DE953289C - Rotary piston meter for flowing media - Google Patents

Description

Rotary piston meter for flowing media The invention relates to Rotary piston meters for flowing media with counter-rotating, against each other and rotating lobes which seal against the housing and are designed as double blades Outer surfaces are formed from circular arcs. In a known proposal such Measuring devices, the rotary lobes are designed as double wings, the area around each runs after four similar arcs. These double wings probably seal against each other the housing, but against each other there are gaps in certain positions, which allow an overflow of the flow medium. You have this disadvantage with common to the roots blowers. Many attempts have been made with the latter in order to achieve a complete seal and thus a better degree of efficiency, for example, through a different shape and the like. However, it has not yet been - succeeded a completely tight seal between the wings during their rotation and therefore some loss in performance is inevitable accepted.

In the above-mentioned known proposal for water meters should now the sealing of the wings against each other can be achieved in that on the front and rolling surfaces a corresponding covering made of rubber or the like is applied or the wings should be made of sealing material. An application of sealant is but not suitable to achieve the desired goal flawlessly.

It has now been found that rotary piston meters in double-wing farms are possible with a perfect seal, but they must have certain Conditions must be met. The invention shows a way in which it is possible that the jacket surfaces of the rotary lobes touch sealingly in all positions and also an accurate production of the rotary lobes in the simplest possible way is. This is achieved in that the centers of the convex circular arcs of the The lateral surfaces lie on a circle, the diameter of which is smaller than the distance the axes of the two rotary pistons, while the central axes of the concave circular arc lie on a circle, the diameter of which is slightly larger than the Removal of the rotary piston axes.

Here. results in a more or less large surface seal, which goes back to a line in a certain position of the rotary piston then to rise again to a surface waterproofing.

An exemplary embodiment of the invention is shown in the drawing. It shows Fig. I the counter in a position in which the two central planes through the lobes are perpendicular to each other; in Fig. 2 are the two rotary pistons Rotated to each other so that the central planes are parallel, i.e. 450 to the direction of flow inclined; Fig. 3 indicates the position in which the two rotary pistons so to each other stand so that they only touch in one line.

The housing 1 of the measuring chamber 2 has an inlet port 3 and one Outlet nozzle 4. In the measuring chamber 2 itself, the axes 5 for two are in opposite directions rotating pistons 6 arranged according to the arrows shown. Interlocking Gear wheels (not shown) for the purpose of forced rotation of the two rotary pistons with each other are below or above or on both sides of the rotary piston within or applied outside the housing I on the axles 5.

The two rotary lobes 6 have approximately the shape of a double wing, similar to the blades of a Roots blower. However, it differs from all known double wings with lemniscates there is an angular transition7 of each in the subject matter of the invention the extremely convex circular arc 8 to the two inner concave circular arcs g present. The points of intersection of the circular arcs 8 and 9 of equal size or the lines of intersection of their Outer surfaces, the mentioned edges 7, lie on a circle 1 ö, on the at the same time the centers of the circular arcs 8 lie. The diameter of this circle 10 is slightly smaller than the distance between the two rotary piston axes 5.

The centers of the other circular arcs 9 are on one Circle II, the diameter of which is larger by the same amount as the diameter of the circle IO is smaller than the distance between the two rotary piston axes 5.

To the rotary piston 6 on normal, simple Werkzeuguuascbinen exactly to be able to produce are, according to a further embodiment of the invention, the double wings made of several parts. III of FIG. 2, these individual parts are designated.

On the middle part I2, which is manufactured as a rotating body, are the two outer parts 13, which are also made of rotating bodies, attached. The fastening can, as shown, take place by means of screws 14, but it can can also be carried out by welding or any other suitable means.

Very light meters are required for special purposes. Also this one Claim can be satisfied with the subject matter of the invention, if, how From Fig. 1 left side, lower half, it can be seen that the rotary piston 6 is hollow is. This is indicated by the representation of a weak wall 15.

As can be seen from the figures, the rotary lobes 6 seal in the different positions against each other. In the position according to FIG given a very large mutual seal, in FIG. 2 a less large one, and in Fig. 3 the borderline case is shown in which the two rotary pistons only touch in a line. So the touch falls accordingly from a full touch 1 except for the contact according to FIG. 3. From then on it increases again until the two rotary pistons again have full contact with one another as shown in FIG.

So that a wider seal between the double wings and the Measuring chamber wall takes place, the former could possibly be at their point of contact be somewhat flattened with the wall, i.e. at the outer ends. It would happen thereby a larger contact surface.

The rotary meter according to the present invention is except as Counter can also be used for pumps, fans, gears or the like.

PATENT CLAIM: 1. Rotary piston meter for flowing media with it oppositely rotating, against each other and sealing against the housing, as Double lobes designed rotary pistons, the outer surfaces of which are formed from circular arcs are, characterized in that the centers of the convex circular arcs (8) on a circle (IO), the diameter of which is smaller than the distance between the two Rotary piston axes (5), while the centers of the concave circular arc (9) on a Circle (1), the diameter of which is greater than the distance by the same amount the axes (5).

Claims (1)

2. Rotary piston meter according to claim I, characterized in that the lines of intersection of the convex circular arc-shaped lateral surfaces (8) with the concave ones Circular arc-shaped lateral surfaces (g) form an edge (7). 3. Rotary piston meter according to Claims 1 and 2, characterized in that that each of the rotary lobes (6) consists of one with two mings provided Rotary body (12) as a central part and two diametrically arranged, each with a corresponding There is further rotating bodies (I3) provided with a recess. 4. Rotary piston meter according to claims I to 3, characterized gekennzeicheet, that the rotary piston (6) at their points of contact with the wall of the measuring chamber (2) are somewhat flattened. 5. Drebkolbenzäbler according to claims 1, 2 and 4, characterized in that that the rotary lobes (6) are hollow in a manner known per se.