Blenders
Abstract
The invention relates to a material transfer device ( 1 ), in particular for use with blenders associated with a material processing device such as a plastics extruding device. The material transfer device ( 1 ) can be used for controlling delivery of measured amounts of particulate material to or from a weigh hopper, or for mixing materials in a mixing chamber of the blender. The material transfer device ( 1 ) includes a pipe ( 2 ) defining a material delivery path. The pipe ( 2 ) has a material inlet ( 4 ) and a material outlet ( 5 ). An air inlet manifold ( 10 ) encircling the pipe ( 2 ) is connected by an air supply line ( 14 ) to a pressurised air supply. Air outlets ( 12 ) of the manifold ( 10 ) direct an air stream towards the outlet ( 5 ) of the pipe ( 2 ) to draw material through the pipe ( 2 ) from a hopper ( 6 ) of particulate material ( 7 ), the pipe inlet ( 4 ) being located within the hopper ( 6 ). An air inlet valve ( 16 ) in the air supply line ( 14 ) is connected to a controller ( 22 ) which is operable to open an shut the valve ( 16 ) for pulsing the gas stream to control the amount of material delivered through the pipe ( 2 ).
Claims
exact text as granted — not AI-modified1 . A material transfer device, including:
a pipe defining a material delivery path, the pipe having a material inlet and a material discharge outlet, means for delivering a gas stream along the material delivery path directed towards the outlet, control means for controlling the gas stream for controlling delivery of material through the pipe, said control means made operable for pulsing the gas stream for controlling delivery of material through the pipe.
2 . (canceled)
3 . The material transfer device as claimed in claim 1 wherein said control means is a gas inlet valve connected to a controller which is operable to open and shut the valve for desired time periods.
4 . The material transfer device as claimed in claim 1 wherein the gas control means includes means for regulating the pressure of the gas.
5 . The material transfer device as claimed in claim 3 wherein said means comprises a pressure regulator mounted upstream of the gas inlet valve.
6 . The material transfer device as claimed in claim 1 wherein the gas control means includes means for regulating gas flow rate.
7 . The material transfer device as claimed in claim 1 including means for delivering an annular gas steam into the pipe.
8 . The material transfer device as claimed in claim 7 wherein the means for delivering an annular gas stream into the pipe comprises a gas inlet manifold extending about the pipe having an inlet for connection to a pressurised gas supply and an outlet communicating with the material delivery path.
9 . The material transfer device as claimed in claim 8 wherein the outlet includes a number of circumferentially spaced-apart outlet openings extending through the pipe and arranged to direct gas towards the outlet of the pipe.
10 . The material transfer device as claimed in claim 8 wherein the outlet of the means for delivering the annular gas stream into the pipe is located intermediate the ends of the pipe for delivering the gas stream into the pipe directed towards the outlet of the pipe.
11 . The material transfer device as claimed in claim 1 wherein the means for delivering a gas stream along the material delivery path has a gas outlet angled relative to the pipe to direct a gas stream into the pipe towards the outlet of the pipe.
12 . The material transfer device as claimed in claim 1 in combination with a weighing device with either the inlet or the outlet of the pipe being connected to an outlet or an inlet respectively of the weighing device.
13 . A mixing device incorporating a material transfer device and an associated mixing chamber, a material transfer device including a pipe defining a material delivery path, the pipe having a material inlet and a material discharge outlet, means for delivering a gas stream along the material delivery path directed towards the outlet to deliver material between the inlet and the outlet, the outlet of the pipe being located adjacent and spaced-apart from a deflector baffle within the mixing chamber for scattering material discharged from the pipe within the mixing chamber.
14 . The mixing device as claimed in claim 13 including a mixing chamber with the material transfer device having an inlet of the pipe located adjacent a bottom of the mixing chamber and an outlet of the pipe located above the inlet for directing material from the pipe outlet against a deflector baffle for discharge into the mixing chamber.
15 . The mixing device as claimed in claim 13 wherein the material transfer device is located within the mixing chamber.
16 . The mixing device as claimed in claim 15 wherein the pipe of the material transfer device is mounted centrally in an upright orientation within the mixing chamber.
17 . The mixing device as claimed in claim 15 wherein the deflector baffle is of arcuate shape for deflecting material discharged from the outlet of the pipe outwardly and downwardly towards the inlet of the pipe.
18 - 21 . (canceled)
22 . A blending apparatus for controlled delivery of blend additives to a material processing device, including:
a primary additive feed hopper, at least one secondary additive feed hopper, an additive discharge chute having an outlet for connection to the material processing device, the primary additive feed hopper being mounted above the additive discharge chute for continuous gravity feed of additive material thereto, a secondary feeding means being connected between each secondary feed hopper and the additives discharge chute for delivery of feed additives from the secondary feed hopper to the additives discharge chute, means for sensing the throughput of material in the material processing device, means for sensing the discharge of additives from the feed hoppers, a controller adapted to be connected to the means for sensing the throughput of the material processing device and to the means for sensing the discharge of additives from the feed hoppers, the controller including means for regulating the throughput of material through the material processing device in response to the sensed discharge of material from the feed hoppers, the secondary feeding means comprising a material transfer device including a pipe defining a material delivery path, the pipe having a material inlet and a material discharge outlet, means for delivery of a gas stream along the material delivery path directed towards the outlet to deliver material between the inlet and the outlet, the inlet being connected to the secondary feed hopper and the outlet discharging into the additives discharge chute.
23 - 26 . (canceled)
27 . A blending apparatus incorporating the material transfer device as claimed in claim 1 .
28 . The blending apparatus as claimed in claim 27 for mixing particulate materials prior to discharge into a process line, said blending apparatus incorporating a mixing device as claimed in claim 13 , the blending apparatus including a mixing chamber, mixing means for mixing additive materials within the mixing chamber, wherein said mixing means comprises the material transfer device having the inlet of the material transfer device communicating with a bottom of the mixing chamber and the outlet of the material transfer device communicating with the top of the mixing chamber.
29 . The blending apparatus as claimed in claim 28 further including a weight topper having an outlet arranged to discharge material from the weigh hopper to the mixing chamber, at least one raw material supply bin, a material transfer device mounted at an outlet of the material supply bin being operatively connected to a controller to regular discharge of material from the bin to the weigh hopper or to be the mixing chamber.Join the waitlist — get patent alerts
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