Coil-type meter

Details Coil-type meter Coil-type meter

2001-03-08

2003-03-25

Lefkowitz, Edward (Department: 2862)

Electricity: measuring and testing

Measuring, testing, or sensing electricity, per se

With electromagnetic field

C324S15100R

Reexamination Certificate

active

06538423

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a coil instrument which rotates a rotor magnet by energizing a coil, for example, a coil instrument incorporated in a combination meter for a vehicle.
BACKGROUND OF THE INVENTION
As a coil instrument applicable to a meter for vehicle, for example, a cross-coil instrument has been generally well known. The cross-coil instrument is called “an air core type movement” and is constituted such that a rotor magnet is accommodated in a space defined in a housing, a rotor shaft fixed to the rotor magnet is pivotally supported on the housing, one end of the rotor shaft is protruded to the outside of the housing, a pointer is mounted on a protruded end of the rotor shaft, and a pair of coils are wound around an outer periphery of the housing in such a manner that the coils cross at a right angle. The rotor magnet (pointer) is rotated due to a resultant magnetic field generated by energizing respective coils. By controlling energizing quantities (inputting signals) to respective coils in response to a measured quantity, the pointer can be angularly moved in response to the measured quantity.
By the way, in such a cross-coil instrument, it has been known that due to the winding diameter dimension difference and the magnetic hysteresis or the like of respective coils which are generated by winding a pair of coils in layers in a crossing manner, an error occurs on a rotating angle (an output angle) of the pointer in response to an input signal and this error appears as the indication error. To cope with this, as disclosed in Japanese Laid-open Patent Publication 27146/1994, it may be possible to propose an idea that a pointer shaft on which a pointer is fixedly mounted is provided independently from a rotor shaft on which a rotor magnet is fixedly mounted and both of these shafts are connected by way of gears so as to rotate the pointer shaft at a reduced speed compared with the rotor shaft whereby the occurrence of the indication error can be suppressed.
However, the cross-coil instrument disclosed in the above-mentioned publication has a drawback that in addition to the constitution that a pair of coils are wound around the housing in a laminated manner, gears are further stacked on the housing around which the coils are wound, the height dimension of the instrument becomes large so that the instrument has to become large-sized.
The present invention has been made in view of the above and it is a main object of the present invention to provide a coil instrument which can maintain a compact constitution even when a pointer-side rotary shaft is rotated at a reduced speed by way of gears.
DISCLOSURE OF THE INVENTION
The coil instrument according to the present invention comprises a rotor shaft having a rotor magnet and a first gear rotatable along with the rotor magnet, a pointer shaft having a second gear connected with the first gear, and a pair of coils arranged such that the coils opposedly face an outer peripheral surface of the rotor magnet where the second gear is not arranged and give a rotational force to the rotor magnet upon energization thereof. Due to such a constitution, even when the rotary shaft at the pointer side is subjected to the deceleration rotation by way of gears, the compact coil instrument can be provided.
Further, the coil instrument according to the present invention comprises a rotor shaft having a rotor magnet and a first gear rotatable along with the rotor magnet, a pointer shaft having a second gear connected with the first gear, a housing supporting the pointer shaft and the rotor shaft in parallel, and a pair of coils arranged such that the coils opposedly face an outer peripheral surface of the rotor magnet where the second gear is not arranged and give a rotational force to the rotor magnet upon energization thereof. Due to such a constitution, even when the rotary shaft at the pointer side is subjected to the deceleration rotation by way of gears, the compact coil instrument can be provided.
Further, the coil instrument according the present invention comprises a rotor shaft having a rotor magnet and a first gear rotatable along with the rotor magnet, a pointer shaft having a second gear connected with the first gear, and a pair of coils arranged such that the coils opposedly face an outer peripheral surface of the rotor magnet where the second gear is not arranged in a state that respective winding central axes of the coils cross each other with a given crossing angle at or in the vicinity of the rotary center of the rotor magnet and give a rotational force to the rotor magnet upon energization thereof. Due to such a constitution, even when the rotary shaft at the pointer side is subjected to the deceleration rotation by way of gears, the compact coil instrument can be provided.
Further, the coil instrument according to the present invention comprises a rotor shaft having a rotor magnet and a first gear rotatable along with the rotor magnet, a pointer shaft having a second gear connected with the first gear, a housing supporting the pointer shaft and the rotor shaft in parallel, and a pair of coils arranged such that the coils opposedly face an outer peripheral surface of the rotor magnet where the second gear is not arranged in a state that respective winding central axes of the coils cross each other with a given crossing angle at or in the vicinity of the rotary center of said rotor magnet and give a rotational force to the rotor magnet upon energization thereof. Due to such a constitution, even when the rotary shaft at the pointer side is subjected to the deceleration rotation by way of gears, the compact coil instrument can be provided.
Further, in the coil instrument according to the present invention, the crossing angle made by the winding center axes of respective coils is set to approximately 90 degrees. Due to such a constitution, the magnetic field vectors generated at respective coils cross at an approximately right angle and hence, magnetic forces of the coils can be made to effectively act on the rotor magnet.
Further, in the coil instrument according to the present invention, the crossing angle made by the winding center axes is set to less than 90 degrees. Due to such a constitution, the width dimension of the housing including the coils can be made small.
Further, in the coil instrument of the present invention, the rotary center of the rotor magnet is positioned closer to the coil side than the crossing point made by the winding central axes of the respective coils. Due to such a constitution, the width dimension of the housing including the coils can be made small.
Further, in the coil instrument of the present invention, the first gear is provided with first continuous teeth on an outer periphery thereof, the second gear includes a accommodating portion which accommodates the first gear on an outer periphery thereof, and second continuous teeth which are meshed with the first continuous teeth are formed on an inner periphery of the accommodating portion. Due to such a constitution, while realizing the deceleration rotation of the pointer shaft to the rotor shaft, the rotor shaft and the pointer shaft can be made to approach each other and hence, the width dimension of the coil instrument can be made small by an approaching quantity.
Further, in the coil instrument of the present invention, an outer diameter of the first gear is smaller than an outer diameter of the rotor magnet, an outer diameter of the second gear is larger than the outer diameter of the first gear, and the second gear is arranged such that the second gear overlaps the rotor magnet with a given distance therebetween. Due to such a constitution, it is unnecessary to interpose other gears between these respective gears and hence, the width dimension of the instrument can be made small.
Further, in the coil instrument of the present invention, a coil supporting portion which supports the respective coils is contiguously formed on the housing. Due to such a constitution, the directions of the winding center axes of

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