DE2448124A1 - Oscillating piston flowmeter for liquid delivery measurement - has measuring chamber and piston separating wall gap deviations which are then taken up - Google Patents

Abstract

An oscillating piston flowmeter for liquids with a measuring chamber of closed construction has cylindrical walls for movement of a piston therein with a slit at one location. Under pressure of the liquid the piston with its slit moves to and fro with respect to a diaphragm separating wall for transportation of incoming liquid from inlet to outlet. The spacings precision is important for high quality measurement previously requiring adherence to strict tolerances. By the present proposal the measuring chamber cover is made in two displaceable parts. The measuring chamber covers (5), the diaphragm (17) and measuring chamber ring (3) have sealing inserts (8) at opposite disposed ends. Spacings between the covers (5) can be adjusted by a threaded ring (6) in the housing (1).

Description

Rotary piston meter The invention relates to a rotary piston meter for Liquids with a closed measuring chamber with a cylindrical inner surface movable piston, slotted at one point, with its slit underneath the pressure of the liquid slides back and forth on a straight and even partition and with its axis a closed circle around the center of the measuring chamber describes and the inflowing liquid from the inlet to the outlet side transported.

With such a rotary piston meter, the quality of the measurement result by the size of all gaps between the measuring chamber and the one moving in it Piston affected. This also applies to the distances or gaps between the partition and the slot in the piston as it rotates. These columns are not allowed to be much allow unmeasured liquid to pass through and must therefore be as small as be kept possible.

It is known that to meet these requirements, a high level of manufacturing accuracy with very small tolerances in the manufacture of the piston and the measuring chamber is. To improve the result, the slot of the Pistons and the partition wall seals or rollers in the most varied of ways and Arranged in a way to make the column smaller there. The disadvantage is that the high manufacturing accuracy, the manufacture of the measuring chamber and the piston is very expensive comes and is associated with high reject rates. Next ensure the various Seals between the partition and the piston slot do not provide a reliable seal in the long term, because by the reciprocating movement of the piston on the partition wall the sealing material is subject to severe abrasion. The gaps become uncontrollable in the eaves of time bigger and worsen the measurement result more and more. Also is known to all Versions of the rotary piston meter no possibility to adjust and thus reduce the size of the column provided or possible.

The invention is based on the aforementioned disadvantages to exclude and to make the production of the measuring chamber and the piston cheaper.

According to the invention, this object is achieved by adding a measuring chamber cover is made adjustable in its distance to the 2nd measuring chamber cover. This happens, by enclosing the measuring chamber with the piston in a housing, on whose one side Threaded ring is located directly on one The measuring chamber cover and thus the distances by turning the gexin ring or the gap between the piston and the two WIesskammer covers to a minimum can be adjusted so that the piston is just barely in the measuring chamber lets move. Between the measuring chamber ring, partition and an oil chamber cover a resilient elastic insert fastened and attached at will, at the same time seals and takes the mostly minor readjustment of the measuring chamber cover, which is a Changes in length of the eskammerringes causes on. The threaded ring is after the Setting secured against twisting by a pin or the like. To the To exclude the gap between the kLess chamber ring and the piston, between the 2.1V1esskamTnerdeckel and the measuring chamber ring, including the partition, another flexible elastic Insert, which also seals, attached. With the now arranged on both sides elastic inserts, the measuring chamber ring is floating and thus gives on contact with the piston in the radial direction. By giving in of the measuring chamber ring, even larger tolerances are compensated for. Around the partition also to be attached yielding, can be attached in the axial direction elastic insert can be provided. All elastic inserts can also as a round, possibly

be formed in one piece sealing cord. This build a The rotary piston meter now allows the SLess error to be corrected by setting the column during testing. The above-mentioned gaps between Partition wall and the slot of the piston avoided by using these parts with a thin flexible skin are sealingly connected. The skin is measured in this way and ensure that on the one hand it follows the movement of the piston and on the other hand does not suffer any damage due to the attachment to the fixed partition wall. That can be done by placing the skin along the outer edge of the slit opening of the Piston attached and across the apex of the partition to the opposite Edge of the slot opening and there, as well as in the apex of the partition, sealing is attached.

The skin can also only be up to the middle of the partition or just on one Page to be executed. Another possibility is that this skin is attached to the piston in one piece with the same, provided that it is made of plastic in the Spray process is produced.

The advantages of the invention consist in particular in that only individual parts are made through this huSbal of a rotary piston meter that are much easier to manufacture and do not have tight tolerances make more necessary.

This enables normal series production without major Committee rates are to be feared. This production is considerably cheaper. Further the measurement result becomes due to the adjustability or the complete avoidance of the gaps improved. The individual parts can now be manufactured from plastic using an injection molding process as the tolerances that can be achieved there are now sufficient at all times. Depending on Depending on the nature of the liquid flowing through, different materials can be used can be used or easily exchanged. Even in the event of damage of a part it is possible to replace it without replacing the whole counter must become. Furthermore, the meter is very easy to clean advantageous.

Further within the scope of the invention disclosed in the claims Embodiments possible.

An embodiment of the invention is shown in the drawing and is described in more detail below: FIG. 1 shows a cross section through the measuring chamber with the piston and Fig. 2 a partial section of the open measuring chamber in top view. In both figures, the inlet and outlet channels are the better ones Not shown for clarity.

The Fig. 1 allows the measuring chamber lying in the housing 0 with its individual parts, like measuring chamber cover closed, measuring chamber ring 0 the movable piston 4, partition 17 and recognize the measuring room 19. The one located in the measuring chamber cover 5 can be seen elastic insert zuQ, which acts as a compensation and so the adjustment of the column 11 allowed by turning the threaded ring Q6 over the fine thread 9. The anti-twist device is represented by pen 10. Between the partition 17 and the two measuring chamber covers 5 are also elastic inserts. The gap g between the measuring chamber ring 0 and movable piston 4 can be chosen practically equal to zero if the deposits 8 between the two measuring chamber covers 5 and measuring chamber ring 0 are present. Will If this is not desired, it is sufficient to adjust the gap on just one measuring chamber cover to attach the elastic insert. At the end and for the occasional cleaning the measuring chamber 2 can be provided with an outer cover, which on the one hand is fastened with screws or is connected to the housing 1 by threading.

In FIG. 2, the movable piston 4 and is located in the measuring space 19 the measuring chamber ring 3 and the partition 17 to the opening edges 14 and 15 and at the apex 16 the skin 13 is tightly attached. The axially arranged elastic insert is here without the recess in the measuring chamber ring 3, which is difficult to produce, with this tied together.

Claims (4)

Claims 1. Rotary piston meter for liquids with one in one closed Measuring chamber with a cylindrical inner surface, movable and slotted at one point Piston, which with its slit under the pressure of the liquid on a straight and flat partition wall slides back and forth while its axis is closed Circle around the middle of the eating chamber describes the inflowing liquid transported from the inlet to the outlet side, characterized in that between one or the two Elesskammerdeckeln, as well as the partition 17 and the measuring chamber ring to each other elastic and sealing on their mutual contact surface To find inserts that change the distance and thus the gap between the two measuring chamber covers to each other, caused either by twisting the inside a housing 1 lying threaded ring 6, or by means of any other device of any design, with or without changing the embodiment now described, balance while the avoidance of the gaps between the partition 17 and the slot 18 of the piston 4 by sealingly attaching the flexible skin 13 to one or both of them Longitudinal edges 14 and 15 of the slot opening of the piston 4 and at the apex or at any other point on the partition wall 0 is reached. 2. Rotary piston meter according to claim 1, characterized in that the Partition wall 0 äe according to the design with its outer contour via elastic inserts 8 rests on the measuring chamber cover Q or the measuring chamber ring fil. 3. Ring piston meter according to claim 1, characterized in that the elastic insert 8 is a sealing cord of any cross-section and is contiguous the partition 17 includes. 4. Rotary piston meter according to claim 1, characterized in that the flexible skin 13 and the piston 4 is made in one piece. Blank page