NL9000835A - DEVICE FOR TAKING FLUID SAMPLES. - Google Patents

Description

Short designation: Device for taking liquid samples.

The invention relates to a device for taking liquid samples, in particular suitable for use in a device for determining fat in milk samples.

Several devices are known for taking fluid samples in general and equipment for taking milk fat samples in particular. The prior art is represented by the following U.S. Patents: 3,965,749, 3,250,129, 3,504,540, 4,167,117, 3,897,687, 4,131,011 and 4,118,987, French Patent Application 7340381 and Australian Patent 544,870 to the present inventor.

Australian Patent 544,870 describes an apparatus for taking fluid samples including an arrangement for taking fluid samples from a conduit through which the fluid flows in a pulsating fashion, with periods of time without flow occurring, which equipment has a bypass conduit in the pipe, which bypass pipe runs from one part of the pipe with a higher flow pressure to a part with a lower flow pressure, a space provided with the bypass pipe, which space is filled during each pulsation of the flow, and the amount of liquid that exceeds the volume of the space flows to the lower pressure section, the space is emptied by gravity flow through a conduit that flows into a sampling vessel, the conduit sized to empty the space each time before the next pulsating flow occurs.

It has been found that at high flow rates the space is not completely emptied into the sample taking space. As a result, the liquid in the sample space cannot accurately represent the liquid flowing through the sampling equipment.

The object of the present invention is to provide improved fluid sampling equipment over the equipment disclosed in Australian Patent 544,870, which addresses the problems of incomplete emptying of space to the sampling vessel. and thus sampling with improved accuracy can be performed, especially at relatively high flow rates.

Thus, according to a preferred embodiment of the present invention, equipment for taking liquid samples has been found to be characterized in that it is particularly suitable for use with a flow in an upstream portion having a relatively high flow pressure and a downstream portion having a relatively low flow pressure, consisting of a liquid-receiving space with an inlet communicating with the upstream portion and a discharge with an overflow communicating with the downstream portion, a sample-taking space disposed under the fluid-receiving space, a drop line connecting the liquid-receiving space and the space for sampling and arranged to cause the liquid to flow under the influence of gravity into the space for taking samples and a vent pipe extending from the space for taking samples to the flow- dust collecting space to prevent air from being drawn into the sample-taking space when it is filled from the liquid-receiving space through the trap.

According to a preferred embodiment of the invention, the liquid sampling device forms part of automated milking systems and the flow line is part of the discharge line coupled to a milking device.

The invention will be further elucidated with reference to the following description, wherein reference is made to the appended drawing, in which: Fig. 1 schematically shows the device for taking liquid samples and in operation according to a preferred embodiment, forming part of a automated milking system.

In Fig. 1, which is a schematic representation of the liquid sampling equipment in accordance with a preferred embodiment of the invention, it forms part of an automated milking system. It will be clear that the device for taking liquid samples according to the invention is not limited to use in connection with milk or as part of an automated milking system, but can in particular be used in an automated milking device.

In the preferred embodiment shown, milk from the milk supply 10 is fed to a conduit 12 in which the flow of milk takes place with an upstream section 14 having a relatively large cross-section, the flow pressure being relatively high and a downstream section 16 with a relatively small cross-sectional diameter at which the flow pressure is relatively low.

According to the present invention, sampling equipment 18 is provided which includes a liquid-receiving space 20, typically located above the flow line 12 and communicating with the upstream portion 14 through line 22. The liquid-receiving space 20 is also connected with the downstream part 16 via an overflow line 24.

The sampling equipment 18 also includes a sample space 26 disposed below the liquid-receiving space 20 and captures a liquid flow from the liquid-receiving space 20 under the effect of gravity through a generally vertically positioned liquid conduit 28 . According to a preferred embodiment of the invention, an air exhaust pipe 30 is also provided, which forms a connection between the space 26 for collecting the samples and the liquid-collecting space 20. The presence of the vent pipe 30 prevents the entrapment of air in space 26 which could otherwise prevent the flow of the liquid under the influence of gravity from the liquid-collecting space 20 to the sample space 26.

According to a particular aspect of the present invention, the exhaust air conduit is internally mounted in the sampling system which is sealed from the outside air and pressurized during operation and thus no special closures or pressure locks are required for proper operation.

It will be possible for one skilled in the art to make modifications to the proposed embodiment, but these should be viewed within the scope of the appended claims.

Claims (5)

Device for taking liquid samples, characterized in that it comprises an upstream section with a relatively high flow pressure and a downstream section with a relatively low flow pressure and a liquid-receiving space with a supply in communication with the upstream section and a flooded drain communicating with the downstream portion, a sampling chamber located below the liquid-receiving space, a downpipe connecting the liquid-receiving space to the sampling space and arranged to cause the liquid to flow under the force of gravity to the sample collection space and a vent line located between the sample collection space and the liquid collection space, to prevent air from being entrapped in the sample collection space when it is filled from the liquid reception space through the valley thing. A sampling device according to claim 1, characterized in that the sampling space, the liquid-receiving space and the conduits are kept at substantially the same pressure. Liquid sampling device according to claim 1, characterized in that the sampling space, the liquid receiving space and the conduits are maintained at a pressure above atmospheric pressure. Liquid sampling device according to claim 2, characterized in that the sampling space, the liquid collection space and the conduits are maintained at a pressure above atmospheric pressure. 5. An automated milking system consisting of a number of milk feeds, at least one conduit connecting the milk feeds and the equipment for collecting milk and a device for taking liquid samples therebetween, characterized in that it comprises an upstream section has a relatively high flow pressure and a downstream section with a relatively low flow pressure and includes a space for receiving the liquid with a feed communicating with the upstream section and an overflow line communicating with the downstream section , a space for receiving samples arranged under the liquid-receiving space, a drop conduit connecting the liquid-receiving space with the space for taking-samples and arranged so that the flow of the liquid can take place under the influence of gravity from the liquid trap The sampling area and an air exhaust pipe extending between the sampling area and the liquid-receiving space to prevent entrapment of air in the sampling area when these are is filled from the liquid-collecting space via the drop line.