DE3904653A1 - Measuring cell - Google Patents

Abstract

For use in a measuring device for determining the moisture content of grains or the like, a measuring cell is proposed which consists of an upper part (2) and a lower part (1) and has in the interior two grinding discs (3, 4) which can be moved relatively towards each other, each grinding disc (3, 4) being connected to an electrode (6, 7) leading to the outside. <IMAGE>

Description

The invention relates to a measuring cell in a measuring device for determining the moisture of grains or the like consisting of a Upper and a lower part that go together are connectable.

The moisture content of grains or grain like products is an important criterion order to determine the cheapest harvest time point, the optimal storage and professional right processing. In the farmer and in the relevant trade the use of such measuring devices for moisture widespread determination.

To educate The optimal measurement results as possible as a test object homogeneous cake made from ground grains absolutely necessary. The moisture tuning itself is done by measuring the elec trical conductivity.

A disadvantage is that several Operations are required, namely to next the grinding, the subsequent Ver press and finally the actual one che Perform the measurement to determine the ge to determine the desired result. You get a comparatively broad, on sub differ in the homogeneity of the Measurement of captured cake declining  Scattering of the measurement results.

Proceeding from this, the invention has emerged creating a device for on made with the help of the Bestim the moisture of grains or the like. recorded much faster and more precisely cash.

This task is solved according to the invention moderately in that inside two relative mutually movable grinding disks are brought and that every grinding disc with an externally leading electric de communicates.

By the relative movement of the two meals slices against each other that becomes in between ground up and a far-reaching homogeneous cake from the grains forms on which the grinding disks telbar, so that over a outside leading electrode the electrical Conductivity between the two meals slices and thus the cake pro becomes easily measurable. For this purpose the measuring cell on one with appropriate Connections for the electrodes Measuring device applied, with its help the actual measurement takes place. It must at least one socket for each of the Electrodes, d. H. a total of two sockets exhibit. Within the scope of the invention the term "grinding disc" is very broad increase and does not only include discs but also rings, bowls and the like ches.  

The use happens in such a way that first a calibration with a dry one Substance is made by subsequently Enter a defined amount Grains between the disc, that will be Upper and lower part of existing container closed, the grinding disks relatively ge moved against each other, here the grains grind and match to a cake solidified the homogeneity. Then the measuring cell according to the invention on the already known measuring device plugged in such a way that that the electrodes are in the appropriate Intervene sockets and the electrical Resistance measurement made. The device has a set button for each measured product, such as wheat, rye, etc.

The advantage is a defined chopping change, homogenization and compression in the measuring cell, so that due to defin conditions the electrical conductivity speed much more precise, d. H. with gerin smaller fluctuation range the electrical Conductivity and ultimately the moisture between the grinding disks sensitive homogeneous cake is detected. Another advantage is in the swift See the measurement.

The by the moisture of the ground grains of cake certain electrical conductivity is highly dependent on the temperature of the measurement object. For this reason, in a particularly preferred training  the attachment of an additional tempe temperature sensor near the measurement object proposed so that the actual measurement value according to the present Temperature conditions can be corrected. The result is an exact one of those Fluctuations in temperature adjusted Value of electrical conductivity and consequently the moisture of the measurement object tes.

In order to grind the relative to each other movement of both grinding disks to be able to carry out particularly smoothly NEN, is at least one about Druckfe who attached a certain after productivity and a balance of homogeneities allowed.

A correct realization of the relative movement of the grinding discs against each other which is that one of the meals slices through a helical Rotation movement with previously filled in bodies on the opposite grinding wheel be too moved. The same applies to axial movement of a grinding disc. To reproducible and comparable measurement Preserving values is next to the one filling a defined amount of grain nern also the contact pressure of the Zer grinding the grains of the cake obtained always keep the same, so that at the same amount of grains brought in Distance between the two grinding disks in time point of measurement is always the same. The  The goal is further than the purpose moderately suggested feature achieved, in which there is a difference between the two Grinding disc acting stop is located, by the minimum distance between the two Washers and thus the corresponding Fe cake is defined.

It is advantageous for the homogenization if as a result of the grinding process we the too coarse yet too fine material arises. Different tooth spacing have a medium degree of fineness and a high degree of homogenization for Episode.

In a further advantageous embodiment the design of the grinding disc the surface like a waffle reef proposed, which is also in a special way for homogenization is suitable.

The relative movement of the grinding disks against each other requires star Fixing in the upper and lower part their relative movement against each other, the then make it particularly easy leaves if upper and / or lower part with a hand that makes it easier to tackle handle are provided.

In the event that the relative movement by rotation or helical loading movement of one of the two parts or the attached grinding disc takes place,  it is also advisable to attach an egg ner ratchet opening into which a ratchet inserted and in the usual way of rotating this part les is used.

The filling of the grain to be measured grains are particularly easy to remove from handle the measuring cell. On the other hand is the verb to take the measurement with the rest of the measuring device Lich. About loosening and renewing the connection is particularly easy Making it feasible will be usable a proposed connector.

Since the measuring device according to the invention Connection with the most varied grain-like products can be used - these include wheat, rye, barley, corn Beans, sunflowers, peas, soybeans etc. - is the use of a dial scarf ters of advantage, through an adjustment and adjustment to the desired measuring object jekt, as the concrete herbal pro product and their optimal measuring range lets take.

Finally, it is suggested that Measurement result using a liquid crystal stall display (LCD) for the user like to give. The way of displaying stands far within the scope of the invention going free. So only the damp can degree of efficiency are shown in percent and / or in addition to the control that ever  Weil discontinued product, e.g. B. wheat, Rye etc.

Further details, characteristics and before parts of the invention can be following part of the description ent take by using the drawing Embodiment of the invention nä forth is explained.

It shows in Explo representation in part in tenansicht and otherwise in landscape sectional representation reproduced he measuring cell according to the invention.

In the left part of the drawing, the lower part ( 1 ) of the measuring cell is shown, in which the lower grinding disc ( 4 ) is located. A temperature sensor ( 5 ) engages in the grinding disc ( 4 ) and an electrode is guided from there to the outer surface of the part ( 1 ). The grinding disc ( 4 ) is embedded in the electrical insulation of the material.

The lower part ( 1 ) has a handle ( 11 ).

Opposite him is the upper part ( 2 ), to which the upper grinding disc ( 3 ) is attached via compression springs ( 9 ). The upper part ( 2 ) is placed on the lower part ( 1 ), the electrode ( 7 ) located in the latter and designed as a spindle engages in the upper part ( 2 ) and produces an electrically conductive connection to the grinding disc ( 3 ). Only by access from the front of the lower part ( 1 ), the electrical conductivity or electrical resistance can be measured and determined as a measure of the dampness of the disks between the two grinding disks ( 3, 4 ).

In the example shown, a defined amount of grains is first entered in the lower part ( 1 ), the upper part ( 2 ) is placed and screwed in with the electrode ( 7 ) formed on the spindle, and the grains are ground to a homogeneous cake. The helical screw-in movement is carried out via a ratchet ( 10 ) and is ended when the stop ( 8 ) makes contact. By placing the measuring cell on the measuring device, not shown here, the electrical conductivity can be measured directly via three sockets, two for the two electrodes and the third for the temperature sensor, and the temperature required correction can be made immediately within the device. The current flow goes directly from the electrode ( 6 ) to the grinding disc ( 4 ), from there through the immediately adjacent surface to the grinding disc ( 3 ) and from there via the central engaging electrode ( 7 ) to the front of the lower part ( 1 ). The temperature sensor ( 5 ) ends inside the grinding disc ( 4 ).

As a result, the fiction allows measuring cell a fast and precise determining the moisture of Grains.

Claims (11)

1. Measuring cell in a measuring device for determining the moisture of grains or the like. Best consisting of an upper ( 2 ) and a lower part ( 1 ), which are interconnectable, characterized in that
that inside two relatively mutually movable grinding disks ( 3, 4 ) are attached and
that each grinding disc ( 3, 4 ) is connected to an electrode ( 6, 7 ) leading to the outside. 2. Measuring cell according to claim 1, characterized by a proximity in the vicinity of the grinding disc ( 3, 4 ) Chen and leading to the outside temperature sensor ( 5 ). 3. Measuring cell according to claim 1 or 2, characterized in that a grinding disc ( 3 ) is attached via compression springs ( 9 ). 4. Measuring cell according to one of claims 1 to 3, characterized by a minimum distance between the grinding disc ben ( 3, 4 ) determining the stop ( 8 ). 5. Measuring cell according to one of claims 1 to 4, characterized by different tooth spacings of the grinding disc ( 3, 4 ). 6. Measuring cell according to one of claims 1 to 4, characterized by a waffling of the grinding disc ( 3, 4 ). 7. Measuring cell according to one of claims 1 to 6, characterized in that the upper ( 2 ) and / or lower part ( 1 ) is provided with a handle ( 11 ). 8. Measuring cell according to one of claims 1 to 7, characterized in that the upper ( 2 ) or lower part ( 1 ) has a council opening ( 12 ). 9. Measuring device according to one of claims 1 to 8, marked by a plug connection for receiving the measurement cell.   10. Measuring device according to one of claims 1 to 9, marked by a selector switch for setting to Target. 11. Measuring device according to one of claims 1 to 10, marked by a liquid crystal display (LCD).