MIXING DEVICE

Abstract

The mixing device for mixing a powder with a pressurized gas, comprising a mixing chamber (20) with an inlet area (22), which has at least one inlet opening (24), by way of which powder and/or pressurized gas and/or a mixture thereof may be introduced into the mixing chamber (20), and at least one outlet area (26), which is designed for withdrawing from the mixing chamber (20) a main flow (HR) of a gas or powder or a powder and gas mixture directed along the mixing chamber (20) which essentially extends from the inlet area (22) to the outlet area (26), characterized in that a regulating device (10) is arranged along and/or in continuation of the main flow (HR), regulating the main flow (HR) of the gas or powder or powder and gas mixture.

Claims

1-17. (canceled)

18. A mixing device for mixing a powder with a pressurized gas, comprising: a mixing chamber having an inlet area and an outlet area, the mixing chamber extending therebetween, the inlet area including at least one inlet opening, by way of which at least one of a powder or pressurized gas is introducible into the mixing chamber, the outlet area being designed for withdrawing from the mixing chamber a main flow, the main flow comprising at least one of the introduced powder or pressurized gas flowing through the mixing chamber, wherein a regulating device is in fluid communication with the mixing chamber, the regulating device being configured to regulate the main flow, and wherein the mixing chamber includes at least one supporting bar extending radially outward from the surface the mixing chamber.

19. The mixing device according to claim 18, further comprising: a powder receptacle surrounding the mixing chamber; the powder receptacle hating at least one opening; and a lid enclosing the at least one opening, wherein at least the inlet area of the mixing chamber is in fluid communication with the powder receptacle.

20. The mixing device according to claim 18, further comprising: a turbulence chamber, wherein the turbulence chamber is in fluid communication with the mixing chamber and is configured to receive powder supplied from a powder receptacle.

21. The mixing device according to claim 18, wherein the outlet area is located substantially opposite to the inlet area; and wherein the regulating device has at least one regulating orifice, each of the at least one regulating orifice extending transversely to the direction of the main flow.

22. The mixing device according to claim 18, wherein the regulating device includes: a plurality of regulating orifices, the plurality of regulating orifices being designed to divide the main flow into a plurality of partial flows.

23. The mixing device according to claim 22, wherein cross sections of at least two of the plurality of regulating orifices fall within a plane transverse to the direction of the main flow in the mixing chamber, and wherein the cross sections of the at least two regulating orifices differ in cross-sectional area.

24. The mixing device according to claim 18, wherein each of the at least one inlet opening has a cross-sectional area, wherein each of the at least one regulating orifice has a cross-sectional area, and wherein the ratio of the cross-sectional area of each of the at least one inlet opening to the cross-sectional area of each of the at least one regulating orifice is >1.

25. The mixing device according to claim 18, wherein the mixing chamber includes the regulating device, and wherein the mixing chamber is conically tapered in the direction of the inlet area so that the cross sectional area of the mixing chamber at an inlet area is less than a cross sectional area of the mixing chamber at a location proximal to the regulating device.

26. The mixing device according to claim 18, wherein the mixing chamber has a length, a diameter, and a diameter in the direction of the main flow, and wherein at least one of the length, diameter, or diameter in the direction of flow is variably adaptable based on characteristics of the at least one of the Introduced powder or pressurized gas received therein.

27. The mixing device of claim 26, wherein the characteristics of the at least one of the introduced powder or pressurized gas include a particle size.

28. A mixing device, comprising: a mixing chamber having at least one inlet area, an outlet area, and a mixing area extending from the at least one inlet area to the outlet area, the mixing chamber being configured to receive at least one selected from a group consisting of a powder and a pressurized gas; a regulating device having at least one opening in fluid communication with the mixing area to regulate a flow of the at least one selected from the group consisting of the powder and the gas exiting the mixing chamber; and a turbulence chamber, wherein the turbulence chamber is in fluid communication with the mixing area and is configured to receive at least one of the powder and a gas.

29. The mixing device according to claim 20, further comprising: a powder receptacle surrounding the mixing chamber, the powder receptacle having at least one opening and a lid enclosing the at least one opening; wherein at least the inlet area of the mixing area is in fluid communication with the powder receptacle; wherein, when the at least one selected from the group consisting of the powder and the gas includes a powder; and wherein the mixing area receives the powder from powder receptacle.

30. The mixing device according to claim 29, wherein the mixing device is formed to the contiguous with the lid.

31. The mixing device according to claim 29, wherein the lid forms a portion of the turbulence chamber.

32. The mixing device of claim 28, wherein the mixing chamber further comprises: at least one supporting bar extending radially outward from the mixing chamber.

33. A mixing device, comprising: a mixing chamber having at least one inlet area, an outlet area, and a mixing area extending from the at least one inlet area to the outlet area, wherein the mixing area is formed as a conical extension, and has an axis extending from the inlet area to the outlet area, the mixing chamber being configured to receive at least one selected from a group consisting of a powder and a pressurized gas; and a regulating device having at least one opening in fluid communication with the mixing chamber to regulate the flow of the at least one selected from the group consisting of the powder and the gas exiting the mixing chamber, wherein the mixing chamber comprises at least one support bar formed on an outer surface of and extending radially outward along a first support bar axis from the surface of the mixing chamber.

34. The mixing device of claim 33, further comprising: a turbulence chamber, wherein the turbulence chamber is in fluid communication with the mixing area and is configured to receive powder supplied from a powder receptacle.

35. The mixing device according to claim 34, wherein the powder receptacle surrounds the mixing area, and wherein the powder receptacle has at least one opening, the nixing device further comprises: a lid enclosing one of the at least one opening, wherein at least the inlet area of the mixing chamber is in fluid communication with the powder receptacle.

36. The mixing device according to claim 35, wherein the powder receptacle further comprises: at least one gas inlet, through which a pressurized gas is introduced into the powder receptacle and the turbulence chamber; wherein the at least one of the powder and gas mixture is withdrawn from the powder receptacle and the turbulence chamber through at least one outlet opening.

37. The mixing device according to claim 36, further comprising: a plurality of regulating orifices, wherein each regulating orifice has a first central axis and the outlet opening has a second central axis that intersects the first central axis, wherein both the first and second axis extend in a direction that is transverse with the axis of the mixing chamber and at least one first axis of one of the plurality of regulating orifices forms an angle () with respect to the second axis.

Description

[0034] Further advantages and characteristics of the invention will arise from the following description of preferred embodiments of the mixing device of the invention, of the powder container of the invention, of the lid of the invention, of the insert of the invention and the process of the invention for mixing powder and gas wherein reference is made to the accompanying figures. Individual characteristics of the individual embodiments may be combined with each other within the scope of the invention, wherein:

[0035] FIG. 1: shows a sectional view of a preferred embodiment of a mixing device;

[0036] FIG. 2: shows a top view of a preferred embodiment of a mixing device or insert, respectively;

[0037] FIG. 3: shows a sectional view of a preferred embodiment of a lid with a mixing device;

[0038] FIG. 4: shows a sectional view of another preferred embodiment of a lid with a mixing device;

[0039] FIG. 5: shows a sectional view of a preferred embodiment of a powder container;

[0040] FIG. 6: shows a preferred embodiment of an insert with a mixing device.

[0041] FIG. 1 shows a preferred embodiment of a mixing device, which comprises a mixing chamber 20 and a regulating device 10. There is shown a main flow HR extending from an inlet area 22 in the direction of an outlet area 26 of the mixing chamber 20. The regulating device 10, which comprises two regulating orifices 28, as it is represented in the sectional view shown in FIG. 1, is arranged downstream of the main flow HR. The inlet area 22 of the mixing chamber 20 has an inlet opening 24. The regulating device 10 is limited by a wall 21, as viewed along the main flow HR. In preferred embodiments the wall 21 is arranged essentially transversely to the main flow HR in the mixing chamber 20, so that the main flow HR is virtually redirected, virtually exiting the regulating device 10 as partial flows TR through the regulating orifices 28 transversely to the main flow HR.

[0042] FIG. 2 shows a top view of a preferred embodiment of a mixing device of insert 60, respectively. Insert 60 comprises three supporting bars 41, which are arranged on a mixing chamber 20. In this representation in FIG. 2 the mixing chamber 20 may not explicitly be seen and is hence not provided with any reference numbers. Three partial flows TR exiting the regulating device 10 through the three regulating orifices 28 are shown in outline view. Especially interesting is a positioning or arrangement, respectively, of an outlet opening 48 in relation to the regulating orifices 28 or supporting bars 41, respectively. Each of the regulating orifices 28 is offset to the supporting bars 41 by an angle . In preferred embodiments the angle is about 10-30, preferably about 20. As viewed in a clockwise direction, the first regulating orifice 28 is arranged in relation to the outlet opening 48 in an angle , which, in preferred embodiments, is about 60 to 100, preferably about 80. The outlet opening 28 which, in a counterclockwise direction, is first arranged in relation to the outlet opening 48, is arranged in an angle . In preferred embodiments the angle is about 20 to 60, preferably about 40. The regulating orifice 28 which virtually is arranged opposite to the outlet opening 48 is arranged in an angle of about 140-180, preferably about 160 to the outlet opening 48, as viewed in a counterclockwise direction.

[0043] FIG. 3 shows a preferred embodiment of a mixing device, which is formed as a part of a lid 80 of a powder container. Subsequent to the regulating device 10, virtually distant of lid 80, there is a mixing chamber 20, which has an inlet area 22. The main flow HR is directed from the inlet area 22 in the direction of the outlet area 26 or the lid 80, respectively. The main flow HR will be regulated by way of two regulating orifices 28 and is withdrawn from the mixing chamber 20 or regulating device 10, respectively, as two partial flows TR.

[0044] FIG. 4 shows a preferred embodiment of a mixing device or lid 80, respectively. A regulating device 10 is arranged on the lid 80 or is integrally connected to the lid 80, respectively. A mixing chamber 20 partially protrudes into the regulating device 10. In the preferred embodiment, as represented, the mixing chamber 20 is not integrally formed with the regulating device 10. The regulating device 10 has two regulating orifices 28. In the region of the outlet area 26 of the mixing chamber 20 overlapping of the regulating device 10 and the mixing chamber 20 occurs. Due to this overlapping an annular gap will form between the regulating device 10 and the mixing chamber 20, by way of which a partial flow TR of a powder or gas or mixture thereof could also be withdrawn.

[0045] FIG. 5 shows a preferred embodiment of a powder container 40. A powder receptacle 42 is arranged in the powder container 40. An insert 60, in turn, which in the preferred embodiment, as represented, has at least two supporting bars 41, is arranged in the powder receptacle 42. The insert 60 comprises a mixing chamber 20 with an inlet area 22. As clearly can be seen, a gas entry 44, which has a nozzle 45, is offsetly arranged or is arranged in a nozzle distance d, respectively, in the direction of the inlet area 22 or inlet opening 24, respectively. This distance advantageously is less than 15 mm, preferably less than 10 mm, especially preferably less than 5 mm.

[0046] Above the insert 60 or in continuation of the powder receptacle 42, respectively, a lid 80 is arranged, forming a turbulence chamber 46 with the insert 60 or regulating device 10, respectively. A main flow HR will be introduced into the turbulence chamber 46 through a regulating orifice 28 (or a multitude of partial flows TR will be introduced through multiple regulating orifices 28, respectively). Herein the regulating device 10 is arranged in an outlet area 26 of the mixing chamber 20. At the right portion of the mixing chamber 20 an outlet opening 48 is arranged, which serves for the withdrawal of the main flow HR, in this case of the powder and gas mixture, to the bottom.

[0047] FIG. 6 shows a preferred embodiment of an insert 60 in a perspective representation. The insert 60 comprises a mixing chamber 20, which has an inlet area 22 with an inlet opening 24. Opposite to the inlet area 22 the mixing chamber 20 has an outlet area 26, wherein the regulating device 10 is arranged in the outlet area 26. The regulating device 10 comprises at least one regulating orifice 28 and a wall 21. In the embodiment preferably represented in FIG. 6, the insert 60 comprises three apertures 49, which in the preferred embodiment may be arranged in front of an outlet opening 48. The apertures 49 are components of a ring (without reference number), which in the preferred embodiment of the insert 60, as represented, is arranged on the mixing chamber 20 by way of three supporting bars 41.

LIST OF REFERENCE NUMBERS

[0048] 10 regulating device

[0049] 20 mixing chamber

[0050] 21 wall

[0051] 22 inlet area

[0052] 24 inlet opening

[0053] 26 outlet area

[0054] 28 regulating orifice

[0055] 40 powder container

[0056] 41 supporting bar

[0057] 42 powder receptacle

[0058] 44 gas entry

[0059] 45 nozzle

[0060] 46 turbulence chamber

[0061] 48 outlet opening

[0062] 49 aperture

[0063] 60 insert

[0064] 80 lid

[0065] , , angle

[0066] HR main flow

[0067] TR partial flow

[0068] d nozzle distance