DE1185116B - Rotary valve - Google Patents

Description

Rotary feeder The invention relates to a rotary feeder for Transfer of conveyable goods (dust, powder, granules, etc.) from one room in another with simultaneous dosage of these goods. In particular, relates they rely on a rotary valve, which is also able to feed doughy masses convey and the conveyed goods again after a complete or partial rotation to be ejected completely.

There are conveyor locks specifically for use in high-pressure conveyor systems known in which a piston-shaped poppet valve, which is supported by an annular displacement piston is surrounded, the high pressure chamber closes. To turn the displacement piston is a ring slide arranged concentrically. When lowering the valve and the displacer ring piston the lock space released by the piston fills out of the high-pressure container with the goods to be transferred, and after the valve has closed, the ring slide opens the lock area so that the material - supported by the movement of the displacement piston, which now fills the lock space again - flow out into a low-pressure space can. This known device thus works in addition to the annular displacement piston with two valves that are controlled in accordance with the movement of the piston must be, so that a considerable effort is required for this.

When using rotary valves, it is also known Goods - preferably powder - in apparatus, bunkers or other points of use to be entered or roughly dosed. The difficulties that arise are that the chambers of the rotary valves fill and empty differently, that the material sticks to the walls of the chambers and especially when it occurs Moisture builds up so that the chambers no longer empty and the estate "Carousel drives". Furthermore, on the inlet side of the rotary valve, especially in the case of certain goods, very light bridges that fill the chamber to make impossible. By installing tubes, vibrators or other bridge destroyers one has tried to master these difficulties. Especially with static Charging of the sluice - a phenomenon that can easily occur in the case of plastic Rotors or stators occurs because of the associated good running properties - The entry of the goods turns out to be very difficult. Even the installation of scrapers or the introduction of compressed air does not eliminate the difficulties described; In particular, the previous rotary valves are different despite all these measures for doughy masses completely.

It is the aim of the invention to create a rotary valve which do not require any additional valves for operation and the associated complex Control equipment is required and which is able to handle all goods, so also doughy masses to suck into a room and after a whole or partial Rotation to eject the goods located in this space again.

According to the invention, this is used for the transfer of goods in the case of a rotary valve achieved in that between the material receiving container and the material discharge container a rotatable cylindrical body equipped with at least one transverse bore (Rotor) is provided, in which a has a smaller length than the diameter of the cylindrical Body having piston is movable, this with the cylindrical body Forms cell spaces, and that means are provided through which the piston in the feed area of the goods for filling the cell space and in the delivery area of the goods for emptying of the cell space is moved.

In this training, the cell rooms in which the goods are promoted is, through the wall of the connector between the two containers, in which is the cylindrical bucket wheel, in certain position ranges of the Cell wheel completed. The cell spaces can be changed in a simple manner as a result the movement of the pistons in the bucket wheel, and filling and emptying is in easily controllable by this piston movement. Special valves are here not mandatory.

The movement of the piston completely removes the material from the cell space pushed out so that complete emptying is guaranteed. A sticking, sticking together or a bridging is thus in the rotary feeder according to the invention of excluded from the outset. This means that the entire volume of the cells is available for the renewed Fill available. It is thus possible to achieve an exact dosage at the same time as the material is being conveyed.

Ejection of the conveyed material from the cell spaces is also permitted the use of this rotary valve for conveying tough or doughy masses, which up to now could not be promoted in this way. You will be from the pantry as a result of the movement of the pistons, it is sucked into the resulting cell spaces; when closing the cell spaces through the wall in which the cell wheel rotates, these masses are precisely dosed, and when ejected by the counter-rotating piston movement fully pushed out.

The means for moving the piston expediently provide a Curve guide represents. This can have, for example, cam disks, in their Engage curves connected to the piston drive members. These can be used as the side from the rotation body protruding pins can be formed with rollers. Move if they move relative to the cams, the pistons also move within of the cellular wheel according to the shape of the cam tracks.

In the interest of a reliable, jam-free movement of the pistons In the cellular wheel, it is advantageous to use cam disks on both end faces of the cellular wheel body to be provided. As a result, the pistons can be guided from two sides, so that in particular proper function is guaranteed for larger cell wheel lengths.

The cam disks are arranged stationary next to the rotating body, so that moving the piston over the curve guide by turning the rotor arises. When using two arranged on the end faces of the cellular wheel body With fixed cam disks, the curves contained in them are then symmetrical executed so that a perfect synchronous piston run is guaranteed.

If one sees a possibility, the cams or the others Replace the guide means, so you can control the movement of the piston within of the rotor versus its rotation according to different operating conditions vary as desired. So the beginning and end of the suction and the Ejection times can be changed, so that the length of these times and also their temporal Location can be chosen in a certain way. Likewise, the transition times affect between the end positions of the piston, so that a faster or a slower cell formation and thus a more or less strong suction adjusts.

To seal the piston within the cellular wheel body can one or more O-rings may be provided. This makes it possible to keep the piston inside to give its running surfaces a certain amount of play, so that once on the machining surfaces no excessively high demands need to be made and, on the other hand, expansions of the material neither jamming nor leaks as a result of temperature fluctuations have as a consequence. The pistons can be cylindrical, rectangular, square or also be designed with an elongated or other suitable cross-section. A seal the piston can also expediently through achieve an elastic membrane that the exposed piston surface and at least the adjacent areas of the bucket wheel circumference covered. Such a membrane on every cell space - or even all cell spaces together can follow the movement of the respective piston, so that the cell space is limited by the membrane and is absolutely tight, so that very fine to be promoted Goods cannot penetrate between the piston and the piston running surface. Namely at the promotion of doughy and viscous masses can be smeared in any way avoid. The good seal, especially when using such a membrane, also allows the use of the rotary valve according to the invention for filling and dosing of goods between spaces with a high pressure difference, for example in vacuum systems.

If you see a yielding am on the exit side of the lock Circumference of the bucket wheel body abutting scraper before that after the ejection movement of the piston wipes off the surface of the piston, a crushing of the conveyed material can be avoided between the bucket wheel circumference and the running surface of the wall surrounding it effective prevention. In a similar way, such a scraper can also be used on the Use the inlet side to limit the material in the cell space.

The rotor or bucket wheel body can be attached to the input and optionally also the output side by sealing rings or other suitable seals that are arranged in the wall enclosing the rotor, are sealed. It such seals or scrapers can be used either alone or in combinations use.

In the drawing, an embodiment of the training is according to of the invention shown. It shows Fig. La a cross section through the invention Rotary valve at the beginning of the filling of a cell space and the ejection of one other cell space, FIG. 1 b shows the section according to FIG. 1 a in a middle position of the bucket wheel, Fig. 1c the section according to Fig. La at the end of the filling of the one Cell space and at the end of the ejection of the other cell space, FIG. 2 one Exploded perspective view of the rotary valve, partially on average.

The good is according to Fig. La to le from the above the lock Goods entrance E shown through the rotary valve to the one shown below Good output A promoted. Inside a housing 1 is a cylindrical cellular wheel body arranged as a rotor 2, in which a piston 3 within a transversely through the Rotor extending recess 4 can slide. The length of the piston 3 is around the The depth of the cell space 5 to be formed is less than the diameter of the rotor 2.

A sealing ring 6 is provided at the upper end of the piston 3, for a tight seal of the piston 3 within the recess 4 of the rotor 2 cares. Another seal 7 within the wall of the housing 1 is in the provided in the upper part. It creates a pressure-tight seal between the rotor and Casing. Another sealing option is illustrated at the lower end of the piston. An elastic membrane 8 is on the piston head, which is designed in the shape of an arc of a circle 9 and on the adjacent to the recess 4, possibly something Recessed areas 10 attached to the rotor surface. On small outskirts 11 of the piston crown does not have this attachment, so that the elastic membrane 8 during the movement of the piston in the bore or recess 4 of the rotor to form a cell space 5 can expand. One at the exit point of good exit A. arranged scraper 12 slides constantly on the surface of the rotor 2 and sweeps over at least the area of the cell rooms.

A roller 16 slides in a curve 15. It is via a connecting arm 17, which is through a the sliding surface of the recess 4 with the end face of the Rotor connecting through slot 18 extends through, connected to the piston 3. According to Figure 2, the curve 15 is contained in a cam 19 which has a central Has bore 21 through which the axis 20 of the rotor extends.

Like F i g. 2 shows, is in the present case on each side of the cellular wheel body 2 such a guide is provided. The cam disks 19 are interchangeable on its Front sides fixed in the housing, so that any piston control characteristics are selectable.

The operation of the rotary valve can be seen on the basis of Fig. La to ic explain. Fig. Ia shows the rotor 2 in a position shortly before the formation of a Cell room at the good entrance. The roller 16 is just at the top dead center 25 of the guide curve5, and the center line of the piston just has the left edge of the inlet funnel. The circular arc-shaped bottom of the piston 3 still ends with the circumferential surface of the rotor 2. The lower cell space 5 has just left the right housing wall and is fully open. The lower piston crown is still in its inner limit position, and the delimitation of the cell space forming elastic membrane 8 is extended to the full depth of the cell space.

Compared to FIG. 1 a, the rotor in FIG. 1 b a piece rotated in the direction of the arrow. The roller 16 has the reversal point 25 of the guide curve 15 exceeded and is located on the upper transition section 26. She has moves a little towards the center of the rotor and over the or the connecting arms 17 entrained the piston 3 to the center of the rotor. Through the downward A cell space has partially formed at the entrance of the moving piston into which the material to be conveyed slips in or is sucked in, so that it is this cell space Fills in quickly and correctly.

The cell room on the opposite side of the exit is now has been reduced in size to the same extent, since the associated piston crown is in the direction of has moved on the circumferential surface of the rotor, so that the conveyed material is partly has been pushed out, unless it has already fallen out by itself.

In Fig. 1c the rotor has moved a further piece in the direction of the arrow turned. The roller 16 has reached the end of the upper transition section 26 and has brought the piston 3 into the opposite limit position. The upper cell room has reached its full size and is completely filled with the good. The lower The piston head is now flush with the peripheral surface of the rotor 2, so that the lower Cell room no longer exists. With further rotation of the bucket wheel 3 is about that adhering to its circumference, at the point of the cell space that has just disappeared Well removed safely by the scraper 12. The upper cell space then slides on the Seal 7 over and is closed by the right housing wall.

In the course of one revolution of the bucket wheel by 3600, the is shown in the Fall twice Good sucked from the entrance side into a cell space that is being formed and on the exit side by the disappearance of this cell space again completely pushed out. The mutual relationship between the opening and closing of the cell spaces can be by varying the areas over which the walls of the housing rest on the circumference of the rotor 2, coordinate them in a suitable manner. the The size of the cell spaces is determined by the length of the piston, which, provided the beginning and end of a stroke each coincide with the rotor surface in order to achieve this stroke is shorter than the diameter of the rotor. The amount of material to be conveyed in the unit of time can be easily regulated via the speed of rotation of the cellular wheel.

Claims (6)

Claims: 1. Rotary feeder for the transfer of goods, d a through characterized in that between the material receiving container and the material discharge container rotatable cylindrical body equipped with at least one transverse bore (Rotor 2) is provided, in which a smaller length than the diameter of the cylindrical body having piston (3) is movable, this with the cylindrical body cell spaces (5) forms, and that means are provided through that of the pistons in the supply area of the goods for filling the cell space and in the delivery area of the goods is moved to empty the cell space. 2. Lock according to claim 1, characterized in that the means represent a curve guide for moving the piston (3). 3. Lock according to claims 1 and 2, characterized in that that the curve guide on both sides of the rotary body (2) arranged with a Cam (15) provided with cam disks (19), two with the piston (3) connected rollers (16) are movable in the cam tracks. 4. Lock according to claims 1 to 3, characterized in that that for sealing between the piston (3) and the rotor (2) O-rings (6, 7) are provided are. 5. Lock according to claims 1 to 3, characterized in that that for sealing between the piston (3) and the rotor (2) each have an elastic Membrane (8) is provided. 6. Lock according to claims 1 to 5, characterized in that that on the delivery side of the lock a flexible on the circumference of the rotating body (2) adjacent scraper (12) is arranged. Documents considered: German Auslegeschrift No. 1 131 143.