DE2745450A1 - Bucket-wheel metering mechanism - has wheel sealed by covering belt with alignment device and tension roller - Google Patents

Abstract

The bucket-wheel-type metering mechanism has a wheel mounted vertically, horizontally or inclined. It is sealed by a covering belt (5) with alignment mechanism and tension roller (4). There may be a metering bucket wheel mounted on the same drive shaft as the first wheel in order to load it, together with a centring device and adjusting washer for use when the housing is open, and an excess-pressure zone before the discharge portion of the wheel.

Description

Description>; and explanation of the patent application

"Rotary valve with belt seal" is the subject of the invention is a rotary valve that is sealed by a belt. she serves, like all rotary valves, for the uninterrupted supply of solids, in a powdery to coarse-grained state, in a pneumatic conveyor system.

Rotary feeders for this purpose are and are generally known manufactured in various designs. Basically all locks consist of a housing with Lin- and outlet opening, between which a cell wheel horizontally arranged, is mounted pressure-tight and by a precise fit against the pressure chamber seals the atmosphere. An additional seal is made by the conveyed material, which, when the cell walls are inclined, is caused by the rotation of the cell wheel, applied to the housing wall. The resulting, disadvantageously abrasive friction causes an increasing enlargement of the housing interior with a corresponding reduction the seal.

In order to increase the service life of the locks, various Make the cell walls with adjustable or self-adjusting wear strips equipped, or the cellular wheel made conical and spring or air pressure inserted into the recess, which is enlarged by wear. To the through The increase in friction resulting from this arrangement also increases the wear and tear and the energy required to drive the rotor.

In order to eliminate this disadvantage, it is proposed according to the invention that a rotary valve for a long service life and low maintenance costs Create, with a belt rotary valve takes over the conveyed goods and it via a dosing cell wheel the belt conveyor cell wheel allocates to it up to z. B. 75% to loaded. The belt cellular wheel locks the conveyed goods without the same with sealing surfaces Has touched the pressure conveyor system.

Fig. 1 shows the belt cellular wheel attached to the drive shaft (1) (2) and dosing cell wheel (3) with tensioning pulley (4) and the endless belt (5) and a drive sprocket at the lower end of the shaft.

Fig. 2 is the top view of the dosing cell wheel (3) shown in e.g. cells of the same size surrounds the conveyed material and because it is above the belt cellular wheel (2) is arranged and continuously open, takes over at the top and hands over to the bottom.

Fig. 3 shows a top view of the belt cellular wheel (2) with tensioning pulley (4) and strap (5). The belt cellular wheel (3) is open at the top and has the same Cell division like the dosing cell wheel (3), has approx. 600 inclined bottom surfaces laterally opened (see Fig. 1) for discharging the conveyed goods and has on both Sides of the side openings are rotations that correspond to the belt thickness and Running surfaces for the belt (5), which the belt cellular wheel (2) by approx. 2400 encloses. The tension pulley (4) lifts the belt (5) from the belt cellular wheel (2) from, tensions the belt strap (5) and causes the same to circulate evenly.

Fig. 4 shows the housing attachment (14) with the connecting flange to the Housing and the inlet connection (drawn offset) with flange for connection to a Bunker outlet or filling funnel. In the upper end flange is the one in the area of the The interrupted material shear ring (15) is screwed into the inlet connection. From the top view (Fig. 7) the arrangement of the inlet (A) and transfer opening (B) can be seen. Connection socket (E) is provided for venting the housing attachment (14).

Fig. 5 is the section through the housing (6) of the belt rotary valve with connecting flanges at the top and bottom. The lower connecting flange has a recessed base, the diameter of which corresponds to that of the belt cellular wheel (2) and which is firmly screwed to the bottom flange (8). The lower guide piece (13) for the axle mounting of the tensioning roller (4) is screwed into the bottom flange (8) on a nose protruding into the discharge opening (C). Above the recessed base of the lower housing flange, there is a recess in the upper flange into which the centering piece (9) is fitted. The centering piece (9) is centered with the adjusting disk (11) and the upper drive shaft bearing (12) by the journal of the bearing and connected by countersunk screws. The adjusting washer (11) is screwed onto the top flange and thus enables the belt strap (5) to be aligned and tensioned before the housing (b) with the bottom flange (8) and Housing attachment (14) is V screwed. The receptacles for the axle ends of the tensioning pulley (4) rest in the guide pieces (13), while the bolts with internal threads of the axle receptacles are inserted into the clamping sleeves (7) by means of screws. The sealing hoods prevent compressed air from escaping during operation. Under the floor flange (8) the discharge funnel (17) with the connection flange is screwed to the delivery line. Seals (16) are arranged between all flange connections.

Fig. 8 The sectional drawing of the assembly can be seen: the bearing of the drive shaft (1) in the housing bearings (12) the support of the belt cellular wheel (2) downwards through its sealing washer (10) upwards through the sealing washer (10) of the centering piece (9); the arrangement of the tensioner pulley (4) with tensioning device (7) and the belt (5) as well as the belt cellular wheel (2) in the housing (6); of the dosing cell wheel (3) in the housing attachment (14) Fig. 9 The division of space in the housing (6) can be seen in the sectional drawing. Two Web (18) separate the interior of the housing (6) while the tension roller part only is open at the bottom for the delivery of the conveyed material, is the opposite part completely closed and is through the connection piece (D) during operation constantly equipped with compressed air, which is approx. 200 mm WS above the compression of the delivery pressure or the resulting dust pressure. This arrangement creates a lift of the belt (5) from the belt cellular wheel (2) before venting the pressure-filled Cell avoided. The cells are vented through the vent opening (E), see Fig. 7 Through the inlet opening (A) of the inlet connection of the housing attachment (14) the material to be conveyed is taken over volumetrically by the dosing cell wheel and after 800 Rotation of the dosing cell wheel (3) is transferred to the belt belt cell wheel (2), which after a further 800 rotation, the conveyed goods are transferred to the conveyor system via the discharge funnel feeds.

This is guaranteed by the preselected dimensions of the Dosing cell wheel (3) in connection with the separation of the column of the inflow Material to be conveyed through the material shear ring (15) the filling of the belt cellular wheel approx. 75, 's does not exceed a wear and tear in the metered ii due to the arrangement of the material shear ring (15) engaging in the dosing cell wheel (3) and the Lateral guidance of the material to be conveyed in the dosing cell wheel is conditional, only temporarily at the adjusting disc (11) occurs until the same is worn down to such an extent that it becomes The adjusting disc (11) shields the deposited material to be conveyed, the material to be conveyed without a Touching the sealing surface from the inlet to the outlet part is closed by the arrangement the sealing washers (16), the belt (5) in a connecting design with a belt cellular wheel (2) and tension pulley (4) as well as the establishment of an overpressure zone in front of the conveyor system a breakthrough into the atmosphere is prevented, by the ventilation opening (E) or through minor leaks in the housing attachment penetrating compressed air is pre-expanded and is either transferred to a filter or is fed to the discharge space via an ejective device, one volumetrically exact allocation of the conveyed goods in the conveyor system by setting a Corresponding number of revolutions of the drive shaft (1) with belt cellular wheel (2) and Dosing cell wheel (3) in control gear.

Patent claims: Blank page

Claims (1)

Claims claims Rotary feeder, characterized by a rotary feeder in horizontal, vertical or inclined design with webbing cover and belt tensioning via a tensioning and alignment device with tensioning pulley. Claim 2: rotary feeder according to claim 1, characterized by a volumetric metering device for the belt cellular wheel loading through a Dosing cell wheel, in which the dosing and belt belt cell wheel are on a common Drive shaft is attached. Claim 3: rotary feeder according to claim 2, characterized by a centering device with an adjusting disk for adjustment and clamping with the housing open. Claim 4: Rotary feeder according to Claims 1-3, characterized by an overpressure zone in front of the outlet part of the rotary valve.