PL7130B1 - A gear that modifies the rotational movement of variable capacitors. - Google Patents

Description

The subject of this description is a gear that is used to convert a uniform rotary motion of any variable capacitor with semicircular plates into a non-uniform motion, the changes of which would be proportional to changes in the length of the electromagnetic wave (the principle of the so-called renal capacitors). non-working gear, manufactured by the Swedish factory pf "Baltic". This gear consists of two toothed and helical-shaped eccentrics, one of which is fixed on the rotor axis, and the other on the demultiplier axis. It is a solid, ideal system, demonstrating in practice There are always some deviations of the characteristics of the capacitor from the straight line. The pointer in said gear is stationary on the axis of the rotor, so that its movement along the appropriate scale does not take place proportionally to the changes in wavelength, but rather it simply indicates angular variations in the rotation of the rotor. The transmission of this speech The invention is above all simpler in terms of construction: it does not contain any toothed eccentrics, but operates on the principle of a sliding device, so that its production is much simpler and cheaper. It then removes the disadvantages that arise when using the "Baltic-Micro" gearbox, for the following reasons: 1) The design of this gearbox takes into account the capacitor's dead capacity, which means that not one perfect, but several basic types of gears, adapted to the different degrees of sensitivity of the capacitor. \ 2) It can be easily replaced by each one, so that in each particular case the most appropriate type of gear can be selected, 3) Due to the use of special sealing rollers, placed in the crusher on the axis of the rotor, the gear can be applied literally to any capacitor, regardless of the thickness of its axis. (The "Baltic-Micro" gear is only applicable to capacitors manufactured by these companies), 4) The pointer is mounted, relatively connected to the axis not of the rotor, but of the multiplier, as a result of which the indications on the scale of the device change uniformly and proportionally to changes in wavelength. ; The gearbox consists of the following parts: 1) an outer disk (Fig. 1 and Fig. 2), provided with a semi-circular rock divided into 100 or 180 divisions, and a pointer W or W indicating the rotation angle of the demultiplier. On this disc there is a knob used to rotate the demultiplier, * the pointer or the arrow should be placed directly and motionless on the axis o, or also on the cup, then we connect it with the help of an additional gear, consisting of two toothed wheels (like a clock hand) with an axis o; The pointer movement is thus dependent on the rotation of the demultiplier's wheel, and by appropriate selection of the toothed wheels, not shown in the drawing, we can increase the pointer's rotation range to 300 °, or even more. This facilitates the subsequent scaling of the capacitor. , because the divisions on the scale will be much larger (fig. 1 and fig. 2), 2]. From the c-cup, placed in the center of the disc, into which we insert the rotor shaft with the screw. The diameter of the bush is adapted to the thickest axes currently available in the trade of capacitors; when using a gear for a capacitor with a thinner axis, we seal the axle in the bush with a suitable metal roller and screw the same screw which, penetrating the perforated wall of the roller, immobilizes 3) A demultiplier placed on the other side of the disc (Fig. 3) and consisting of two toothed or friction wheels, the greater of which is seated on the axis o, p philosophersmistically with regard to the c socket; and the smaller k, rotated directly by the outer knob g, is used to precisely rotate the wheel h. The wheel h is provided with a semicircular hole d, which encloses the shell c and allows the wheel 7z to rotate freely. 4) With the metal plate q (FIG. 4), which is an essential part of the gearbox. This plate is provided with two needle holes, one circular used to wedge the plate on the socket c, and the other curved needle (the method of manufacture of which is given below) is connected by means of a screw with the demultiplier's wheel. This screw, i.e. the slider, is free to move along the slot, called the steering wheel, and thus transfer the movement of the wheel h to the sleeve c, and thus also to the axis of the rotor, while modifying the speed of rotation of the rotor in an appropriate manner. explains the schematic drawing (FIG. 5); in the initial position, the base of the handlebars and the initial radius of the demultiplier qs have the same direction. If we turn the larger wheel h of the demultiplier by angle cp from the original position, then the 2-stem radius: of the demultiplier will be at the position of the axes; the screw s, having moved along the steering wheel to the point Sj, will pull the gear plate with it so that the base of the steering wheel now has the direction cm, forming with the direction of the previous W angle. The rotor of the condenser rotates about the same angle. To find the shape of the steering wheel, we need to find its equation in the polar coordinates. For this purpose, we will take the base of the steering wheel as the polar axis, relatively cm, the length of the radius of the axis or the axis, denote by a * distance co by 6, the radius leading the curve e by p, and finally the angle mcSi - by ft. : and P =] / a2 + b2 - \ - 2 ab cos Equations 1 and 2 contain as many as 4 variables: p, fr, W, these equations could be determined with the shape of the steering wheel, it is necessary to determine the relationship between the angles binding free angle first , we note that the angle W is the angle of rotation of the rotor, so it depends on the active capacity of the capacitor: C = Cmax '-? - 180 ° However, the multiplier angle should be a linear function of the wavelength X (in meters), expressed It is known by the Thomson formula: where L = coefficient of self-induction of the oscillating circuit, C = active capacitance and Co = dead capacitance of the capacitor (all expressed in centimeters). In order for the mentioned conjunctival relationship to be respected, the following condition must be met: 1 + p 180 ° 1 H 2 H 180 U, where p is an index of the condenser sensitivity; X max r Co - \ - Cmax will be 'then: ¦ "* ¦ = * o + Y- max - Xo; .- * -."; loi) Comparing both formulas for the capacitance C, we will easily obtain a direct relationship between: * • = TT? [2 "+" -

Claims (1)

Patent claims, 1. Gear modifying the rotational motion of variable plate capacitors with semicircular plates to rotational motion, which is a linear dependence on the length of the electromagnetic wave, characterized by the fact that the transposition of the motion takes place by the free sliding of the screw s, placed toa of the demultiplier wheel (h), along the curvilinear pattern ff), cut in a special plate (q), connected immobile with the rotor axis fc), along with the shape of the steering wheel curve (f) depends on the sensitivity of the capacitor (Fig. 6), which allows for a more precise adaptation of the gear to any capacitor, the pointer is placed on the axis of the demultiplier fo), composed of two gear or friction wheels (fig. 2, 3, 4). 2, A gear variant according to claim 1, characterized by the fact that the pointer is placed loosely on the rotor bush fe), connected with the aid of an additional toothed gear (as in a watch), with the axis fo) of a demultiplier, which allows to exploit on the scale of the device, almost the entire circumference (about 300 °) of the outer disk, and thus enables a more accurate scaling of the apparatus according to the length of the received wave (Fig. 1), Stanislaw Guzel. To patent description No. 7130, about 1 / u / / \ and 1 1 Print by L. Boguslawski, Warsaw. PL