DE20303668U1 - Fluid volume measurement unit consists of bottle shaped container which has transfer pipe with first piston opening and closing opening and outlet of pipe and has second piston provided in measurement pipe - Google Patents

Abstract

The measurement unit includes a bottle shaped container (10), which has an opening (14) at its side used for connecting the container with a transfer pipe (20). The transfer pipe has an outlet (26) and a bore on its lower side used for connecting the transfer pipe to a measurement pipe (40). A first piston (32) is arranged in the transfer pipe and alternatively closes and opens the opening and the outlet of the transfer pipe. A second piston (52) is provided in the measurement pipe, which has a scaling on its wall.

Description

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'Patent Attorneys ·· ·· DR. ULRJCH OSTERTAG DR. REINHARD OSTERTAG

EIBENWEG 10 D-70597 STUTTGART TEL.+49-711-766845 FAX +49-711-7655701

Liquid quantity measuring device

Applicant: Lien-Sin CHU

No. 22, Lane 40, Linchiang St Taipei

Taiwan, R. 0. C.
Attorney file: 8617.9

ST.13-13 9

Liquid quantity measuring device

The present invention relates to a liquid quantity measuring device, and more particularly to a liquid quantity measuring device comprising a container, a transfer tube projecting from the side of the top of the container, and a measuring tube hanging from the bottom of the transfer tube, the construction of the liquid quantity measuring device enabling a desired amount of liquid to be easily measured and poured out of the container.

Different types of measuring instruments are used for measuring in different fields, especially in laboratory work. Measuring cylinders and measuring glasses were created to measure liquids. In general, the measuring cylinder or measuring glass is a glass vessel with a graduation and a spout for pouring. When used, the liquid is poured from an associated container into the measuring cylinder or measuring glass up to a certain filling level. In practice, however, it is difficult to pour a liquid out of the container with the exact amount; it is often the case that excess liquid has to be put back into the container, which can easily contaminate the liquid.

In order to solve the above-mentioned problems of conventional measuring cylinders and measuring glasses, a liquid container with a quantity measuring device was also developed. This liquid container is provided with a tube leading to the bottom of the container and a measuring glass. By squeezing the container, the liquid in the container is transferred via the tube into the associated measuring glass. Although the structure of the liquid container mentioned according to the state of the art allows a certain

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Although it is designed for single use only, the liquid container cannot be refilled with liquid once it has been emptied. This not only results in wasted material, but also increases costs.

The object of the present invention is to provide a liquid quantity measuring device which no longer has the above-mentioned disadvantages of the conventional measuring cylinder or measuring glass and the liquid container according to the prior art, but rather makes it possible for a desired amount of liquid to be easily measured and poured out of the container of the liquid quantity measuring device, wherein the container can be refilled with liquid after emptying.

This object is achieved by the features mentioned in claim 1; advantageous further developments are specified in the subclaims.
20

An embodiment of the invention is explained in more detail below with reference to the drawing.

Figure 1: a perspective view of a liquid quantity meter according to the invention.

measuring device; and

Figures 2 to 7: Sections of the liquid quantity measuring device from Figure 1 in different operating phases.

First, reference is made to Figure 1. This shows a perspective view of a liquid quantity measuring device according to the invention. The liquid quantity measuring device comprises a bottle-shaped container 10, a transfer tube 20 projecting horizontally from the side of the upper part of the container 10 and a measuring tube 40 hanging down from the underside of the transfer tube 20.

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The container 10 has a closure 12 on the upper part and a side opening 14 through which the container 10 is connected to the transfer pipe 20. The transfer pipe
20 has on the top side an outlet 26 formed at the end opposite the opening 14 and on the bottom side a bore 24 through which the
Transfer tube 2 0 and the measuring tube 4 0 together in
connection.

In the transfer tube 20, a first piston 32 is arranged so as to be horizontally displaceable by a first piston rod 34, whereby the opening 14 of the container 10 and the outlet 26 are temporarily closed alternately by the first piston 32.

The outlet 26 is designed as a pipe 260 which projects obliquely upwards and has a frustoconical shape.

In the measuring tube 40, a second piston 52 is arranged so as to be vertically displaceable by a second piston rod 54, wherein the measuring tube 40 is provided with a scale on its wall.

In Figures 2 to 7, the liquid quantity measuring device according to the invention is shown step by step during use. As shown in Figure 2, the first piston rod 34 is pulled outwards, whereby the outlet 26 of the
transfer tube 20 is closed by the first piston 32. The container 10 is then tilted onto the side of the transfer tube 20, as shown in Figure 3, whereby the liquid in the container 10 passes through the opening 14 and the bore 24 of the transfer tube 20 into the measuring tube 40.

As shown in Figures 4 and 5, the container 10 is straightened again, then the second piston 52 is raised as required via the second piston rod 54 until a desired amount of liquid is in the measuring tube 40, with the excess liquid being returned to the container 10 via the transfer tube 20.

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The first piston 32 is then moved to the opening 14, as shown in Figure 6, so that the opening 14 is tightly closed by the first piston 32. Finally, the container 10 is tipped over (see Figure 7), whereby the liquid measured into the measuring tube 40 can be poured out through the bore 24 and the outlet 26.

If the user wishes to use the liquid quantity measuring device again for measuring, the two piston rods 24, 34 are first adjusted to the positions shown in Figure 2, then the above operating phases are repeated step by step.

The closure 12 provided on the upper part of the container 10 can be a screw cap and is suitable for refilling liquid into the container 10. In a further embodiment, the transfer tube 20 is attached to the container 10 in an upright position, running slightly diagonally upwards, whereby the excess liquid can flow back into the container 10 more quickly.

Claims (7)

1. Liquid quantity measuring device, comprising a bottle-shaped container ( 10 ), a transfer tube ( 20 ) projecting laterally from the upper part of the container ( 10 ) and a measuring tube ( 40 ) hanging down from the underside of the transfer tube ( 20 ), characterized in :
that the container ( 10 ) has a laterally formed opening ( 14 ) via which the container ( 10 ) is connected to the transfer pipe ( 20 );
that the transfer tube ( 20 ) has an outlet ( 26 ) formed at the end opposite the opening ( 14 ) and a bore ( 28 ) formed on its underside, with which the transfer tube ( 20 ) and the measuring tube ( 40 ) are connected to one another;
that a first piston ( 32 ) is arranged displaceably in the transfer tube ( 20 ) by a first piston rod ( 24 ), wherein the opening ( 14 ) of the container ( 10 ) and the outlet ( 26 ) can be temporarily closed alternately by the first piston ( 22 ); and
that a second piston ( 52 ) is arranged in the measuring tube ( 40 ) so as to be displaceable by a second piston rod ( 54 ), which is provided with a scale on its wall. 2. Liquid quantity measuring device according to claim 1, characterized in that the container ( 10 ) has a releasable closure ( 12 ) on its upper part. 3. Liquid quantity measuring device according to claim 1 or 2, characterized in that the outlet ( 26 ) is designed as an obliquely projecting tube ( 260 ). 4. Liquid quantity measuring device according to claim 3, characterized in that the tube ( 260 ) is frustoconical. 5. Liquid quantity measuring device according to one of the preceding claims, characterized in that the outlet ( 26 ) is arranged on the upper side of the transfer pipe ( 20 ). 6. Liquid quantity measuring device according to one of the preceding claims, characterized in that the transfer tube ( 20 ) is attached at right angles to the container ( 10 ). 7. Liquid quantity measuring device according to one of the preceding claims, characterized in that the transfer tube ( 20 ) is attached to the container ( 10 ) in a slightly upwardly inclined manner.