NL8503217A - PREPARATION HOLDER. - Google Patents

Description

.-1- HO 557 GB

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PREPARATION HOLDER

The applicant named Herman Josephus WUBBOLTS in BEVERWIJK as inventor

The invention relates to a specimen holder for metal samples to be subjected to surface treatment on a grinding and polishing machine, which holder is in the form of a round disc provided with recesses for receiving the samples to be grinded and which can be detachably attached. on a rotatable shaft.

Such a preparation container is used, inter alia, in the steel industry to prepare the surface of samples of rolled-out steel products for, for example, subsequent microscopic examination. In the available specimen holders, the metal samples were placed in the recesses, for example, by caulking. When the samples have been applied, the specimen holder is pressed onto a rotating grinding or polishing disc. When grinding thin samples (for example, at a thickness of 0.25 mm or thinner), the sample temperature was found to rise above certain envelope values due to the heat generated during grinding, which is undesirable and can lead to misinterpretations in later microscopic examination. . Also, detaching from the specimen holder could lead to involuntary bending and folding of the samples, which is also undesirable.

The object of the invention is to provide a preparation container to be used in the grinding of thin metal samples, which can be easily placed and detached therein, and which cannot have a high sample temperature.

To this end, the specimen holder according to the invention is characterized by a number of cylindrical insert bodies to be clamped in the disc. 3 3 2 i 7 25

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+ - / ¾ which have been pierced lengthwise and are provided at one end around the piercing with a number of radial and a number of concentric grooves lying within an out-of-the-face rubber sealing ring, and at the other end are provided with a vacuum connection to suck the thin steel samples against the grooved end faces of the inserts.

An exemplary embodiment of a preparation container according to the invention is shown in the attached drawing.

In the drawing: Figure 1 is a small-scale top view of a preparation container, while Figure 2 represents a side view; Figure 3 shows the bottom view of the container; Figure 4 shows a larger cross-section of one of the 15 inserts, while Figure 5, also in cross-section and on a larger scale, shows the vacuum passage to the rotatable specimen holder.

Referring to Figures 1, 2 and 3, the stainless steel round disk 1 is provided with six cylindrical brass inserts 2 20. Saw cuts 3 and clamping screws 4 are arranged in the disc 1 in order to clamp the insert bodies 2 in the disc 1.

At the top, each insert body 2 is provided with a connecting nipple 5, which is connected via a hose or tube connection 6 to a double nipple 7 of a vacuum-fitting 9 mounted on a base 8.

A vacuum line 10 is connected to this vacuum lead-through piece 9. The vacuum feed-through piece 9 must also detachably attach to the (not shown) rotatable shaft of the grinding and polishing machine for the entire specimen holder and is for this purpose provided with a snap head 11, while in the top surface three coupling holes 12 are provided in which (non- drawn) of the cleats of this machine.

The base 8 is attached to the disk 1 by means of mounting bolts 13.

Fig. 4 shows an insert body 2 on a larger scale in section. It has a longitudinal bore 14 which is connected at the top to a nipple 5. At the bottom, the end face of the insert body 2 is provided with, for example, four radial grooves 15 and, for example, ten concentric grooves 16.

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Surrounding it in a deeper groove is a rubber sealing ring 17 which completely fills this groove and is, for example, 1.6 mm wide and 3.8 mm high. In Figure 4, a thin disc-shaped sample 18 of rolled sheet steel is also taken, which is placed against the ring 17 with the burr formed during the sponging.

In order to exert the suction effect on the six samples (18) during the rotation of the entire specimen holder with the vacuum from the vacuum line 10, a composite vacuum lead-through piece 9, which is shown in cross-section and on an enlarged scale in Figure 5, serves.

Connected to the stationary vacuum line 10 is a bronze stationary ring 19, which is also stationary, and which is provided on the inside with a circumferential groove 19A and which communicates via a few radial bores 26 with a central bore 27 in the bottom 15 part 9B of the vacuum transfer piece 9. This central bore 27 is closed at the bottom in a vacuum-tight manner with a plug 24, while radial bores 25 run on three sides to the nipples 7 screwed onto the lower part 9B.

In the lower part 9B, three blind take-out holes 22 are made, with which the coupling on the foot 8 is established. The upper part 9A of the vacuum lead-through piece 9 is screwed onto the lower part 9B, so that both parts can rotate freely around the bronze race ring 19, whereby a locking screw 23 prevents the two parts from twisting together.

Two O-rings 20 are arranged in the race ring 19 to seal against the two parts of the vacuum lead-through piece 9, while in the bottom and top surfaces thereof, a few concentric labyrinth grooves 21 are provided for the same purpose.

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Claims (1)

4. HO 557 EN Preparation holder for metal samples that must undergo surface treatment on a grinding and polishing machine, which holder is in the form of a round disc, which is provided with recesses for receiving the samples to be ground and which can be detachably attached to a rotatable shaft, characterized by a number of cylindrical inserts (2) to be clamped in the disk (1), which have been pierced lengthwise and are provided at one end around the bore (14) with a number of radial (15) and a number of concentric (16) grooves, located within an out-of-face rubber sealing ring (17), and at the other end are provided with a vacuum connection (5) to the thin steel samples (18) against the grooved end faces of the insert 15 (2). 20 25 30 ”'-? * 7 '...: ^ J 35