THERMALLY COMPENSATING BALANCE WHEEL
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Accused Products
Abstract
A balance wheel having a thermally adjustable moment of inertia is described. In one aspect, the balance wheel includes radially movable compensation portions formed of shape memory material exhibiting a two-way memory effect. The radius of gyration of the balance wheel is therefore adjustable with temperature to compensate for thermoelastic effects in a balance spring attached to the balance wheel. In another aspect, a thermally stable balance wheel includes dynamically adjusting appendages whose expansion or contraction with temperature relative to the balance wheel cause change in its moment of inertia. The invention can compensate for both ‘normal’ and ‘abnormal’ thermoelastic spring behaviour.
47 Citations
40 Claims
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1-25. -25. (canceled)
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26. A balance wheel for use in conjunction with a balance spring in a mechanical oscillator system in a horological or other precision instrument, the balance wheel comprising:
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a body of non-magnetically sensitive material having a linear coefficient of thermal expansion of 9×
10−
6 K−
1 or less; anda plurality of non-magnetically sensitive compensating appendages arranged in equipoise on the body, each appendage comprising a mass element attached to the body via a compensation structure, the compensation structure being arranged to move the mass element relative to the centre of mass of the body with an increase or decrease in temperature; wherein the mass element is adjustably mounted on the compensation structure to permit the position of the centre of mass of the mass element relative to the compensation structure to be altered; the compensation structure is adjustably mounted on the body to permit a direction of movement of the mass element relative to the centre of mass of the body with an increase or decrease in temperature to be altered; and expansion or contraction of each appendage with an increase or decrease in temperature is arranged to move its centre of mass relative to the centre of mass of the body to alter a mass distribution of the balance wheel relative to its centre of mass to compensate for a change in the elasticity of the balance spring caused by the increase or decrease in temperature. - View Dependent Claims (27, 28, 29, 30, 31, 32)
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33. A balance wheel for a mechanical oscillator system in a horological or other precision instrument, all or part of the balance wheel comprising shape memory material that is arranged to change shape with an increase or decrease in temperature to alter a mass distribution of the balance wheel relative to its centre of mass.
- 34. A thermally compensating balance wheel for use in conjunction with a thermally stable balance spring in a mechanical oscillator system in a horological or other precision instrument, the balance wheel including a compensation portion made of shape memory material, wherein the compensation portion is arranged to change shape with an increase or decrease in temperature to alter a mass distribution of the balance wheel relative to its centre of mass to compensate for a change in the elasticity of the balance spring caused by the increase or decrease in temperature.
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40. A mechanical oscillator system for a horological or other precision instrument, the system including a thermally compensating balance wheel connected to a balance spring made from a non-magnetically sensitive material having a coefficient of thermal expansion that is less than 6×
- 10−
6 K−
1, the balance wheel including a compensation portion made of shape memory material, wherein the compensation portion is arranged to change shape with an increase or decrease in temperature to alter a mass distribution of the balance wheel relative to its centre of mass to compensate for a change in the elasticity of the balance spring caused by the increase or decrease in temperature.
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Specification