DE1773032C - Device for the radiometric analysis of powdery sample material - Google Patents

Description

In the device mentioned, the moving sample carrier is a turntable which is attached to the lower end of a vertical shaft. The upper end of the shaft is suspended from a balance beam via a thrust bearing, a cardanic suspension and a blade bearing. The sample carrier itself has an annular groove running close to its circumference, into which the sample material is introduced. A drive shaft transmits a rotary force to the lower end of the shaft carrying the turntable via a universal coupling. The enumeration of said parts makes it clear that the constructive design of the rotary plate and its suspension on the balance beam complicated verhäl ^f ately and is expensive.

The additional invention is based on the task to create a device for radiometric analysis with a sample carrier that is structurally simpler and so that it is less time-consuming.

The solution is that in a device of the type described at the outset, the sample carrier according to the invention is a vibratory feeder.

The invention is explained in more detail in the following description of the exemplary embodiment shown in the drawing.

The device is surrounded by a housing 1 with a base 2 and is arranged on a heavy base plate 4. The latter is mounted on three height-adjustable feet 5 which stand on the floor 2. Two upright supports 6, which support a horizontal rod 7, are attached to the base plate 4. The base plate 4 also carries two support posts arranged between the supports 6, one of which is shown at 8. An oscillatable sample carrier arrangement 9 is attached to these two support posts by means of a joint 11. The vibration conveyor is composed of a vibration device 13 and a sample carrier 14, the vibration device 13 being connected to a plate 13 a via vibration-free fastenings; one of the mounts is shown at 13 6. The plate 13 α is rigidly connected to a balance beam 12 by a stand 13 c .

For feeding the material to be examined onto the sample carrier 14, the device has a filling funnel 17, which hangs from the top wall of the housing 1 and contains a stirring vane 18. It is attached to an axis 18 a extending downward from the drive motor 18 ft. the The purpose of the paddle 18 is to move the sample material and to block its passage through the funnel guarantee. This funnel discharges onto the sample carrier 19 of a second vibration conveyor 21 via a device 18 c provided in the lower end of the funnel, which prevents clogging of the funnel

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a vibration device 22 is attached to a console 23 forming part of the housing 1, on which the sample carrier 19 is attached.

As can be seen from the drawing, the sample carrier 19 conveys to the sample carrier 14 and the latter to eirxm vertical outlet channel 25. So that the sample material the sample carrier 19 essentially is fed in a smooth layer, is inside the project carrier and transversely to the conveying direction height-adjustable plate-shaped component 24 is provided.

The device can be used to carry out radiation absorption measurements, as shown, be provided with an isotope source 26, which is on a sample carrier 14 attached arm is arranged. A radiation detector is located above the aforementioned carrier 29. If radiation measurements are to be carried out in the reflex geometry, then as expressly it is emphasized that the isotope source and the radiation detector below the sample carrier 14 an- ao be ordered. It should also be noted that the sample carrier has a thin window 28 made of a material has a small absorption coefficient for the radiation.

A vertical rod 31 as is attached to the balance beam attached, which carries a hollow ball 32 at its lower end. It protrudes into a container 33 filled with oil and has the purpose of damping vibrations generated by the vibration device 13 via the sample carrier 14 are transferred to the balance beam 12. The center of gravity of the pivoting system, which consists of the vibration conveyor 9, the balance beam 12 and the associated components, can be adjusted with the help of a barrel weight 15. For fine adjustment there is one at the upper end of the Rod 31 attached to chain 35, the length of which is adjustable

Finally, the device contains a dynamometer 38. It can be moved along the beam 7 and is provided with an adjustable contact tip 38 a. The dynamometer provides an electrical signal which is proportional to the downward force exerted on the contact tip 38 α by the beam. The signal b is amplified in an amplifier 38 and provides an indication of the weight of sample which is absorbed by the sample rack, and controls the weight referred to in a later to be described. The display device is denoted by 38 c, the control device by 38 d.

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1 sheet of drawings

Claims (9)

Patent claims: 1. Device for the radiometric analysis of powder Sample material, which is continuously fed to a moving sample carrier, is formed on this to a tape with constant width and constant weight per unit area, passed between a source and a penetrating radiation detector and is then removed from the sample carrier, with a device that supports the weight of the sample material continuously determined on the sample carrier and by regulating the material flow to the sample carrier is kept essentially constant, according to patent 1498 796, characterized in that that the sample carrier (14) is a vibration conveyor (9). 2. Apparatus according to claim 1, characterized in that the vibratory conveyor (9) is mounted on a beam balance, and the device has a dynamometer (38) which responds to the Kratt transmitted by the balance beam (12) and generates an electrical signal, and that the dynamometer (38) is followed by an amplifier (38 b) and a display and / or recording instrument (38 c) for displaying the mass of the sample material lying on the sample carrier (14) of the vibration conveyor (9). 3. Apparatus according to claim 1 and 2, characterized by a control device (38 d ) connected to the amplifier (38 b) for controlling the feed rate of the sample material onto the sample carrier (19) as a function of the electrical signal of the dynamometer (38). 4. Apparatus according to claim 1 and 2, characterized by one of the first vibratory conveyor (9) upstream second vibratory conveyor (21). 5. Apparatus according to claim 1 to 4, characterized by a funnel (17) for receiving the sample material and for feeding the same onto the sample carrier (19) of the second vibratory conveyor (21). 6. Apparatus according to claim 5, characterized in that the funnel (17) is provided with a stirring blade (18) and an anti-clogging device (18 c) . 7. Apparatus according to claim 4, characterized in that the sample carrier (19) of the second Vibratory conveyor (21) a height-adjustable plate (24) lying transversely to the conveying direction for smoothing the sample material. 8. Apparatus according to claim 2, characterized in that on the balance beam (12) a vertical Rod (31) is attached to a hollow body (32) at its lower end, and the hollow body for damping vibrations transmitted to the balance beam in an oil-coated. filled container (33) is immersed. 9. Apparatus according to any of the preceding claims, characterized in that on the Balance beam (12) a running weight (15) is arranged and one in its length on the balance beam adjustable chain (35) is attached for fine adjustment of the balance beam. Patent 1,498,796 relates to a method and a device for the radiometric analysis of powdery Sample material, which is continuously fed to a moving sample carrier, on this is formed into a tape of constant width and constant basis weight, between a Source and a detector for penetrating radiation passed through and then from the sample carrier is removed, with a device that continuously maintains the weight of the sample material on the sample carrier determined and essentially constant by regulating the material flow to the sample carrier