DE412743C - Spring group connected to a swing body - Google Patents

Description

Spring group connected to an oscillating body. Present invention relates to a group of springs connected to an oscillating body, in particular for clock balances.

The drawing shows two exemplary embodiments in Fig. i and 2, elevation and plan view of a first form, and in Fig. 3 and q. Elevation and Plan of a second form.

According to fig. I and 2 the spring group consists of four springs r1, r2, r3, r4. Each spring has a fixed point Q1, Q2, Q3, Q4 and an oscillating attachment point V1, V2, I13, T14, which is located on an oscillating element, here a balance wheel of a clock, the movable attachment points 11., T12 being opposite one another, as well as points T13, T14. Each spring is also relaxed when the oscillating element is at rest, and in this state forms an exact helical line, the axis of which coincides with the oscillating axis of the element.

Each of the groups r1, r2 and r., R4 is composed of two identical springs, one of which opens while the other closes, and each group therefore forms a sinusoidal two-spring system, which is known per se and is suitable in the following to make the oscillations of the balance wheel isochronous according to the ratio where p is the coil length of the relaxed spring, i.e. the length expressed in turns and fractions of turns.

As is well known, every spring acts on the wheel except with a couple of torsional forces still with a complementary power of this couple, their mechanical origin lies in the fact that the spring is firmly clamped at one end. We dismantle this force in a lying in the plane of the wheel or transverse component and in a Component perpendicular to the vibration axis or a longitudinal component.

Each of the groups of springs r1, r2 and r3, r4 shows the following properties. In each group, the two springs open and close at the same time, and the attachment points are symmetrical to the axis of oscillation. In addition, the coils of the two springs run in opposite directions to each other. It follows that the aforementioned transverse components cancel each other out. In addition, the pressures combine in the longitudinal direction to form a pair which in itself does not impair the isochronism, but generates a disturbing friction and that the lack of isochronism present for the latter reason is smaller than In Fig. 3 and 4 everything behaves similarly to Fig. T and 2, except that the groups r1, r2 and r8, r, "have special peculiarities.

Both springs are symmetrical with respect to a point on the oscillation axis, they open and close at the same time, but their movements are opposite to each other. Their winding lengths are p and p. The same follows from this as for the embodiment of Figs. r and 2, namely that the transverse components cancel each other out.

Claims (2)

PATENT CLAIMS: i. Spring group connected to an oscillating body, which consists of two sinusoidally oscillating spring systems, characterized in that, that each of these systems consists of two identical springs with opposite springs Fastening points and with opposite winding directions and that the four springs have the same coil length (p) to accommodate any axle compression and avoid the disruption of isochronism to the smallest possible ratio bring to. 2. With a vibrating body connected spring group, which consists of two or more sinusoidal spring systems, characterized in that each of these systems consists of two springs of the same material, of the same cross-section, the same radius, but opposite turns, but of the same coil length and with each other opposite fastening points, and further characterized in that the corresponding parts of the two systems are twisted in opposite directions in order to avoid any axial compression and to bring the disturbance of the isochronism to as small a ratio as possible.