DE2148703A1 - TACHOMETER FOR AN ULTRACENTRIFUGE OR THE LIKE - Google Patents

Description

Speed meter for an ultracentrifuge or the like.

The invention relates to a tachometer for an ultracentrifuge or the like

As the speed of a rotating assembly increases, the problems associated with reading and registering the speed are increasing difficult. For example, the determination and display or recording of the rotations per minute of a motor vehicle engine, the speed range of which is typically values from 0 to 6000 r.p.m. grasps a relatively simple thing, and useful Speedometers for this purpose have been around for some time. On the other hand, it is very much more difficult, turning an ultracentrifuge with a top speed close to 100 000 r.p.m. can reach, to best and to record, both because of this high peak speed as well as because of the wide speed range. Bearing wear, Shaft misalignment and similar mechanical difficulties encountered at low Rotational speeds are of little consequence, cause vibration problems at higher speeds, Problems of mechanical moment and many other difficulties with it. Man therefore has tachometers of a non-mechanical nature for higher speeds, e.g. with Photocells working, used; however, these tachometer designs are also proportionate fragile and prone to frequent failure.

The invention is therefore based on the object of a small, compact one To provide a tachometer with high reliable-accuracy rotation speeds Over an extremely large range, for example from 0 to 300,000 r.p.m. and about it, a shows.

To solve this problem, the invention provides a tachometer for an ultracentrifuge or the like. Before, which is characterized by a-solid Component with a circular cyclic pattern applied to it, its input signal is fed, and through a rotating part, which is connected to the rotating assembly, dren speed is to be measured and displayed, rotationally padded and a general similar circular cyclic-pattern that bears in the vicinity of the pattern of the fixed component is arranged and acts thereon in such a way that upon rotation of the rotating part the input signal according to the relative angular position change of the two patterns is modulated, with that of the speed of rotation of the rotating Arrangement proportional modulation frequency of the modulated output signal as Measured variable is perceived. The input signal can either be electrical or a mechanical signal.

Various embodiments of the invention are set out below Hand of drawing explained. They show: FIG. 1 an exploded perspective Representation of the mechanical construction of a tachometer according to an embodiment the invention; FIG. 2 shows the electrical diagram of the tachometer according to FIG. 1; FIG. 3 shows the electrical diagram corresponding to FIG. 2 of another embodiment the tachometer; and FIG. 4 shows a schematic representation of a third embodiment of the tachometer.

The tachometer shown in Figure 1 has the shape of a relatively small, cuboid block 10 made of insulating material with a cup-shaped cylindrical shape 12. Im are flat-bottom of the recess 12 electrical conductors 14 embedded in a circular cyclic pattern. and as can be seen more clearly from FIG. 2, this pattern can have the form jns im Circular arc laid out, generally sinusoidal 'pattern - with relative lengths Radial sectors alternating with relatively short circumferential sections their inner and outer ends are connected. The circular cyclical Pattern on the block 10 is interrupted on the left, so that two partial patterns 16, 18 are formed, the upper end of which with the one end of the secondary winding 20 of a transformer and its lower electrically connected to the other end of the Transformer secondary winding is connected. The primary winding 22 of the transformer is having an electrical input signal from an oscillator 24 which is connected to any Frequency, e.g. with 10 MHz, can work. A center tap 26 of the Secondary winding 20 is connected to another conductor 28, which is the oscillator 24 connects to a phase detector 30, which is also electrically connected to the connection point 32 of the two cyclic partial patterns 16, 18 is connected, so that effectively one Bridge circuit consists, the two partial patterns of the circular cyclic Form two bridge branches in the pattern. Those forming the two branches of the bridge circuit Partial patterns 16 18 are electrically identical in that they have the same basic electrical impedance have, so that when a signal is supplied from the oscillator 24, the bridge is balanced and the phase detector 30 is supplied with a zero output signal.

The input signal fed from oscillator 24 to the bridge circuit is modulated by periodic mismatching of the bridge by a rotating part 34 with a 'similar circular cyclic pattern in the form of an insulating washer embedded conductor 36 is inserted into the cylindrical recess 12 so that that its pattern is closely spaced from the fixed circular cyclic pattern can rotate. The pattern on the turntable 34 consists of a continuous one Head, which is in a regular sine pattern, which is generally the fixed pattern is designed. However, the lower sub-pattern 18 is the fixed one Pattern beckon amäDig opposite the upper part of the pattern 16 postponed, so that when the pattern on the turntable 34 aligns with the one branch of the bridge forming upper part pattern 16 covers the pattern on the lower part of the turntable is angularly offset with respect to the lower partial pattern 18. On the surface the turntable 34 is a thin insulating layer attached, so that no direct Contact between the conductive patterns can be made, but that Patterns on the turntable 34 are at such a close distance from the partial patterns 16, 18 is located on the stationary block 10 that caused a change in impedance which depends on the respective relative angular position of the two patterns. at Therefore, one revolution of the turntable 34 changes the impedance values of the two branches the electrical bridge circuit, so that the bridge gets out of alignment and thus a cyclic or periodic output signal is generated, which is generated by the phase detector 30 is perceived. As is readily apparent, increases as the rotational speed increases of the turntable 34 the modulation frequency, this change being perceived and indicates the respective speed of rotation of the rotating part. As the turntable 34 for their part in a suitable manner with an ultracentrifuge or other arrangement, whose speed is to be measured is connected, one obtains in this way a accurate tachometric display regardless of how high the measured speed of rotation is.

The oscillator 24, shown only in block form, can be in any be designed in a known manner, and its operating frequency needs neither one to have a certain value still stable in frequency or amplitude at all be. The phase detector 30, likewise shown only in block form, is likewise formed in the usual way and can also be modified by modulation frequency detectors of others Art to be replaced, although it has been found in practice that a phase detector provides the most accurate output information.

As shown in Figures 1 and 2, in the block 10 on the outer edge of the circular Pattern a small coil 38 be embedded, which is from the oscillator 24 or a another suitable source of radio frequency energy. In the turntable 34 is on a conductive core or ring 40 at the corresponding point embedded, which passes the coil 38 once per revolution and a load element forms that emits an electrical impulse that is appropriately perceived and, if desired, can be used as an index or switching pulse.

While the operation of the speedometer design according to Figure 1 and 2 is based on the special principle of periodic mismatching of a bridge circuit you can of course get the same end result with something else Achieve modulation of an electrical input signal. For example, Figure shows 3 shows an embodiment which is similar in mechanical terms to that of FIG or similar, but whose special operating principle is based on the change the coupling between conductive input and output style patterns 42,44. Namely, as shown in Fig. 3, an oscillator 46 supplies the input sub-pattern 42 of a circular cyclical pattern in the same sine wave layout that is electrically from the generally symmetrical output sub-pattern 44, which in turn is electrically connected to a phase detector 48 is connected, is separated, with an input signal of any Frequency. Although electrically separated or isolated, the two form sub-patterns 42, 44 together form an overall circular pattern that runs over its entire circumference has a regular shape. At a close distance from the fixed entrance and Output part patterns 42, 44 is a rotary part 50, which can be formed identically like the turntable 34 in Figures 1 and 2, arranged that the during its rotation Degree of link coupling between the two partial patterns changed so that the phase and The amplitude of the output signal supplied to the phase detector 48 changes cyclically changes. As the rotational speed of the rotating part 50 increases, the Frequency of the output oscillation what is displayed so that you can get an accurate reading the rotational speed of the measured arrangement.

While the two embodiments described so far are similar to how they work with the modulation of electrical signals you can also modulate other input signals in the same way, so that the required measurement and display of the speed. Figure 4 shows an embodiment which is essentially based on the principle of an ordinary air pressure meter is based. On a block 54, a fixed pattern 52 is attached, which is perforated is so that air flow can pass while the rotating member 56 is in the form of a Turntable with a circular cyclic pattern 58 of the same type as the Disc penetrating, the sectors of the pattern forming openings, so that depending on the mutual angular displacement of the fixed and rotating Pattern 52 or 58 the air passage can be changed. A common air pressure gauge 60 directs a flow of air against the closely spaced ones Components 54 and 56, one of which is fixed and the other rotates so that the back pressure or counter pressure is modulated according to the throttling of the air flow and then displayed by the air pressure gauge 60, the frequency of Change in pressure as a measure of the speed of rotation in a suitable manner with the turntable connected arrangement can be used.

The invention thus provides a tachometer with a fixed one Pattern to which an input signal is applied and a rotating one acting on it Pattern by means of which the input signal is proportional to the speed of rotation Frequency is modulated, indicated.

Claims (6)

Claims 1. Tachometer for an ultracentrifuge or the like, g e k.e n n z e i c h n e t d u r c h a fixed component (10; 54) with one on it attached circular cyclic pattern (14, 16, 18; 42, 44; 52) to which an input signal is fed, and by a rotating part (34; 50, 56), which is connected to the rotating assembly, whose speed is to be measured and displayed, is rotationally coupled and bears a generally similar circular cyclical pattern (36; 58) which is arranged in the vicinity of the pattern of the fixed component and acts on it, such that when the rotating part is rotated, the input signal corresponds to the relative Angular change in position of the two patterns is modulated, with that of the rotational speed the modulation frequency of the modulated output signal proportional to the rotating arrangement is perceived as a measured variable. 2. Tachometer according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that an electrical alternating current signal is used as the input signal is, the one the pattern on the fixed component (10) forming electrical Conductor (14) is supplied, which is designed x so that two substantially equal like, but angularly offset partial patterns (16, 18) are formed that form two branches of a balanced bridge circuit, their adjustment according to the speed of rotation of the rotating part (34) by means of a the generally similar pattern (36) forming conductor is disturbed, the both patterns are designed and arranged so that the pattern on the rotating part, if it coincides with the partial pattern forming a bridge branch, out of coincidence with the partial pattern forming the other branch of the bridge is such that the two Partial patterns have different impedances (Fpr 1 and 2). 3. Tachometer according to claim 2, characterized in that the input signal is supplied by an oscillator (24) to a transformer which is connected with its secondary winding (20) to the two ends of the conductor (14) forming the two partial patterns (16, 18); and that the changes in the modulation frequency perceive the phase detector (30) is connected to a center tap (26) of the secondary winding and to the connection point (32) of the two partial patterns. 4. Tachometer according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the pattern on the fixed component by two similar designed, but electrically isolated from one another, forming two partial patterns (42, 44) Ladder is formed; that at the ends of one conductor the input signal supplying oscillator (46) and to the ends of the other conductor a change the modulation frequency sensing phase detector (48) is connected; and that the link coupling degree between the two partial patterns through one the pattern is periodically changed on the rotating part (50) forming closed conductor, such that the input signal is frequency-modulated according to the speed of the rotating part becomes (Figure 3). 5. Tachometer according to one of claims 2 to 4, d a -d u r c h e k e k e nn n n e i n e t, that close to the outer edge of the pattern on the fixed Component a small coil (38) fed by an oscillator (24; 46) and on the A guide element (40) is attached to the rotating part at the appropriate point, in such a way that that a pulse for switching purposes or the like. Is obtained per revolution of the rotating part. 6. Tachometer according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the two patterns (52, 58) each consist of an arrangement of similar, the passage of a stream of air permitting breakthroughs exist and that with With the aid of an air pressure meter (60), an air flow is directed against the two patterns is periodically in the back pressure according to the speed of the rotating part (56) is modulated (Figure 4).