DE3432316A1 - Rotary feeder - Google Patents

Abstract

Longitudinal grooves 3, 3', 3'', 3''', etc. are milled into the inside wall of a casing of a rotary feeder 1, parallel to an axis 4 of the cellular wheel 5. The longitudinal grooves are arranged asymmetrically and are wider than the edges of cellular wheel blades 6, 6', 6'', 6''', etc. which extend outwards from the cellular wheel 5 in a radial and stellar fashion. The longitudinal grooves may in addition be lined with thermoplastic material. <IMAGE>

Description

Rotary valve

The invention relates to a rotary valve with a rotary valve, in which the bucket wheel blades are symmetrically distributed around the circumference.

Rotating star feeders are replaced by pneumatic ones Conveyor systems for discharging a backfill material from a pressure chamber of higher pressure into a pressure chamber with lower pressure or vice versa without pressure drop or pressure equalization used. In general, the cellular wheels are arranged horizontally and seal with their star-shaped, radial cell wheel blades against the inner wall the housing of the rotary valve. The backfill, for example, small-grain granules to floury structure, fibers, etc. is enema into the cells between abandoned the bucket wheel blades and after half a turn of the bucket wheel, for example discharged into the compressed air line.

In DE-A1 33 23 041 rotary feeders are described in which the rotating cell wheel in the housing is designed with or without peripheral disks. at the design of the bucket wheel without edge disks, the bucket wheel chamber and the cover laterally closing off the pressure chamber is acted upon by overpressure. That As a result, the blades of the cell wheel have a high degree of rigidity because of the overpressure and also have a great accuracy of fit with the housing have to. Despite the high accuracy of fit, the finest dust can stick to the lids, which leads to the fact that the play between the fixed and rotating components the rotary valve is reduced, the friction increases, so that an undesirable strong heating and increased noise emissions occur.

When the rotary feeder is designed with full peripheral disks, the Functionality significantly improved, as the side cover through the edge discs are relieved of pressure. As a result of the production-related play between the edge disks and the housing can get very fine dust between the edge disks and the housing wall pass through and deposit in the free space, so that the same disadvantages as previously in connection with rotary valves with rotary cell wheels were described without edge disks. In both cases, protective measures must be taken against the risk of fire due to excessive heating and to maintain normal Working conditions are taken. Another disadvantage is that due to the increased Friction increases the active power consumption of the drive motor for the cellular wheel is required.

Furthermore, a technical solution is known in which plastic lips are attached to the bucket wheel blades, which prevent the finest dust from sticking and the clearance between the inner wall of the housing and the bucket wheel blades, respectively between Keep the gap between the edge discs and the lids to a minimum.

This solution has the disadvantage that additional components are manufactured and need to be adjusted and that the plastic lips are subject to very heavy wear subject.

Furthermore, a technical solution is known in which the cellular wheel is conical is trained. The machine housing, which is also conical, has a wear sleeve lined. This construction makes it possible to withstand wear due to axial Re-adjustment of the seal between the cellular wheel and the machine housing to manufacture.

In order to avoid the disadvantages occurring in the prior art, proposed according to DE-A1 33 23 041 a rotary valve with clearing on the rotary valve, in the case of the differently shaped geometric cross-sections at the clearers connected to the cellular wheel, the space between the edge disks and the lids partially fill in and form additional gap seals. The cross-section thickness the scraper in the area of the gap formation between the housing and the covers as well between the housing and the clearers corresponds at least to the cross-sectional thickness the webs or the cellular wheel blades of the cellular wheel in the housing when guided in parallel Surface and the same fit tolerance compared to the housing and the covers. The clearers end at the outer diameter of the edge disks and the star feeder. The gap seals leave an increased pressure drop in the axial direction in the area of Inlet and in the circumferential direction from chamber to chamber in the direction of the outlet. By the increased pressure drop and the resulting reduced flow gradient are the fine dust that undesirably closes the gap between the edge discs and the Pass the housing in the inlet area, relaxed and eliminated from the pumped medium and guided directly to the outlet by the scraper. The evacuators form depression and Backwater chambers, which relieve the pressure on the lid and prevent the dust from settling prevent on the lids.

This solution is structurally complex, since additional components, how the scrapers are positively connected to the bucket wheel and beyond certain fitting tolerances between the clearers and the covers on the one hand and the On the other hand, clearing out and the inner wall of the housing must be observed.

In the prior art it is known to reduce play between rotating and stationary components of a rotary valve setting, finest particles of the backfill to counteract the friction and to keep the heat development caused thereby small, however, investigations have shown that in pneumatic conveying systems for granules, especially cellulose ether granules, the strongest sound emissions are not caused by friction, but by vibrations of the cellular wheel blades, which are stimulated by the fact that individual Granular particles Wedge between the bucket wheel blades and the inside wall of the bucket wheel housing. The noise emission can temporarily exceed 100 dB (A). A disadvantage Another thing is that the dosing of granules into a pneumatic conveying line is uneven can be.

The object of the invention is to design a rotary valve so that that a sound emission due to vibrations of the cellular wheel blades is avoided and continuous dosing of granules into a pneumatic conveying line is ensured.

This object is achieved according to the invention in that a housing the rotary valve has longitudinal grooves which are distributed over the inner circumferential side of the housing run parallel to the axis of the cell wheel and that the distances the longitudinal grooves among themselves differ from the mutual distances between the cellular wheel blades differentiate. This solution principle is based on the consideration in the cellular wheel blades Vibrations built up due to wedging of granules on the smooth inner circumference to interrupt the housing by the longitudinal grooves.

For this purpose, the distances between the longitudinal grooves are smaller than that Clearances between the outer edges of the bucket wheel blades. In training the invention the longitudinal grooves are wider than the edges of the bucket wheel blades and beyond asymmetrically across the in- inner circumference of the housing distributed. By this configuration of the cellular wheel blades and the longitudinal grooves is achieved that the bucket wheel blades brief play to the inner circumferential wall during the rotation of the housing because the longitudinal grooves are wider than the cross-sectional thickness of the edges of the bucket wheel blades, which means that the granules are wedged during rotation of the cell wheel is canceled.

The longitudinal grooves are expediently made with a thermoplastic Material lined to facilitate the unblocking of the granules and the amount of leakage air flowing into the pneumatic conveying line is as small as possible to keep.

The invention is illustrated in the following on the basis of three Embodiments of the invention explained in more detail.

1 shows a horizontal view of a rotary valve Arrangement; FIG. 2 is a partially broken away section along line A-A of FIG Fig. 1; 3 shows a schematic representation of the formation and arrangement of longitudinal grooves and from cellular wheel blades to one another; 4 shows a section of the schematic representation corresponding to FIG. 3, with lined longitudinal grooves; and 5 shows a further embodiment of the cross section of the cellular wheel blades.

In Fig. 1, a rotary valve 1 is arranged horizontally and over an outlet 10 connected to a pneumatic conveyor system, not shown, In which, for example, granules are introduced. Via an inlet 9, the granules into the individual cell chambers, which are held by cell wheel blades 6,6 ', 6 ", ...

(Fig. 2) are included.

The partially broken section according to FIG. 2 along the line A-A Fig. 1 shows schematically a cellular wheel 5, which rotates about a horizontal axis 4 turns. From the bucket wheel 5 extend radially and in a star shape to the outside Cell wheel blades 6,6 ', 6 ", ..., which are distributed symmetrically over the circumference of the cell wheel are.

In the inner wall of the housing 2 of the rotary valve 1 are longitudinal grooves 3, 3 ', 3 ", ..., which will be described in more detail later. The rotary valve 1 can of course also be arranged vertically, i.e. the cell wheel rotates then around a vertical axis.

Fig. 3 shows a schematic sectional view of the bucket wheel 5 and of the housing 2. The longitudinal grooves 3.3t, ... 3VIII are about the inner circumference of the housing 2 distributed in such a way that it is parallel to the axis 4 of the bucket wheel 5 and that the distances d1, d2, ... dg of the longitudinal grooves are different and, moreover, from the constant mutual distances s, s, ... of the edges 7,7 ', 7 ",.,. 7VII of the bucket wheel blades 6,6', 6", ... 6V11. The distances between the longitudinal grooves 3,3 ', 3 ", ...

from each other are smaller or larger than the distances between the outer edges of the bucket wheel blades. The symmetry of the bucket wheel 5 or the bucket wheel blades 6,6 ', 6 ", ... does not match the longitudinal grooves 3,3', 3", .... The longitudinal grooves are for example by milling parallel to axis 4 in the inner wall of the Housing 2 of the rotary valve 1 made. As can be seen from FIGS. 3 to 5 is, the longitudinal grooves 3,3 ', 3 ", ... wider than the edges 7,7' 7", ... of the bucket wheel blades 6,6 '6 ", ...

Due to the asymmetrical distribution of the longitudinal grooves over the inner circumference of the housing 2 ensures that a wedging of granules between the Inner wall and the edges of the cellular wheel blades 6,6 ', 6 ", ... and caused by it Vibrations of the cellular wheel blades are largely avoided. It goes without saying that there are one or two more or less longitudinal grooves than cell wheel blades, there the condition must be met that the distances between the longitudinal grooves are smaller or greater than the distances between the outer edges of the bucket wheel blades should. 3-5 are each only longitudinal grooves with intervals shown smaller than the distances between the edges of the cellular wheel blades.

FIG. 4 shows a detail of a slightly modified compared to FIG. 3 Rotary feeder, the longitudinal grooves 3, .. 3V11, 3VIII in the inner wall of the housing 2 are lined with a thermoplastic material 8. The longitudinal grooves 3, ... 3VII, 3VIII are with the thermoplastic material 8 except for a small play between the edges of the bucket wheel blades 6, ... 6V1, 6VII and the inner wall lined, whereby what is achieved is that the amount of leakage air remains as small as possible. Because the longitudinal grooves wider than the edges of the star feeder blades ensure that the edges briefly have play to the inner wall, so that granules on the smooth outer surface rubs against the longitudinal grooves and thereby the vibrations built up in the cellular wheel blades to be interrupted. From Fig.

4 it can also be seen that the cellular wheel blades 6, ... 6V1, 6VII taper slightly towards the outside, the last section on one side bevelled strongly runs towards the edge, and the cellular wheels compared to the arrangement according to Fig. 3 have a different aspect ratio to the cellular wheel 5.

Fig. 5 is a section similar to Fig. 4, with the only difference that the cross-sections of the bucket wheel blades 6, ... 6V1, 6VII have a different shape have that, for example, the end sections of the bucket wheel blades opposite the main sections mushroom are widened in shape. But also for This embodiment applies that the edges of the star feeder blades are narrower than that Width of the longitudinal grooves are.

Claims (6)

Claims 1. rotary valve with a rotary valve in which The bucket wheel blades are symmetrically distributed over the circumference, characterized in that that a housing (2) of the rotary valve (1) has longitudinal grooves (3, 3 ', 3 ", ...), which is distributed over the inner peripheral side of the housing parallel to the axis (4) of the Cell wheel (5) run and that the distances (d1, d2, d3, ...) of the longitudinal grooves from the mutual distances (s, s, s, ...) of the cellular wheel blades (6,6 ', 6 ", ..) differ. 2. rotary valve according to claim 1, characterized in that the distances (d1, d2, d3, ...) of the longitudinal grooves (3,3 ', 3 ", ...) from one another are smaller than the distances between the outer edges (7,7 ', 7 ", ...) of the bucket wheel blades (6,6 ', 6 ", ...) are. 3. rotary valve according to claim 2, characterized in that the longitudinal grooves (3,3 ', 3 ", ...) wider than the edges (7,7', 7", ...) of the cellular wheel blades (6,6 ', 6 ", ...) are. 4. rotary valve according to claim 1, characterized in that the longitudinal grooves (3,3 ', 3 ", ...) asymmetrically over the inner circumference of the housing (2) are distributed. 5. rotary valve according to claim 1, characterized in that that the longitudinal grooves (3, 3 ', 3 ", ...) are lined with a thermoplastic material (8) are. 6. rotary valve according to claim 1, characterized in that the Distances (d1, d2, d3, ...) of the longitudinal grooves (3,3 ', 3 ", ...) from each other greater than the distances between the outer edges (7,7 ', 7 ", ...) of the bucket wheel blades (6,6', 6", ...) are.