DE1117900B - Microtome - Google Patents

Description

The invention relates to microtomes in which the slide can be periodically moved up and down is, the cutting action taking place during the downstroke, and in which a device for withdrawing the cutting link from the object during the upstroke of the slide is provided.

Experience has shown that it is necessary to retract the knife edge laterally from the object when the moving object holder returns to its starting position, and in practice it has been found that a considerably larger clearance is required between the knife edge and the object clamp than a theoretical calculation would result if the cuts that have just been separated are not to be grasped again by the object clamp and destroyed. The reason for this is that the foremost part of the object is moistened by the surface of the liquid on the knife edge, on which the cuts are collected, or that the cuts are twisted a little after being detached, so that a corner protrudes over the knife edge . In each of these cases there is a risk that the cuts through the upwardly moving object will again
will.

The aim of the invention is to create a microtome of the type described, in which the knife edge is properly withdrawn during the idle stroke of the specimen slide.

The microtome according to the invention is characterized in that the slide and the cutting member are arranged on a common base and that a device as a retraction device

Applicant:

LKB-Produkter Fabriksaktiebolag,
Stockholm

Representative:

Dr. M. Owl and Dr. W. Berg, patent attorneys,
Munich 13, Kurfürstenplatz 2

Claimed priority:
Sweden of September 10, 1958 (No. 8643/58)

Börje Thorstensson Hellström, Bromma (Sweden), has been named as the inventor

for the movable rod depending on the location of the object;

Figure 5 is a block diagram of the microtome and its control device;

Fig. 6 shows schematically the mode of operation of the retraction device according to the invention.

The microtome comprises a base 10 on which a vibrating object rod 11, a Drive device 12 for the same and a knife holder 13 are arranged.

The object 14 is attached to an object holder 15 and thus to the front end of the object rod 11, which in this case is cylindrical, is used to elastically deform the base. The rod 11 is at its rear end with which the cutting member from the path of the object provided a cross piece 16 and on the base 10 is withdrawn when the specimen slide moves forward by means of a short but wide leaf spring 17 moved to its starting position. At an advantageous one. At the rear end of the rod 11 is located Adhere embodiment of the present invention a heating coil 18, which consists of an adjustable this mechanical force is obtained by means of an electrical power source, the current intensity being the magnetic device generated. desired thermal elongation and thus

In the following, an advantageous embodiment also corresponds to the feed.

game of the invention with reference to the drawing To remove the rod after a cutting period

descriptions. cool, the same is provided with a central channel 19

1 of the same shows a 45 according to the invention, with branch channels 20 extending therefrom Microtome, partly in elevation, partly in vertical, open out radially outwards.

The object holder 15 is designed so that the object 14 between a pair of lip-shaped Claws can be pinched, one of which is in the form of a cylindrical pin 24 to the rear is extended. This pin is inserted into a radial bore in a circular arc-shaped rod 25 and

109 740 / 26T

cut;

Figure 2 is a plan view of the microtome of Figure 1;

3 shows the microtome according to FIGS. 1 and 3, partly in an end view, partly in section;

Fig. 4 is a graphical representation; it shows a characteristic curve of the torque of the driving device

in the same by means of an actuator, not shown, is connected to the power supply to the control screw locked. It is assumed that the device to supply the required current is a the center of curvature of the circular arc-shaped multivibrator 47 for automatically repeated Schnei-Stange 25 together with the tip of the object 14, a pulse generator 48 for manual triggering falls. When cutting the object for the finest 5 individual cutting movements, a switch 49 for the Cutting process, i.e. separating the micro-cuts, optionally switching from automatic to manual the material is cut away so that the cutting and vice versa, a univibrator 50, so desired Part of the object at or next to the tip, probably for automatic as well as manual a four-sided pyramid lies, and this pyramid is set up, a pulse shaper 51 for is then aligned so that its axis is parallel io the regulation of the cutting speed, a univizu is the axis of the rod 11 and, if possible, brator 52 for the retraction of the knife as well even coincides with the same if you look at the power levels 53 and 54 with the corresponding Axis of the rod 11 extended forward thinks. the drive stages 55 and 56 for the cutting or In addition, the pyramid is expediently designed for the retraction movement. In addition, there is a scheme, that a base edge parallel to the knife table cuts a device 57 for fan cooling stands, so that when cutting, the knife and the device 18 for the supply of heat at the same time along the entire side of the pyramid without any poses. In FIG. 6, the microtome is only shown schematically Side forces, works. Alignment around this indicated. The knife 31 with its attentions to allow, one can sit the circular-arc adjusting devices on a plate 10 ^ 4, which Move rod 25 in a block 26, the 20 under the action of an electromagnet 58 after the latter can be bent around a stub or pin 27 at the bottom at the end. The object is to the the rod 11 can be rotated. So there are many rods 11 clamped, which by means of the elastic Possibilities exist to the object in the best- cord 42 passing over the pulley 59 of the motor possible way to align. The rod 25 and the 12 runs, is periodically raised and lowered. Block 26 can by means of the adjusting screws 28 and 25, respectively. In its rest position, the rod 11 is held 29 can be locked. In addition, the front part can by the torque of the rotor coil 45, which the rod 11 be designed like a hinge, which is a current higher from the power stage 53 can be locked by means of an adjusting screw 30 current intensity is obtained. When the cutting ahead and which should go a certain rotation when unlocking, the rotor current is reduced so that about a horizontal axis, whereby one 30 the rod 11 begins to fall. The diminution another opportunity for recruitment. The current intensity is regulated by the pulse generator However, this hinge is intended to mer 51, so that the same depending on the desired line to be able to remove the object holder quickly, such. B. Cutting speed more or less quickly for re-cutting or the like.

As usual, the knife consists of one piece 35 The time between the cutting moments becomes kon-Glas with a sharp and fairly straight crutch held by impulses from the multi-edge and will go out in the knife holder 13 by means of a vibrator 47, which is connected via the univibrator 50 Clamping screw 32 jammed. the pulse shaper 51 is connected. Normal

The movement of the object rod 11 is controlled, the frequency of the multivibrator 47 and by a force that is kept constant by the drive device 12 40 so that the cutting frequency. It is is transmitted from via a lifting cord 42. Im possible to cut the frequency within a wide range Essentially, the drive device consists of a range to change, but it is with thermal Moving coil arrangement with a fixed inner feed advantageous to keep the frequency constant, two-pole permanent magnet 43 and a cylindrical then the thickness of the cut is directly proportional In this case, the thrust stator 44 has an unrestricted 45 feed current. If individual cuts are limited Number of poles. The mass of the coil 45 conditions are to be executed, one sets the is quite small, and the torque is from a switch 49 such that the univibrator 50 starts such Order of magnitude that the type of external pulses received only from the pulse generator 48 Load, d. H. thus the mass of the rod 11 and can, the latter for example the shape their moment of inertia as well as the clamping forces assumed by a push button. In this case it is Determines the character of the movement. Movement exactly the same as you would during one

Since the width of the coil 45 is given the width of the magnet period of automatically repeated cuts, pole noticeably exceeds the. The necessary retraction movement takes place in the

same number of turns in the magnetic present case in that the plate 10 ^ 4 on Flux of lines of force, regardless of the angle of rotation 55 which the knife 31 and its setting front amounts to ± 35 °. Because of the spreading direction are under the action of the electrode Leakage flux from the side of the magnetic poles receives magnet 58 is bent downwards. This electroman an increase in mutual interaction magnet is normally not energized, but between Coil and magnetic field, but this increase only receives a brief surge of current from the Leiw lower in the end positions of the coil, because 60 stungsstufe 54, namely short or a certain amount there only about half of the leakage flux is used, time after the rod has left its starting position can be. Because of this, the curve takes. This delay must be the rate of fall of the torque can be adjusted as a function of the rotation of the rod 11, the setting angle, if a constant current is preferably carried out automatically through the coil, namely through flows, the shape shown in FIG. 5. 65 the selector switch (not shown), which is in the

Figure 6 is a block diagram of the equipment incorporated for the pulse shaper 51 and the rate of fall electronics Operation of the microtome are essential. diness, whereby it also works with the circuits in These include a transformer rectifier 46, which is coupled to the univibrator 50, which the

Determine the moment for the start of the withdrawal.

Curves are shown in FIG. 6 which reflect the approximate appearance of the generated pulses. In these curves, the moment of the beginning of the cutting movement is marked with a, the moment of the beginning retraction is marked with b . The cut is made at c at a speed that depends on the slope of the current curve.

The extent of the retreat movement can easily fluctuate widely, if only a certain minimum limit is exceeded by a few hundred stones of a millimeter. On the other hand is a extremely high accuracy is required for the reproducibility of the rest position in which the knife comes to a standstill after the withdrawal movement. For this reason an elastic one is used Deformation in which the front and upper part of the base, i.e. the plate 1 (M, on which the Knife holder is attached, is bent. As long as this turning is within the linearity range of the relevant materials, in this case the so-called spheroidal graphite cast iron, is obtained a very good restoration of the original position, which guarantees a uniform thickness of the cuts.

As can be seen in particular from FIG. 7, the plate 10/1 on which the knife holder 13 is arranged forms a direct extension of the base 10 on which the object rod 11 is attached. When the base is moved in the direction of the arrow A , the knife 31 moves along the arrow B in a curve which is directed outward and downward and the radius of which depends on the distance between the knife edge and the center point C of the bend. In the exemplary embodiment, the point in the plate 10/1 lies above the end of the slot 70, which enables a bend. Since the movement of the Mesesrs 31 is perpendicular to the connecting line of the same with the center C of the bend, it is thus directed downwards and outwards (in FIGS. 1 and 7) when the plate 10/1 is bent downwards by energizing the electromagnet 58 . The curvature of the movement is of secondary importance; it is crucial that the bending of the plate is combined with a movement that leads sufficiently far away from the object.

Instead of an electromagnetic force, you can also use a hydraulic or a purely mechanical one Use force to create the bend necessary to retract the knife. Of the The main advantage of the electromagnetic actuator is that no further mechanical parts are required for power transmission, and secondly, that size and time dependence the force can be changed within wide limits, i.e. easily with the electrodynamic Device 12, which is used to move the object rod, are synchronized can.

By means of the switch 49, the automatic repetition of the cutting movements is interrupted and the rod 11 is stopped in its rest position ready for cutting.

The thermal feed movement takes place as a superimposition of the retraction movement by exerting a force from below by means of a lever 61 seated on a shaft 60 on the plate 10/1 on which the knife holder is attached, this force increasing linearly with a screw movement. The linear force is generated by a helical spring 62 which is applied to an arm of the lever 61 and is compressed by means of a screw 63 which is connected to the wheel 69 by a suitable gear train 64.

Claims (5)

Patent claims: 1. Microtome, in which the slide is periodically movable up and down, the cutting process taking place during the downward stroke, and in which a device is provided for withdrawing the cutting member from the object during the upward stroke of the slide, characterized in that the slide (15 ) and the cutting member (31) are arranged on a common base (10, 10A) and that a device for elastic deformation of the base (10, 10A) is used as the retraction device (58), by means of which the cutting member (31) from the path of the Object is withdrawn when the slide moves up to its starting position. 2. microtome according to claim 1, characterized in that the retraction device (58) so is designed that they the elastic deformation of the base (10, 10 ^ 4) only within the range brings about linear deformation of the material forming the base. 3. microtome according to claim 1 or 2, characterized in that the retraction device is an electromagnetic actuator (58). 4. microtome according to claim 1, 2 or 3, characterized in that the retraction device (58) is connected to a control device (46 to 56), which is also an electrodynamic Device (12) for moving the slide controls. 5. microtome according to claims 1 to 4, characterized in that the slide (15) with a pin (24) rotatable and lockable on one at the free end of one up and down movable rod (11) slidably arranged circular arc segment (25), whose center of curvature coincides with the tip of the object. For this purpose 2 sheets of drawings © 109 740/267 11.