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A mixing system employing a rotary blade mixing assembly designed to mix liquid-like, resinous powders with a particulate tinting agent or other additive to produce a uniform, homogeneous powder is disclosed. The mixing system includes a mixing container that may be inverted up to 180° and includes

A mixing system employing a rotary blade mixing assembly designed to mix liquid-like, resinous powders with a particulate tinting agent or other additive to produce a uniform, homogeneous powder is disclosed. The mixing system includes a mixing container that may be inverted up to 180° and includes a rotary blade mixing assembly having at least two sets of mixing blades connected to a central shaft and arranged in parallel planes, each set having at least two mixing blades which are connected to the central shaft. Each blade is pitched at an angle to about 20° to about 45° from horizontal as measured following a 180° inversion of the mixing container. Use of the method of the invention is advantageous when uniform color of the final coating powder is desired. The method comprises utilizing the above-mentioned mixing container to hold at least two powders, placing a mixing head containing the above-mentioned rotary blade mixing assembly in the container in sealed relationship, inverting the mixing container while commencing rotation of the mixing blades, and mixing the powders with a blade tip speed of from about 1,000 ft/min to about 5,000 ft/min to cause the powders to be lifted along the container side walls and fall down a central portion of the container. The mixing container is then returned to its original position.

대표청구항 ▼

1. A mixing system comprising: (a) An assembly for holding a mixing container, said assembly having means for inverting said mixing container up to about 180°, said assembly having a mixing head containing a rotary blade mixing assembly which is connected to a shaft, said rotary blade mixing assembl

1. A mixing system comprising: (a) An assembly for holding a mixing container, said assembly having means for inverting said mixing container up to about 180°, said assembly having a mixing head containing a rotary blade mixing assembly which is connected to a shaft, said rotary blade mixing assembly having at least two sets of mixing blades connected to a central shaft and arranged in parallel planes, each set having at least two mixing blades which are connected to said central shaft, and each blade pitched at an angle from about 20° to about 45° from horizontal as measured following a 180° inversion of said mixing container; (b) A mixing container for containing materials to be mixed having a closed bottom portion, an open upper portion, and sidewalls and being held in a generally upright position by said assembly, said upper portion of said mixing container being in sealed relationship with said mixing head in a manner that said rotary blade mixing assembly extends into an upper portion of said mixing container; and (c) Power means connected to said mixing head shaft to cause rotation of said shaft thereby causing rotation of said mixing blades. 2. The mixing system of claim 1, wherein said rotary blade mixing assembly comprises two sets of mixing blades with each set having three blades. 3. The mixing system of claim 1, wherein said blades are pitched at an angle from about 25° to about 40°. 4. A method of mixing powders, comprising: (a) Providing a mixing container having a closed bottom portion, an open top portion, and sidewalls which contains at least two powders in an amount that does not extend to the top of said container thereby creating a space at the top of said powders; (b) Holding said mixing container in an upright position in an assembly and placing a mixing head contained in said assembly in sealed relationship with said open top portion of said mixing container, said mixing head having a rotary blade mixing assembly comprising at least two sets of mixing blades connected to a central shaft and arranged in parallel planes, each set having at least two mixing blades which are connected to said central shaft, and each blade pitched at an angle from about 20° to about 45° from horizontal as measured following a 180° inversion of said mixing container, said rotary blade mixing assembly extending into said space in said mixing container; (c) Commencing rotation of said mixing blades in said space; (d) inverting said mixing container while said mixing blades are rotating to cause said powders to fall to the former top portion of said mixing container, (e) Rotating said mixing blades at a blade tip speed from about 1000 ft/min to about 5000 ft/min to cause said powders to be lifted along said mixing container sidewalls and then to fall down along a central portion of said mixing container thereby obtaining a uniform, homogeneous powder mixture; (f) Counter inverting said mixing container to its original position; and (g) Removing said mixing container from said assembly. 5. The method of claim 4, wherein said rotary blade mixing assembly comprises two sets of mixing blades with each set having three blades. 6. The method of claim 4, wherein said blades are pitched at an angle from about 25° to about 40°. 7. The method of claim 4, wherein said blade tip speed is from about 3000 ft/mm to about 3500 ft/mm. 8. The method of claim 4, wherein one of said powders is a resinous base composition having a melt viscosity from about 2 Pa·s to about 85 Pa·s. 9. The method of claim 8, wherein said melt viscosity is from about 10 Pa·s to about 50 Pa·s. 10. The method of claim 8, wherein said resinous base composition is mixed with a particulate tinting agent. 11. The method of claim 8, wherein said resinous base composition is mixed with a particulate additive.