DE2008163A1 - - Google Patents

Description

Screw conveyor

The invention relates to a screw conveyor with which Solid, semi-solid or liquid material can be conveyed, such as seeds and fertilizers in granular, powdery or liquid form.

Screw conveyors have heretofore generally been designed by providing a bore in which rotates a helical screw made of a metal plate which has been twisted in a spiral. Uss a gate För & eiwirkung su obtained, it is desirable that the Sohneska closely Is the Bohr fits, so that "in Aasaisjaelü of Mat © rial on the inner wall of the tube and a Sttrektsroteu won material screw and wall verais & ea. really Jo

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zen are kept in the manufacture of the tube and the screw, the greater the manufacturing effort and it can, since it is in the Operation leads to wear and tear on the tube and on the screw, leading to frequent replacements.

The aim of the invention is to overcome the disadvantages of the known screw conveyor and create a screw conveyor that is self-cleaning.

According to the invention, a screw conveyor has an elongated shaft, a helical brush, which is attached to the shaft is and extends in the axial direction around it, as well as a conveying channel represented by a pipe, which is of littleexis has partially circular cross-section, the shaft and. which surrounds the helical brush and lies coaxially to the shaft, the brush resting against the inner wall of the conveying channel and with a relative rotation between the shaft and the conveying channel .Matter! along the conveying channel from an inlet to an ai Outlet moved "

The shaft is preferably designed as a rotatable drive shaft, the noiia circulating material moved along in the conveyor channel

With the idea of "brush" oll here a plurality of flexible, elongated Sj ementen should be meant, which at an »End® suaammengehaitea w

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200B163

can be designed as a flexible element, which for Manufacture of a helical part around its own axis is twisted, or which is wound as an elongated part spirally around a cylindrical shaft, around the helical one Share the brush. In every case, the brush can be channel-shaped Part can be attached, for example, that the side surfaces of the channel are pressed together.

The tubular conveying channel is preferably cylindrical, the outer ends of the brush describing a rotating cylinder.

The outlet of the conveyor channel can through an opening in the cylindrical Wall of the pipe, it being possible to provide a number of such openings, of which each opening is shaped according to the type of material to be conveyed. The inlet is preferably in the end wall of the pipe arranged upstream of the opening or openings.

The tube can be cylindrical and enclosed by a further, at least partially cylindrical tube be, which has one or more outlet openings in its cylindrical wall, the two parts relative to each other are rotatable around the opening or openings on a part in or out of register with the opening or openings of the to bring the other part. The openings in the tubes can be arranged so that they can be aligned with one another in such a way that Outlet openings with different axial spacing are obtained when the two tubes are rotated relative to each other,

0 09 840/1239

U »a more accurate and regular supply of material Tom To obtain conveyors, a distributor device, which is a cylindrical part, can be provided in the vicinity of the outlet openings has within a further cylindrical part, the inner part being radially spaced from the outer part, which is with a There is an inlet for receiving the material emerging from the outlet of the bore and an outlet from which the material, after it has moved through the annular space between the inner and outer part, from the cylindrical outer part can emerge.

In order to convey the material through the annular space, the inner part is preferably rotatable relative to the outer part. The radial The distance between the inner and outer parts can be selected according to the size of the material to be conveyed by the conveyor.

Further features of the invention emerge from the description below in which several embodiments of the invention are explained in detail with reference to the accompanying drawings will.

Fig. 1 is a perspective view of an embodiment the invention.

Fig. 2 shows a perspective view of a second embodiment. form of the invention, where the burst «has been omitted.

FIG. 5 is an end view of another embodiment of FIG Brush shown in Fig. 1.

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Fig. 4 is a section through a third embodiment of the Invention.

The embodiments shown in the drawing are in primarily intended to put seeds and fertilizers behind you to sprinkle revolving cultivator on the ground or on the Distribute soil. However, it is karat that with relatively minor modifications the device shown also in others Support tasks can be applied. The device shown is intended in particular for use with a device which is explained in the simultaneous registration.

Fig. 1 shows a screw conveyor member, which by a flexible., elongated, channel-shaped part 11 and a radial brush 12, which is retained in the channel by pressing the side surfaces of the channel against the brush 12 will. The brush 12 consists of a large number of bristles or other flexible, elongated and wire-like structures, for example made of a synthetic material such as nylon or made of steel wire.

The brush 12 is thereby turned into a continuous helical shape Brought shape that the part 11 is rotated about its axis. The part 11 then forms a drive shaft which can be reinforced by any suitable means, for example by. that the part 11 is around a not shown, massive cylindrical Shaft is wound.

The conveying member is rotatably located within a cylindrical bore 13 with a row of

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Auslaßeff mangen 14 is provided. Bas one end of the Bokres 13 serves as an inlet for the conveyor link, depending on the direction of rotation of the conveyor link. The material fed into the pipe 13 is conveyed to the other end of the tube, taking a 2 part of the material exits from each of the openings while it is through the conveying action moved along the tendon-shaped brush in the drill will. Excess material is discharged at the other end of the pipe.

Even if the outlet openings 14 are shown circular in FIG are so they can be promoted depending on the size and shape of the the material take any suitable shape. For example, the openings at one end of the tube can be larger than at the other End and elongated.

The radial distance between the axis of the conveyor link and the outer jgiden of the brush is slightly larger than the inner radius of the pipe so that the brush rests securely on the wall of the pipe. When the material conveyed by the brush has an opening reached, the brush tries to eject the material by a kind of centrifugal effect. When conveying granular material the brush may have a slightly smaller diameter than the tube.

Even if the tube 13 is shown cylindrical in the drawing, it can also be part-cylindrical in the form of a trough or ' Be formed channel which has a part-cylindrical portion and is open or closed at the top. In the latter case the conveyor works more satisfactorily in a horizontal or approximately horizontal position.

C 0 9 8 L \) / 1 2 3 S.

In a further modification of the tube shown 13 can at one end of the inlet and at the opposite end of the Outlet be provided, in which case the openings 14 are omitted. In this form, the conveyor can be used for general conveying tasks in the same way as known screw conveyors. The tube 13 can between its ends with relatively large openings can be provided, which can be provided with closure devices in order to selectively release the openings or close.

Normally the screw conveyor is operated in that the conveyor member is rotated by a drive motor (not shown) or some other drive device. With others Applications, however, it may be useful to rotate the pipe · In addition, the drill instead of a cylindrical diameter be designed with a variable diameter over the axial length, with the brush then also over the axial length Bristles of appropriate length is provided. In a similar way In order to achieve different conveying speeds in the axial direction of the conveyor, the angle of the plane of the helical brush relative to the axis of the conveying member can be greater or greater be made smaller than shown or change in the axial direction. Finally, the helical brush can can still be formed in interrupted sections.

Fig. 2 shows a similar conveyor to Fig. 1, the same reference numerals being used for the same parts. at In this embodiment, an additional cylindrical tube 1 ^ is provided which surrounds the tube 13 coaxially and in one a small distance from it. The pipe 15 and the pipe 13 are

0098A0 / 1239

rotatable relative to each other. In the tube 15 are several rows of
Openings 16 are provided, one row 16a having the same axial spacing of the openings as the row of openings 14 in the pipe 13
has, while a second row 16b twice the distance
of the row 14 and a third and a fourth row
16c and I6d have three and four times the spacing of the openings in row 14, respectively. An optional register of the
Rows 16a, 16b, 16c or I6d with row 14 can be the axial
Distance of the outlet openings can be changed. Preferably leaves
the tube 15 rotates around the tube 13, one or more pawls, not shown, holding the tube 15 in the desired position relative to the tube 13.

The embodiment of FIG. 2 is also provided with a conveying member, not shown here, which is inside the ear 13 and either take the form as in FIG. 1 or as in FIG. 3 can.

Fig. 3 shows another embodiment of the conveyor member, the conveyor member here having a tubular »shaft 17 and a flexible, channel-shaped Veil 18, into which the ends of the
Brush 19 are used. This! Part 18 is spiraling around
the wave 1? wrapped around and attached to it. The brushes 19 are secured in the part 18 by virtue of the fact that the sides of the channel are pressed down similarly to the brush 12. The number of turns of the (part 18 as well as the helix angle with respect to the axis of the shaft 17 can be changed by changing the distance between the ends of the part 18 before beating on the shaft 17. The ends of the brush 19 describe when rotating the shaft 17 a rotary cylinder, as it is also with
the brush 12 of Fig. 1 was the case.

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In Fig. 4 is another embodiment of a screw conveyor shown »In this embodiment again the same designations as in FIG. 1 for the same parts to 3 "is used. The helical conveyor element again has a channel-shaped part 11 in which a brush 12 is seated The conveying member is rotatably seated in a tube 13 which has openings 14 is provided. The drill 13 is enclosed by a drill 15, which is provided in several rows with openings 16, of which only the openings 16a and 16 $ are shown.

The row of openings 14 lies vertically below the axis of the conveyor link, wherein in operation a series of openings 16a of the Row 14 is immediately adjacent.

Below the tubes 13 and 15 a distributor device 20 is provided, which is represented by coaxially lying inner and outer tubes 21 and 22 respectively. The outer tube 22 is provided with a series of inlet openings 23 which run along the upper surface of the β-tube and has a row of outlet openings 24 along the lower surface, the row of inlet openings 23 being aligned with the row of openings 16 in tube 15.

The inner tube 21 is axially spaced from the outer tube 22, so that A Kreis.ringraum 25 is created between the inner and outer pipe. At a brush 26 is provided on each side of the mouth of the openings 23, which is attached to the drill 22 and the seeds or other Granular «material forces from the openings 16 into the openings 23 to enter * Further brushes 28 and 29 are on the inner surface of the tube 22 to ensure that the seed of through the inlet openings 23, the circle 25 to the outlet openings 24 reaches where it exits the distributor device.

009840/1239

The distance between the inner and outer tubes 21 and 22 is selected according to the size of the material 27 to be conveyed, the material preferably having a size that the radial distance between the tubes 21 and 22 is equal.

The inner tube 21 can be rotated within the outer tube 22 to convey the material from the inlet to the outlet openings. The outer surface of the inner tube 21 is made of a soft material in order to damage the to be distributed Materials to avoid. The inner tube 21 can have a circular ring-shaped arrangement (not shown) which are arranged at a distance from one another Discs may be provided to separate the paths of the material between the inlet and outlet openings.

The last-described embodiment is particularly suitable for Borrow seeds with predetermined spacing between borrowing and using sowing a predetermined seed spacing within each row.

It is not clear that the pipes which do not close the conveyor link each Embodiment can be made of plastic, so that the ■ Screw conveyor can be made cheaper and also lighter. The distribution device 20 in the embodiment of FIG Fig. 4- can also be made from an extruded plastic tube be made.

Claims (1)

Pat ent; a η s ρ r ü c h e Screw conveyor with an elongated shaft, a screw-shaped conveyor link, which is attached to. the shaft is attached and extends in the axial direction around this, and with a conveying channel represented by a tube, the one Having an inlet and an outlet and at least partially. Has circular cross-section, the shaft and the helical Enclosing conveyor member and is coaxial to the shaft, characterized in that the helical conveyor member is represented by a helical brush (12) which has a plurality of flexible bristles which are fastened at one end together to the shaft (11), and the other ends of which on the inner wall of the conveyor channel (13) abut, with a relative rotation between the shaft and the conveying channel, the helical conveying member material promotes along the conveyor channel from the inlet to the outlet. 2. Conveyor according to claim 1, characterized in that the Shaft (11; 17 »18) has an elongated, helically wound channel in which the brush (12; 19) is held, 3 · conveyor according to claim 2, characterized in that the elongated channel (11 j 18) is designed as a flexible part, which is used to produce a helically wound part is twisted around its axis. M-, conveyor according to claim 2, characterized in that the elongated channel (19) "1" is a flexible part which is epiral-shaped. is wound around a cylindrical shaft (17). 009840/1239 5. Conveyor according to one of claims 2, 3 or 4, characterized in that that the brush (12; 19) is fixed in the channel (11; 18) in that it is between the side surfaces of the channel is jammed. 6 · Conveyor according to one of the preceding claims, characterized in that that the outlet of the conveyor as an opening (14) in the cylindrical wall section of the conveyor channel (13) is trained. 7. Conveyor according to claim 6, characterized in that a series of outlet openings (14) is provided, and that the Openings are shaped according to the type of material to be conveyed. 8. Conveyor according to claim 6 or 7 »characterized in that the tubular conveyor channel (1 $) is cylindrical and of an at least partially cylindrical Tube (15) is enclosed which has one or more outlet openings (16) in the cylindrical wall, the two tubes (13, 15) are movable relative to each other in order to open the opening or openings (14; 16) in a tube (13; 15) in register or out of register with the opening or openings (16; 14) of the other tube (15; 13) * u bring. 9. Conveyor according to claim 8, characterized in that the openings (14, 16) in the tube (13 »15) are arranged such that when the tubes are rotated relative to one another, the openings can be aligned with one another in such a way that outlet openings with variable axial Distance can be obtained. 0098A0 / 1239 10. Conveyor according to one of claims 6,7 »8 or 9, characterized characterized in that in the vicinity of the outlet openings a distributor device is arranged, which is a cylindrical Part (21) within a further cylindrical part (22), the inner part (21) radially at a distance from Outer part (22) is located, which with an inlet (23) for receiving the exiting from the outlet (14, 16) of the ears (13 »15) Material and an outlet (24) is provided from which the material can emerge from the cylindrical outer part, wherein it moves through the annulus between the inner and outer parts. 11. Conveyor according to claim 10, characterized in that the inner cylindrical part (21) is rotatable relative to the outer cylindrical part (22), and that the radial distance between the inner and outer part is determined according to the size of the material conveyed by the conveyor. 0098A0 / 1239 Blank page