US3222491A - Apparatus for continuous drying of powdery or granular materials in a highfrequency field - Google Patents

Apparatus for continuous drying of powdery or granular materials in a highfrequency field Download PDF

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US3222491A
US3222491A US230203A US23020362A US3222491A US 3222491 A US3222491 A US 3222491A US 230203 A US230203 A US 230203A US 23020362 A US23020362 A US 23020362A US 3222491 A US3222491 A US 3222491A
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tube
dried
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longitudinal axis
high frequency
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Schmid Hans
Feldhoff Heinrich
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BASF SE
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B11/00Machines or apparatus for drying solid materials or objects with movement which is non-progressive
    • F26B11/02Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles
    • F26B11/04Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles rotating about a horizontal or slightly-inclined axis
    • F26B11/0495Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles rotating about a horizontal or slightly-inclined axis with provisions for drying by electro-magnetic means, e.g. radiation, microwaves

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  • This invention relates in general to high frequency drying equipment. More specifically, the invention relates to a tubular dryer comprising a tube made of insulating material, a feeder drum connected to and rotated with the tube, and adjustable electrodes.
  • the electrodes are capable of being inclined independently from each other with respect to the axis of rotation of the tube, so that the material to be dried can be treated intermittently Without the electric data of the high-freqeuncy generator having to be changed.
  • the inclination and speed of the rotating tube may be regulatable in order to adjust the'rate of flow of the material to be treated.
  • a feeder drum is provided which is fitted with baffles which make possiblea sufficiently uniform charging of the rotating tube.
  • FIGURE 1 is a diagrammatic elevation of one embodiment of apparatus according to this invention
  • FIGURE 2 shows diagrammatic sectional elevations of tubes and electrodes
  • FIGURE 3 is a diagrammatic elevation of part of a second embodiment of apparatus according to this invention.
  • the treatment chamber for the material to be dried consists of a circular tube 1.
  • the tube extends through apertures in two bearing plates 2 and 2 and is rotatably 3,222,491 Patented Dec. 7, 1965 mounted at the points of support, preferably in roller bearings.
  • the bearing plates 2 and 2 are in turn secured to a frame 3 suspended at one end from a hinge 4.
  • the other end of the frame is supported on a threaded spindle 5 to allow for raising and lowering the delivery end of the tube I mounted above the frame 3.
  • the tube 1 may be brought from the horizontal position into any inclined position within a range of about 0 to 15 so that the flow rate of the material being dried in the tube may be varied.
  • the feed-in end of the tube 1 carries a feeder drum 8 having a larger diameter than the tube 1 and consisting substantially of two superposed conical casings.
  • the free end of an inlet chute 9 of a hopper 9' projects into the outer free opening of the feeder drum 8 and feeds the material to be treated to the tube 1.
  • baflles 10 may be made with or without interruptions and lie on generating lines of the tube parallel to the axis of rotation or inclined thereto. In the latter case, the bafiles may be arranged in spiral fashion.
  • the baflles 10 may be integral therewith; in other cases they may be secured subsequently.
  • fillets preferably inclined, or curved blades 11, which serve to agitate the material to be treated and feed it positively, and are arranged and shaped like the blades in the drum of a concrete mixing machine. It is also advantageous to line the inner face of the tube 1 and the feeder drum 8 including the bafiles 10 and the fillets or blades 11 with a polytetrafluoroethylene sheet or a compound sheet of glass fiber reinforced polytetrafluoroethylene. The moist material to be treated then has less tendency to adhere to the inner face of the feeder drum and the treatment chamber. It is then agitated and conveyed better and more completely. Instead of lining the feed and treatment sections for the moist material, it is also possible to apply polytetrafiuoroethylene coating.
  • FIGURES 2 and 3 The arrangement of the electrodes 12 for producing the high freqeuncy field at the rotating tube 1 is shown in FIGURES 2 and 3.
  • the electrodes 12 are spaced from the outer surface of the tube by a distance x and curved according to the diameter of the tube. They are supported at both ends by arms 13 of insulating material which can be screwed to the bearing plates 2 and 2' at any angular position and distance from each other by means of a multiplicity of tapped holes in the bearing plates 2 and 2'.
  • Three different angular positions of the electrodes 12 which produce different drying effects and different electrical field strengths in the treatment zone are shown at a, b and c in FIGURE 2.
  • the electrodes may furthermore be adjusted to any other angular position relative to the axis of rotation of the tube 1 in an approximate range of 30 to
  • the arms 13 carrying the electrodes 12 may also be so connected with the bearing plates 2 and 2 that the distance x between the electrodes and the outer surface of the tube 1 may be varied within certain limits.
  • the tube used was a glass fiber reinforced polyester tube having a length of 3000 mm., a diameter of 280 mm. and a Wall thickness of 1 mm.
  • the inside of this tube was provided with four baflles having rectangular cross-section of 2 x 60 mm.
  • the tube was rotated at a speed of about 40 to 50 r.p.m. between two plate electrodes each having a surface area of 200 x 2000 mm., the plates being slightly curved in cross-section.
  • the space between the electrodes at the diametrie position with respect to the axis of rotation was 320mm.
  • a suction fan 14 was provided at the delivery end of the tube, the fan having the following performance data: air throughput 200 m. /hour, pressure 200 mm. water column.
  • a high frequency drying plant which comprises a tubular dryer according to this invention as its essential part also comprises the following other parts.
  • the delivery end of the tube 1 is located above a receptacle for the dried material.
  • the suction fan 14 for withdrawing steam and maintaining a slightly reduced pressure in the treatment zone it is also possible to provide at the top of the receptacle 15 a cyclone 16 or a similar separator which advantageously forms a single unit with the fan 14 (FIGURE 1). In this way, any material treated in the high frequency drying zone which is sucked away with the mixture of steam and air is collected in the separator. This feature is especially advantageous when the materials to be dried are dusty and toxic.
  • FIGURE 3 shows diagrammatically another arrangement at the delivery end of the tube 1.
  • the lower end of this separator 18 is in communication through a rotary air lock 20 with a receptacle 19.
  • the fan 14 in this case is again attached to the upper end of the receptacle 15 and provided with a separator 16.
  • Air sucked in by blower 17 to convey the material is not withdrawn from the tube 1 in this case, but is drawn in from the atmosphere through the funnel 17 so that the discharged material is cooled at the same time.
  • heat sensitive material which must be free from conglomerates when processed further, may be discharged and bagged direct from the storage container 19.
  • a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a hori zontal to an inclined position for rotation about its longitudinal axis; means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about to 180 with reference to the longitudinal axis of rotation of said tube.
  • a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
  • a feeder drum rotatably mounted around said longitudinal axis in conjunction with said tube and formed substantially as a double truncated cone tapering outwardly from the inlet end of said cylindrical tube to the superimposed bases of the double cone, which bases have a diameter larger than the diameter of said tube, and then tapering inwardly to provide a feed opening in said drum, said drum being provided 'with projecting bafiies on the inner surface thereof running obliquely to the axis of said drum and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said roating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to with reference to the longitudinal axis of rotation of said tube.
  • a drying and conveying cylindrical tube essentially composed of insulating material and mounted for rotation about its longitudinal axis in plates attached to a supporting frame, said frame being hinged at one end for movement of said tube from a horizontal to inclined position;
  • a pair of opposing high frequency electrodes adjustably mounted at either end to said plates in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube and also such that said electrodes can be adjustably disposed at varying distances from the outer circumferential surface of said tube,
  • a drying and conveying cylindrical tube essentially composed of a glass fiber reinforced unsaturated polyester resin as an insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube.
  • Apparatus for the continuous drying of a povvdery or granular material in a high frequency field comprising: a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube.
  • Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising: a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
  • feeder drum of greater diameter than said tube and provided with baffies on the inner surface thereof, said drum being rotatably mounted around said longitudinal axis in conjunction With said tube and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
  • a lining on the inner surfaces of said tube and said drum composed of glass fiber reinforced polytetrafluoroethylene;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to with reference to the longitudinal axis of rotation of said tube.
  • a drying and conveying cylindrical tu'be essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
  • a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube and also such that said electrodes can be adjustably disposed at varying distances from the outer circumferential surface of said tube.

Description

Dec. 7, 1965 H. SCHMID ETAL 3,
APPARATUS FOR CONTINUOUS DRYING OF POWDERY OR GRANULAR MATERIALS IN A HIGH-FREQUENCY FIELD Filed Oct. 12, 1962 INVENTORS: HA N 5 SC H M l D H INRICH FELDHOFF M74117 1 L i ATT'YS V United States Patent Germany Filed Oct. 12, 1962, Ser. No. 230,203 Claims priority, application Germany, Oct. 17, 1961,
7 Claims. 01. 21910.65)
This invention relates in general to high frequency drying equipment. More specifically, the invention relates to a tubular dryer comprising a tube made of insulating material, a feeder drum connected to and rotated with the tube, and adjustable electrodes.
It is already known to introduce finely granular to powdery materials continuously or batchwise into a high frequency field which is present in a closed treatment chamber or above a moving belt. It is only possible however to dry satisfactory finely granular material having a moisture content of less than 1 to 3% in thin layers because it is not possible sufiiciently to agitate the material and at the same time to draw off the evaporated moisture sufliciently completely.
Batchwise chamber drying is not suitable for large amounts of material. In continuous belt-type dryers additional equipment, such as vanes or agitating means, is necessary for example to turn the material over repeatedly. The high technical expenditure, and also the means and measures necessary for controlling the belt movement and the throughput, as well as for shielding the dust, have hitherto prevented wide application of belt-type high frequency dryers. Furthermore belt-type drying plants can usually only be constructed as stationary plants. This means that they cannot be rapidly made available at centres of a diverse production, especially of chemical substances.
We have now found that the high frequency drying of moist powdery or granular materials having a moisture content of up to 50% can be carried out with low expenditure but nevertheless with high throughput capacity in relation to the power requirement, down to residual moisture contents of 0.1% or less by using as the treatment chamber a tube of insulating material which is horizontal or slightly inclined and which rotates between the high frequency electrodes and through which the material to be dried can be passed in a constant direction.
According to a further feature of the invention, the electrodes are capable of being inclined independently from each other with respect to the axis of rotation of the tube, so that the material to be dried can be treated intermittently Without the electric data of the high-freqeuncy generator having to be changed. The inclination and speed of the rotating tube may be regulatable in order to adjust the'rate of flow of the material to be treated. For feeding the material a feeder drum is provided which is fitted with baffles which make possiblea sufficiently uniform charging of the rotating tube.
Further features of the invention will be evident from the following description given with reference to the accompanying drawings, in which FIGURE 1 is a diagrammatic elevation of one embodiment of apparatus according to this invention, FIGURE 2 shows diagrammatic sectional elevations of tubes and electrodes, and FIGURE 3 is a diagrammatic elevation of part of a second embodiment of apparatus according to this invention.
The treatment chamber for the material to be dried consists of a circular tube 1. The tube extends through apertures in two bearing plates 2 and 2 and is rotatably 3,222,491 Patented Dec. 7, 1965 mounted at the points of support, preferably in roller bearings. The bearing plates 2 and 2 are in turn secured to a frame 3 suspended at one end from a hinge 4. The other end of the frame is supported on a threaded spindle 5 to allow for raising and lowering the delivery end of the tube I mounted above the frame 3. By turning the spindle 5, the tube 1 may be brought from the horizontal position into any inclined position within a range of about 0 to 15 so that the flow rate of the material being dried in the tube may be varied. Mounted on the frame 3 is a motor 6 whose shaft effects rotation of the tube 1 through a belt 7 and pulley 7. Motor 6 may be provided with means for continuous variation of speed so that the flow rate of the material being treated may also be varied by means of this variable speed. The feed-in end of the tube 1 carries a feeder drum 8 having a larger diameter than the tube 1 and consisting substantially of two superposed conical casings. The free end of an inlet chute 9 of a hopper 9' projects into the outer free opening of the feeder drum 8 and feeds the material to be treated to the tube 1.
A mixture of polyester and glass fibers has proved particularly suitable as the insulating material. To ensure intense mixing and agitation of the material in the tube 1, it is advantageous to provide baflles 10 on the inner face of the tube. The baflles 10 may be made with or without interruptions and lie on generating lines of the tube parallel to the axis of rotation or inclined thereto. In the latter case, the bafiles may be arranged in spiral fashion. When the tube 1 is prepared from a mixture of polyester and glass fibers, the baflles 10 may be integral therewith; in other cases they may be secured subsequently. Provided inside the feeder drum 8 are fillets, preferably inclined, or curved blades 11, which serve to agitate the material to be treated and feed it positively, and are arranged and shaped like the blades in the drum of a concrete mixing machine. It is also advantageous to line the inner face of the tube 1 and the feeder drum 8 including the bafiles 10 and the fillets or blades 11 with a polytetrafluoroethylene sheet or a compound sheet of glass fiber reinforced polytetrafluoroethylene. The moist material to be treated then has less tendency to adhere to the inner face of the feeder drum and the treatment chamber. It is then agitated and conveyed better and more completely. Instead of lining the feed and treatment sections for the moist material, it is also possible to apply polytetrafiuoroethylene coating.
The arrangement of the electrodes 12 for producing the high freqeuncy field at the rotating tube 1 is shown in FIGURES 2 and 3. The electrodes 12 are spaced from the outer surface of the tube by a distance x and curved according to the diameter of the tube. They are supported at both ends by arms 13 of insulating material which can be screwed to the bearing plates 2 and 2' at any angular position and distance from each other by means of a multiplicity of tapped holes in the bearing plates 2 and 2'. Three different angular positions of the electrodes 12 which produce different drying effects and different electrical field strengths in the treatment zone are shown at a, b and c in FIGURE 2. The electrodes may furthermore be adjusted to any other angular position relative to the axis of rotation of the tube 1 in an approximate range of 30 to The arms 13 carrying the electrodes 12 may also be so connected with the bearing plates 2 and 2 that the distance x between the electrodes and the outer surface of the tube 1 may be varied within certain limits.
A tubular dryer having the features of the present invention and the design data given hereinafter, has been tested out. The tube used was a glass fiber reinforced polyester tube having a length of 3000 mm., a diameter of 280 mm. and a Wall thickness of 1 mm. The inside of this tube was provided with four baflles having rectangular cross-section of 2 x 60 mm. The tube was rotated at a speed of about 40 to 50 r.p.m. between two plate electrodes each having a surface area of 200 x 2000 mm., the plates being slightly curved in cross-section. The space between the electrodes at the diametrie position with respect to the axis of rotation was 320mm. To withdraw the evaporated moisture from the interior of the tube, a suction fan 14 was provided at the delivery end of the tube, the fan having the following performance data: air throughput 200 m. /hour, pressure 200 mm. water column.
A high frequency drying plant which comprises a tubular dryer according to this invention as its essential part also comprises the following other parts. 'In the simplest case, the delivery end of the tube 1 is located above a receptacle for the dried material. In addition to the suction fan 14 for withdrawing steam and maintaining a slightly reduced pressure in the treatment zone, it is also possible to provide at the top of the receptacle 15 a cyclone 16 or a similar separator which advantageously forms a single unit with the fan 14 (FIGURE 1). In this way, any material treated in the high frequency drying zone which is sucked away with the mixture of steam and air is collected in the separator. This feature is especially advantageous when the materials to be dried are dusty and toxic.
FIGURE 3 shows diagrammatically another arrangement at the delivery end of the tube 1. In the case of products being dried which conglomerate during the drying process and which after the treatment must be reduced to the original grain size, it is advantageous to suck the material being treated from the receptacle 15 down through a funnel 17 and a blower 17', to reduce its size and to separate it from the air in a further separator 18. The lower end of this separator 18 is in communication through a rotary air lock 20 with a receptacle 19. The fan 14 in this case is again attached to the upper end of the receptacle 15 and provided with a separator 16. Air sucked in by blower 17 to convey the material is not withdrawn from the tube 1 in this case, but is drawn in from the atmosphere through the funnel 17 so that the discharged material is cooled at the same time. With such an arrangement heat sensitive material, which must be free from conglomerates when processed further, may be discharged and bagged direct from the storage container 19.
We claim:
1. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising:
a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a hori zontal to an inclined position for rotation about its longitudinal axis; means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end;
a feeder drum of greater diameter than said tube and provided with baffles on the inner surface thereof, said drum being rotatably mounted around said longitudinal axis in conjunction with said tube and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
means to recover the dried material at the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about to 180 with reference to the longitudinal axis of rotation of said tube.
2. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising:
a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end;
a feeder drum rotatably mounted around said longitudinal axis in conjunction with said tube and formed substantially as a double truncated cone tapering outwardly from the inlet end of said cylindrical tube to the superimposed bases of the double cone, which bases have a diameter larger than the diameter of said tube, and then tapering inwardly to provide a feed opening in said drum, said drum being provided 'with projecting bafiies on the inner surface thereof running obliquely to the axis of said drum and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
means to recover the dried material from the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said roating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to with reference to the longitudinal axis of rotation of said tube.
3. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising:
a drying and conveying cylindrical tube essentially composed of insulating material and mounted for rotation about its longitudinal axis in plates attached to a supporting frame, said frame being hinged at one end for movement of said tube from a horizontal to inclined position;
means to adjust the inclination of said frame and tube and means to rotate said tube for continuous conveyance of material to be dried through said tube in a constant direction from the inlet end of said tube to the outlet end;
means to continuously feed the material to be dried at a uniform rate into said inlet end of said tube and means to recover the dried material from the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted at either end to said plates in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube and also such that said electrodes can be adjustably disposed at varying distances from the outer circumferential surface of said tube,
4. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising:
a drying and conveying cylindrical tube essentially composed of a glass fiber reinforced unsaturated polyester resin as an insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end;
a feeder drum of greater diameter than said tube and provided with baflles on the inner surface thereof, said drum being rotatably mounted around said longitudinal axis in conjunction with said tube and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
means to recover the dried material at the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube.
5. Apparatus for the continuous drying of a povvdery or granular material in a high frequency field comprising: a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
means to rotate said tube and continuously convey the means to recover the dried material at the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube.
6. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising: a drying and conveying cylindrical tube essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end; feeder drum of greater diameter than said tube and provided with baffies on the inner surface thereof, said drum being rotatably mounted around said longitudinal axis in conjunction With said tube and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
a lining on the inner surfaces of said tube and said drum composed of glass fiber reinforced polytetrafluoroethylene;
means to recover the dried material at the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to with reference to the longitudinal axis of rotation of said tube.
7. Apparatus for the continuous drying of a powdery or granular material in a high frequency field comprising:
a drying and conveying cylindrical tu'be essentially composed of insulating material and mounted in a horizontal to an inclined position for rotation about its longitudinal axis;
means to rotate said tube and continuously convey the material to be dried therethrough in a constant direction from the inlet end of said tube to the outlet end;
a feeder drum of greater diameter than said tube and provided with baffles on the inner surface thereof, said drum being rotatably mounted around said longitudinal axis in conjunction with said tube and adapted to continuously charge the material to be dried at a uniform rate into the inlet end of said tube;
means to recover the dried material at the outlet end of said tube; and
a pair of opposing high frequency electrodes adjustably mounted in positions adjacent the outer circumferential surface of said rotating tube such that said electrodes can be adjustably disposed from each other by an angle of from about 30 to 180 with reference to the longitudinal axis of rotation of said tube and also such that said electrodes can be adjustably disposed at varying distances from the outer circumferential surface of said tube.
References Cited by the Examiner UNITED STATES PATENTS 1,972,050 8/1934 Davis 21910.65 2,415,025 l/l947 Grell et al 219-1081 2,472,370 6/1949 Drugmand 219-1081 2,479,351 8/1949 Hagopian 219-4057 FOREIGN PATENTS 517,798 '2/ 1940 Great Britain. 609,192 9/ 1948 Great Britain.
RICHARD M. WOOD, Primary Examiner.

Claims (1)

1. APPARATUS FOR THE CONTINUOUS DRYING OF A POWDERY OR GRANULAR MATERIAL IN A HIGH FREQUENCY FIELD COMPRISING: A DRYING AND CONVEYING CYLINDRICAL TUBE ESSENTIALLY COMPOSED OF INSULATING MATERIAL AND MOUNTED IN A HORIZONTAL TO AN INCLINED POSITION FOR ROTATION ABOUT ITS LONGITUDINAL AXIS; MEANS TO ROTATE SAID TUBE AND CONTINUOUSLY CONVEY THE MATERIAL TO BE DRIED THERETHROUGH IN A CONSTANT DIRECTION FROM THE INLET END OF SAID TUBE TO THE OUTLET END; A FEEDER DRUM OF GREATER DIAMETER THAN SAID TUBE AND PROVIDED WITH BAFFLES ON THE INNER SURFACE THEREOF, SAID DRUM BEING ROTATABLY MOUNTED AROUND SAID LONGITUDINAL AXIS IN CONJUNCTION WITH SAID TUBE AND ADAPTED TO CONTINUOUSLY CHARGE THE MATERIAL TO BE DRIED AT A UNIFORM RATE INTO THE INLET END OF SAID TUBE; MEANS TO RECOVER THE DRIED MATERIAL AT THE OUTLET END OF SAID TUBE; AND A PAIR OF OPPOSING HIGH FREQUENCY ELECTRODES ADJUSTABLY MOUNTED IN POSITIONS ADJACENT THE OUTER CIRCUMFERENTIAL SURFACE OF SAID ROTATING TUBE SUCH THAT SAID ELECTRODES CAN BE ADJUSTABLY DISPOSED FROM EACH OTHER BY AN ANGLE OF FROM ABOUT 30* TO 180* WITH REFERENCE TO THE LONGITUDINAL AXIS OF ROTATION OF SAID TUBE.
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US4326114A (en) * 1978-12-11 1982-04-20 Gerling-Moore, Inc. Apparatus for microwave roasting of coffee beans
US4797524A (en) * 1985-05-20 1989-01-10 Compagnie Generale Des Matieres Nucleaires Apparatus and method for regenerating active carbon
WO1992022180A1 (en) * 1991-05-28 1992-12-10 Ib Obel Pedersen A method and an electrode system for heating media flowing through an insulating pipe
US20080060334A1 (en) * 2006-09-08 2008-03-13 Kido Duane R Systems and method for improving airflow in an onion topping device
US20080282573A1 (en) * 2007-05-14 2008-11-20 William Hein Tilting microwave dryer and heater
US20150351421A1 (en) * 2013-01-25 2015-12-10 Bühler Barth Gmbh Method and device for drying and/or roasting a food

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GB517798A (en) * 1937-11-04 1940-02-08 Auguste Louis Marie Antoine Ro Improvements in and relating to processes and apparatus for the manufacture of agglomerates
US2415025A (en) * 1943-04-22 1947-01-28 Firestone Tire & Rubber Co Method and apparatus for treating matter in a high-frequency electric field
US2472370A (en) * 1945-01-08 1949-06-07 Cutler Hammer Inc Electrode for high-frequency heating of insulation preforms
GB609192A (en) * 1945-03-27 1948-09-27 Standard Telephones Cables Ltd Improvements in or relating to high frequency heating
US2479351A (en) * 1945-08-10 1949-08-16 Westinghouse Electric Corp High-frequency dielectric heating apparatus

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4326114A (en) * 1978-12-11 1982-04-20 Gerling-Moore, Inc. Apparatus for microwave roasting of coffee beans
US4797524A (en) * 1985-05-20 1989-01-10 Compagnie Generale Des Matieres Nucleaires Apparatus and method for regenerating active carbon
WO1992022180A1 (en) * 1991-05-28 1992-12-10 Ib Obel Pedersen A method and an electrode system for heating media flowing through an insulating pipe
US20080060334A1 (en) * 2006-09-08 2008-03-13 Kido Duane R Systems and method for improving airflow in an onion topping device
US20080282573A1 (en) * 2007-05-14 2008-11-20 William Hein Tilting microwave dryer and heater
US20150351421A1 (en) * 2013-01-25 2015-12-10 Bühler Barth Gmbh Method and device for drying and/or roasting a food

Also Published As

Publication number Publication date
AT240791B (en) 1965-06-10
GB963950A (en) 1964-07-15
CH398458A (en) 1966-03-15

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