FI66131C - PROVTAGNINGSVENTIL - Google Patents

Description

The present invention relates to a sampling valve as set out in the preamble of claim 1, which is particularly intended for use in sampling a continuous material flow of granular material.

A previously known valve comprises a sampling piston moving telescopically inside the tubular body, which also consists of a tubular part with a fixed-walled recess into which the sample is taken. When the required amount of sample is in the recess, the sampling piston is pulled into the tubular body while rotating so that the recess in the sampling piston rotates 180 ° to drop the sample out of the recess through the opening at the bottom of the body. However, this solution has the disadvantage of a cycle, which is quite a cumbersome operation, at least when the distance to be traveled is a full half cycle. Another disadvantage is the standard size of the sampling well, which does not allow different amounts of samples to be taken with the same sampler.

It is an object of the present invention to provide a sampling valve which does not have the disadvantages of the prior art and which is simple and reliable in construction and which can take samples of different sizes.

The invention is characterized mainly by the features set out in claim 1.

The invention will now be described in more detail with reference to the accompanying drawings, in which Fig. 1 shows a sampling valve according to the invention in a direct side section and Fig. 2 shows the same valve in a direct top section.

The vertical line 7 in the figures illustrates a solid wall on the right side of which a material flow 4 runs. The direction of the flow is from top to bottom. The shell of the sampling valve is formed by a tubular part 5, which may be, for example, round, but a square or rectangular cross-section is also perfectly acceptable, since no rotation is used in the valve which would limit the structure to round. In this embodiment, approximately half of the tubular part 5 on the side of the material flow 4 has been removed in a longitudinal section. The removal is performed on the side of the pipe opposite the inlet direction of the material flow 4. Inside the tubular shell 5, pistons 3 are fastened to the longitudinally moving mandrel 2, which fit tightly against the inner surfaces of the tubular part. At the end of the mandrel 2 outside the tubular shell 5 there is a part 1 from which the mandrel with its piston can be pushed inwards or pulled outwards. An opening 6 is made in the lower edge of the shell 5 for removal of the sample. In this embodiment, a collar is further formed around the opening to guide the exiting sample.

The shell 5 must be long enough to allow enough space for the moving parts to move between the extreme positions. Since, in addition to sealing, the pistons 3 also act as a hub for the entire equipment, the pistons must be so far that when the mandrel 2 with its pistons is pressed to the extreme in position.

3 6 6131

The magnitude of the cut removed from the tubular shell in the material flow portion is not very critical if one does not always aim for the same sample size. If the section is as shown in Figure 1 and the shell is round, it is likely that the result will not always be exactly the same sample, but if the shell is square in cross-section and only the top part, i.e. the lid, is removed, standard sampling is entirely possible.

The sampling valve according to the invention operates as follows: The user grips the extension part 1 of the mandrel 2 and presses the mandrel with the piston inwards until a sufficient number of spaces between the pistons are under the material flow, in the open space cut into the pipe 5. A suitable depth may be marked as a distribution on the arm of the part 1 so that the depths at which the gaps of 1, 2 or more of the pistons in the material flow are being filled are suitably marked. The spaces between the pistons are filled, the filling rate depending on the material flow rate. The filling rate is usually no more than a few seconds, so the moving parts 1, 2 and 3 can be pulled back almost immediately. The protruding parts bring with them material in the spaces between the pistons 3, from where it exits through the opening 6 as a free flow due to gravity as the spaces move to the opening 6. Sampling with the device according to the invention is very fast and there is no possibility of failure. Sampling is also easily automated, as it is only a matter of creating a reciprocating motion.

The material of the sampling valve according to the invention can be any conventional substance. Various combinations of metal and plastic are particularly useful for this purpose.

Claims (3)

4,661 31 A sampling valve consisting of a tubular shell (5) and narrow pistons (3) connected to the stem (2) moving therein, spaced apart and insertable into a portion of the material flow (4) of the tube (5) to fill the gap (s) of the pistons, and which can then be retracted to empty the material through the discharge opening (6) on the lower surface of the tube, characterized in that there are at least three pistons (3) for taking at least two samples of different sizes. Valve according to Claim 1, characterized in that the sampling is arranged to take place with the desired filling piston gap being straight and substantially completely open to the material flow. Valve according to Claim 1 or 2, characterized in that the tubular shell (5) has a rectangular cross-section, the upper side of the cross-sectional rectangle being removed from the part in its material flow (4) to fill the gap (s) of the pistons (3).