material conveying shell 401 to pass through; therefore, the material storage tank 1 is first fixedly connected to the dosing housing 401, and then fixed to the base 2 through the through hole 201.

A quantitative material conveying ball 402 is rotatably matched in the quantitative material conveying shell 401, and specifically, a plurality of hemispherical material conveying grooves 403 are uniformly arranged on the quantitative material conveying ball 402; the first discharge hole 101 is formed in the bottom of the raw material storage tank 1, and when the material conveying sphere 402 rotates, the first discharge hole 101 is matched with the plurality of hemispherical material conveying grooves 403, so that beverage raw materials in the raw material storage tank 1 fall to the hemispherical material conveying grooves 403, and the hemispherical material conveying grooves 403 have a certain volume, so that the beverage raw materials contained in one hemispherical material conveying groove 403 are used as a matching base number. In the present embodiment, eight beverage ingredients are obtained by rotating the dosing ball 402 by one rotation, but the number of the beverage ingredients is not limited to this, and may be determined according to the number of the hemispherical feeding grooves 403 on the dosing ball 402.

In order to make the beverage material only fall into the hemispherical feeding trough 403, the inner side wall of the quantitative feeding housing 401 is just matched with the spherical surface of the quantitative feeding ball 402. Specifically, the inner side wall of the quantitative material conveying shell 401 comprises a spherical inner side wall and a cylindrical inner side wall which are arranged from top to bottom; the spherical inner side wall in this embodiment is equivalent to cutting off the upper part and the lower part of a complete spherical surface, and leaving a part in the middle. The spherical inner side wall is matched with the quantitative material conveying ball 402, and the cylindrical inner side wall forms a second discharge hole 404; the top of the quantitative material conveying sphere 402 is positioned at the outer side of the quantitative material conveying shell 401, so that the hemispherical material conveying groove 403 can be matched with the first material outlet 101, and further, the bottom side of the first material outlet 101 is matched with the spherical surface at the top of the quantitative material conveying sphere 402; the inner diameter of the cylindrical inner side wall is equal to the minimum outer diameter of the material-quantitatively-conveying sphere 402, wherein the minimum outer diameter of the material-quantitatively-conveying sphere 402 is the distance between the centers of the two most distant hemisphere-shaped material-conveying troughs 403, so that the two most distant hemisphere-shaped material-conveying troughs 403 in the material-quantitatively-conveying sphere 402 are just right placed into the spherical inner side wall from the cylindrical inner side wall, the material-quantitatively-conveying sphere 402 can rotate in the spherical inner side wall, and the material-quantitatively-conveying sphere 402 is not easy to fall out from the spherical inner side wall.

After the quantitative delivery of the hemispherical delivery chute 403, the beverage raw material is discharged, and a second discharge port 404 is disposed at the bottom of the quantitative delivery casing 401, where the second discharge port 404 is a cylindrical inner side wall. A plurality of hemispherical material conveying grooves 403 are matched with the second material outlet 404.

In the particular configuration of the dosing ball 402 that is rotatably engaged, as shown in FIGS. 2 and 3. The quantitative material conveying ball 402 is fixedly connected with a first rotating shaft 8, the first rotating shaft 8 is fixedly arranged on the quantitative material conveying shell 401 through a bearing, the first rotating shaft 8 extends to the outside of the quantitative material conveying shell 401 and is in sleeve fit with a first auxiliary sleeve shaft 9, the first auxiliary sleeve shaft 9 is provided with a clamping groove, the first rotating shaft 8 is provided with a clamping protrusion matched with the clamping groove, and the first auxiliary sleeve shaft 9 and the first rotating shaft 8 can rotate without slipping after being in sleeve fit; first gear 10 of fixed connection on the first supplementary sleeve axle 9, first supplementary sleeve axle 9 fixed connection motor shaft 11, motor shaft 11 pass through the bearing and fix the setting on riser 3, and motor shaft 11 extends to the opposite side and the fixed connection motor 12 of riser 3, and motor 12 is fixed to be set up on riser 3. To sum up, first supplementary sleeve axle 9, first gear 10, motor 12 are fixed to be set up on 3 lateral walls of riser, when needs installation raw materials bin 1, cup joint the cooperation with first supplementary sleeve axle 9 with first pivot 8 on the defeated material casing 401 of ration, unable adjustment base 2 again can to can conveniently change raw materials bin 1, guarantee that raw materials bin 1's health is healthy.

On the basis of the structure, the first gear 10 is meshed and matched with the bottom of the gear belt 13, the top of the gear belt 13 is meshed and matched with the second gear 14, and the second gear 14 rotates under the action of the gear belt 13; the second gear 14 is fixedly connected with a second auxiliary sleeve shaft 15, and one end of the second auxiliary sleeve shaft 15 is fixedly connected with one end of a second rotating shaft 16; the other end of the second rotating shaft 16 is fixedly arranged on the side wall of the vertical plate 3 through a bearing, the other end of the second auxiliary sleeve shaft 15 is sleeved and matched with a third rotating shaft 17, the second auxiliary sleeve shaft 15 is provided with a clamping groove, and the third rotating shaft 17 is provided with a clamping protrusion matched with the clamping groove, so that the second auxiliary sleeve shaft 15 and the third rotating shaft 17 can rotate after being sleeved and can not slip. Third pivot 17 passes through the bearing fixed set up on raw materials bin 1 lateral wall and extends to in the raw materials bin 1, a plurality of stirring leaves of fixed connection 18 on the third pivot 17, and a plurality of stirring leaves 18 all are in raw materials bin 1, and stirring leaf 18 is used for stirring the beverage raw materials in the raw materials bin 1. The stirring position of the stirring blade 18 may be specifically set according to actual conditions, and is generally set to a position lower than the center in the raw material storage tank 1.

The quantitative material conveying mechanism 4 penetrates through the base 2 and extends into the sealed material sucking and mixing chamber 5, and the sealed material sucking and mixing chamber 5 is a chamber with strong sealing performance. Specifically, the bottom of the base 2 is fixedly connected with a sealing shell 6, the sealing shell 6 and the base 2 form a sealing material-sucking mixing chamber 5, a plurality of air inlets 20 are fixedly arranged on the sealing shell 6 along the circumferential direction of the sealing shell, and the air inlet direction of the air inlets 20 is inclined downwards, as shown in fig. 4, which is an enlarged structural view at B in the embodiment of the invention; the bottom side of the inner side wall of the sealed shell 6 is obliquely arranged and is set as an oblique inner side wall; further, the base 2 is provided with a sealing gasket 19 at the periphery of the through hole 201, the sealing gasket 19 is in butt fit with the bottom of the raw material storage box 1, and the sealing gasket 19 can prevent an air gap between the raw material storage box 1 and the base 2. In conclusion, only the beverage material is sucked obliquely from the air inlet 20 by the negative pressure of the sucking mechanism (not shown), so that the beverage material on the oblique inner side wall in the hermetic case 6 is sucked out. The small particle agglomerates of the beverage raw materials can be dispersed by the convex rings 601 which are sequentially arranged from top to bottom on the matched inclined inner side wall. When there is no material sucking mechanism to suck the beverage material, the air inlet 20 may be disposed on the outer side wall of the sealed housing 6, and the air inlet 20 is connected to an air blowing mechanism (not shown), so as to blow out the beverage material by using the negative pressure principle.

6 bottom fixed connection 3D of seal housing prints raw materials mixture 7, and 3D prints raw materials mixture 7 and can print out through the 3D printer, and 3D prints raw materials mixture 7 and is used for the homogeneous mixing multiple beverage raw materials according to the ratio. As shown in fig. 5, which is an enlarged view of a structure at C in an embodiment of the present invention, specifically expressing a structure of the 3D printing raw material mixture 7, the 3D printing raw material mixture 7 includes a mixing shell 701, and a top of the mixing shell 701 is in threaded fit with a bottom of the sealing shell 6 through a set internal thread; a third discharge hole 702 is formed in the bottom of the mixing shell 701, and the third discharge hole 702 is connected with a material suction mechanism (not shown in the figure); a reticular plate 703 is fixedly arranged in the mixing shell 701, a plurality of screw shafts are fixedly arranged on the reticular plate 703, the screw shafts penetrate through the bottom of the sealing shell 6 and extend into the sealing shell 6, and a helical blade 704 is fixedly arranged on each screw shaft; the diameter of the mesh plate 703 is larger than or equal to the distance between two adjacent spiral shafts, so that the beverage raw materials can be prevented from being blocked. Under the negative pressure acting force of the material suction mechanism, various beverage raw materials are sucked to the 3D printing raw material mixture 7, mixed under the action of the spiral blades 704, and finally conveyed to the material suction mechanism through the mesh plate 703.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A proportioning and mixing device for powdered raw materials of a beverage machine comprises a plurality of raw material storage boxes (1), a plurality of raw material storage boxes (1) are arranged in parallel and fixedly arranged on a base (2), the base (2) is fixedly arranged on the side wall of a vertical plate (3),

the quantitative material conveying mechanism (4) is fixedly connected to the bottom of the raw material storage box (1), the quantitative material conveying mechanism (4) comprises a quantitative material conveying shell (401), a quantitative material conveying sphere (402) is matched with the quantitative material conveying sphere in the quantitative material conveying shell (401) in a rotating mode, the spherical surface of the quantitative material conveying sphere (402) is matched with the inner side wall of the quantitative material conveying shell (401), the top of the quantitative material conveying sphere (402) is located on the outer side of the quantitative material conveying shell (401), a first material outlet (101) is formed in the bottom of the raw material storage box (1), the bottom side of the first material outlet (101) is matched with the spherical surface of the top of the quantitative material conveying sphere (402), a plurality of hemispherical material conveying grooves (403) are uniformly formed in the quantitative material conveying sphere (402), the hemispherical material conveying grooves (403) are matched with the first material outlet (101), and a second material outlet (404) is formed in the bottom of the quantitative material conveying shell (401), the hemispherical material conveying grooves (403) are matched with the second material outlet (404);

the quantitative material conveying mechanism (4) penetrates through the base (2) and extends into the sealed material sucking and mixing chamber (5), the bottom of the base (2) is fixedly connected with a sealed shell (6), the sealed shell (6) and the base (2) form the sealed material sucking and mixing chamber (5), and the sealed shell (6) is fixedly provided with a plurality of air inlets (20) along the circumferential direction;

the bottom of the sealing shell (6) is fixedly connected with a 3D printing raw material mixture (7).

2. The proportioning and mixing device for powdered raw materials of a beverage maker according to claim 1, wherein the quantitatively feeding ball (402) is fixedly connected to a first rotating shaft (8), the first rotating shaft (8) is fixedly disposed on the quantitatively feeding housing (401) through a bearing, the first rotating shaft (8) extends to the outside of the quantitatively feeding housing (401) and is sleeved with a first auxiliary sleeve shaft (9), the first auxiliary sleeve shaft (9) is fixedly connected to a first gear (10), the first auxiliary sleeve shaft (9) is fixedly connected to a motor shaft (11), the motor shaft (11) is fixedly disposed on the vertical plate (3) through a bearing, the motor shaft (11) extends to the other side of the vertical plate (3) and is fixedly connected to a motor (12), and the motor (12) is fixedly disposed on the vertical plate (3).

3. The powdered raw material proportioning and mixing device of a beverage machine according to claim 2, wherein the first gear (10) is engaged with the bottom of a gear belt (13), the top of the gear belt (13) is engaged with a second gear (14), the second gear (14) is fixedly connected with a second auxiliary sleeve shaft (15), one end of the second auxiliary sleeve shaft (15) is fixedly connected with one end of a second rotating shaft (16), the other end of the second rotating shaft (16) is fixedly arranged on the side wall of the vertical plate (3) through a bearing, the other end of the second auxiliary sleeve shaft (15) is engaged with a third rotating shaft (17) in a sleeve way, the third rotating shaft (17) is fixedly arranged on the side wall of the raw material storage box (1) through a bearing and extends into the raw material storage box (1), and a plurality of stirring blades (18) are fixedly connected on the third rotating shaft (17), the stirring blades (18) are all positioned in the raw material storage box (1).

4. The powdered raw material proportioning and mixing device of a beverage machine according to claim 1, wherein the quantitative material conveying shell (401) is fixedly arranged at the bottom of the raw material storage tank (1) through bolts, the base (2) is provided with a through hole (201) for the quantitative material conveying shell (401) to pass through, a sealing gasket (19) is arranged on the periphery of the through hole (201) of the base (2), and the sealing gasket (19) is in butt fit with the bottom of the raw material storage tank (1).

5. The proportioning device for powdered raw materials for a beverage machine according to claim 1, wherein the inner sidewall of said quantitative feeding housing (401) comprises a spherical inner sidewall and a cylindrical inner sidewall, said spherical inner sidewall is adapted to said quantitative feeding ball (402), said cylindrical inner sidewall forms said second discharge hole (404), and the inner diameter of said cylindrical inner sidewall is equal to the minimum outer diameter of said quantitative feeding ball (402).

6. The powdered raw material proportioning and mixing device of a beverage machine according to claim 1, wherein the 3D printing raw material mixing body (7) comprises a mixing housing (701), the top of the mixing housing (701) is in threaded fit with the bottom of the sealing housing (6) through an internal thread, a third discharge hole (702) is arranged at the bottom of the mixing housing (701), a mesh plate (703) is fixedly arranged in the mixing housing (701), a plurality of screw shafts are fixedly arranged on the mesh plate (703), the screw shafts penetrate through the bottom of the sealing housing (6) and extend into the sealing housing (6), a screw blade (704) is fixedly arranged on the screw shafts, and the mesh diameter of the mesh plate (703) is greater than or equal to the distance between two adjacent screw shafts.

7. The powdered raw material proportioning and mixing device of a beverage machine according to claim 1, wherein the inner side wall of the sealed housing (6) is obliquely arranged near one side of the 3D printing raw material mixture body (7) and is an oblique inner side wall, a plurality of convex rings (601) are sequentially arranged on the oblique inner side wall from top to bottom, and the air inlet direction of the air inlet (20) is inclined downwards.

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