초록 ▼

A material blender and method for blending a plurality of ingredient materials to make a single heterogeneous material. The material blender may comprise a blending apparatus, a control system, and a pneumatic delivery system. The pneumatic delivery system may comprise a plurality of conduits each p

A material blender and method for blending a plurality of ingredient materials to make a single heterogeneous material. The material blender may comprise a blending apparatus, a control system, and a pneumatic delivery system. The pneumatic delivery system may comprise a plurality of conduits each provided with a pneumatic flow therethrough to pneumatically convey one of the ingredient materials to the blending apparatus. The delivery system may also comprise one or more valves configured to independently vary the pneumatic flow through one of the conduits. The control system may be configured to provide signals to the valves, commanding the valves to oscillate between varying degrees of openness based on a desired percentage or ratio of each of the ingredient materials to be output to the blending apparatus. The control system may calculate signals to send to the valves based on stored calibration information.

대표청구항 ▼

1. A method for automated blending of a plurality of ingredient materials, including at least a first ingredient material and a second ingredient material, to produce a single heterogeneous material, the method comprising the steps of: receiving or accessing, with a control system, at least one valu

1. A method for automated blending of a plurality of ingredient materials, including at least a first ingredient material and a second ingredient material, to produce a single heterogeneous material, the method comprising the steps of: receiving or accessing, with a control system, at least one value corresponding to at least one of a desired weight ratio of the first ingredient material and a desired weight ratio of the second ingredient material to be blended;pneumatically conveying the first ingredient material to a blending apparatus at a substantially constant rate via an air or gas pressure source fluidly coupled with a first pneumatic accelerator or first venturi device configured for pulling the first ingredient material into a first conduit fluidly coupled with the blending apparatus;sending a signal to a servo valve commanding the servo valve to oscillate at a rate corresponding to the desired weight ratio of the second ingredient, wherein the servo valve is fluidly coupled with the air or gas pressure source and a second pneumatic accelerator or second venturi device configured for puling the second ingredient material into a second conduit fluidly coupled with the blending apparatus; andpneumatically conveying the second ingredient material to the blending apparatus while oscillating a pneumatic gas or air flow therein by oscillating the servo valve at the rate corresponding to the desired weight ratio of the second ingredient. 2. The method of claim 1, wherein the oscillating of the servo valve includes oscillating the servo valve between differing degrees of partial openness. 3. The method of claim 1, wherein oscillating the servo valve includes oscillating an electro pneumatic servo valve. 4. The method of claim 1, further comprising calibrating the control system by receiving and storing therein values associated with weights of each of the ingredient materials individually output during a set amount of time when pneumatically conveyed: without oscillating the servo valve, while oscillating the servo valve by a first amount, and while oscillating the servo valve by a second amount. 5. The method of claim 4, further comprising determining, with the control system, the amount of oscillation of the servo valve required to output an amount of the second ingredient material corresponding to the desired weight ratio based on the weights of the second ingredient material received during the step of calibrating the control system. 6. The method of claim 1, wherein the steps of pneumatically conveying the first and second ingredient materials further comprises pneumatically conveying the first and second ingredient materials in the form of dry granulated or pelletized material to the blending apparatus. 7. The method of claim 1, further comprising providing air or gas flow from the air or gas pressure source at a continuous rate to a first inlet of a crossover electromechanical component and providing oscillating air or gas flow via the servo valve to a second inlet of the crossover electromechanical component, wherein a first outlet of the crossover electromechanical component is fluidly coupled with the first pneumatic accelerator or first venturi device and a second outlet of the crossover electromechanical component is fluidly coupled with the second pneumatic accelerator or second venturi device, wherein the crossover electromechanical component is actuatable between a first position, in which air or gas flowing at the continuous rate into the first inlet is output through the first outlet and oscillating air or gas flowing into the second inlet is output through the second outlet, and a second position in which air or gas flowing at the continuous rate into the first inlet is output through the second outlet and oscillating air or gas flowing into the second inlet is output through the first outlet, the method further comprising actuating the crossover electromechanical component from the first position to the second position automatically depending on the desired weight ratios of the first ingredient material and the second ingredient material. 8. The method of claim 1, further comprising the steps of: receiving a value, with the control system, corresponding to an actual amount or ratio of the first or second ingredient material pneumatically conveyed to the blending apparatus;comparing, with the control system, the actual amount or ratio to a desired amount or the desired weight ratio of the first or second ingredient material; andadjusting, with the control system, the rate of oscillating servo valve if the actual amount or ratio is not within a tolerance range of the desired amount or the desired weight ratio. 9. A method for automated blending of a plurality of ingredient materials, including at least a first ingredient material and a second ingredient material, to produce a single heterogeneous material, the method comprising the steps of: receiving or accessing, with a control system, at least one value corresponding to at least one of a desired weight ratio of the first ingredient material and a desired weight ratio of the second ingredient material to be blended;pneumatically conveying the first ingredient material to a blending apparatus at a substantially constant rate by fluidly coupling an air or gas pressure source with a first pneumatic accelerator or first venturi device configured for pulling the first ingredient material into a first conduit fluidly coupled with a first one of a plurality of inlets of the blending apparatus, wherein each of the inlets of the blending apparatus are formed at tangential, non-radial, or non- perpendicular angles relative to the blending apparatus, such that air or gas forced through the inlets create a cyclone-like flow within the blending apparatus; andpneumatically conveying the second ingredient material to a second one of the plurality of inlets of the blending apparatus while oscillating a pneumatic gas or air flow therein by oscillating an electro pneumatic servo valve between an open or partially open position and a partially closed position at a rate corresponding to the desired weight ratio of the second ingredient, wherein the electro pneumatic servo valve is fluidly coupled with the air or gas pressure source and a second pneumatic accelerator or second venturi device configured for puling the second ingredient material into a second conduit fluidly coupled with the second one of the plurality of inlets of the blending apparatus. 10. The method of claim 9, further comprising calibrating the control system by receiving and storing therein values associated with weights of each of the ingredient materials individually output during a set amount of time when pneumatically conveyed: without oscillating the pneumatic flow, while oscillating the pneumatic flow by a first amount, and while oscillating the pneumatic flow by a second amount.