1. Field of the Invention
The present invention relates generally to portable timepieces and, more specifically, to a portable watch in which a crown is held so as not be turned unintentionally or carelessly by utilizing engagement of screws.
2. Description of the Prior Art
Conventionally, a crown for operating a watch movement incorporated in a case band is a single component and includes a crown shaft section that moves the watch movement in association with the crown shaft section and a crown head that is formed integrally with the crown shaft section. The crown shaft section is inserted in a winding stem pipe, which is attached to the case band, and the crown head is fitted into a pipe end, which is located outside the case band, of the winding stem pipe.
There is known a portable watch in which, in order to prevent this crown from being turned carelessly, a male screw section is formed on an outer periphery of the pipe end, which is located outside the case band, of the winding stem pipe, and a female screw section is formed in the crown head to detachably engage the male screw section at the pipe end (see JP-A-57-46181 (page 1, right column, line 8 to page 2, left column, line 7, and
In this portable watch, in a normal state in which the watch movement is not operated, the crown is engaged with the male screw section of the pipe to bring the crown head into abutment against an outside surface of the case band, whereby careless turn of the crown can be controlled. An operation for holding the crown so as not to be turned carelessly will be hereinafter referred to as a screw lock operation, and a state in which the crown is held will be hereinafter referred to as a screw lock state. In addition, when the watch movement is operated, the winding stem connected to the watch movement can be turned together with the crown after the engagement of the crown with the male screw section is released to bring the crown into a pulled state.
Incidentally, a mechanical portable watch, in which a watch movement operated by a winding stem has a spiral spring as a drive source, is made such that, in a state in which a crown is arranged in a position where the crown is not pulled out, the spiral spring is wound up by a turning operation for this crown. In addition, a portable watch, in which a watch movement operated by a winding stem has plural operation modes, is made such that, in a state in which a crown is arranged in a position where the crown is not pulled out, the operation modes are switched by a turning operation for this crown.
A state in which a crown is arranged in a position where the crown is not pulled out is generally referred to as a “zero stage”. On the other hand, a position where the crown is pulled out for calendar adjustment or the like is generally referred to as a “first stage”. There is also known a portable watch in which, depending upon a situation, a crown can be pulled out to a pulled-out position of a “second stage” that is a position for time setting.
It is undesirable to apply the technique of the JP-A-57-46181 to a portable watch, which has a function of winding up a spiral spring with a crown arranged in a “zero stage”, or a portable watch, which has a function of changing an operation mode, due to the following reasons.
That is, in the portable watch of the JP-A-57-46181, the crown shaft section and the crown head are integrally formed. Thus, in the screw lock operation for engaging the crown in the male screw section of the winding stem pipe, since the crown shaft section is also turned, the winding stem connected to this crown shaft section is also turned together with the crown.
Consequently, in the application of the present invention to the portable watch having the function of winding up the spiral spring, the spiral spring is wound up as the crown is engaged with the male screw section of the winding stem pipe. A winding-up operation for the spiral spring is performed by manual winding or automatic winding. However, it is impossible to know in which winding state the spiral spring in the case band is. Therefore, in a state in which the spiral spring is wound up to a considerable degree, the screw lock operation with respect to the crown may be performed. In this case, the screw lock operation becomes particularly heavy, which is inconvenient. Accordingly, an excessive operation force is applied to the male screw section and the female screw section, and abrasion of these screw sections is accelerated.
Further, in the application of the present invention to the portable watch having the function of changing an operation mode, an operation mode is changed freely following the screw lock operation with respect to the crown. Consequently, the technique, which utilizes engagement of screws to prevent a crown from being turned carelessly, cannot be applied to the portable watch of this type.
A problem that the present invention is to solve is in providing a portable watch in which a crown can be held so as not to be turned carelessly utilizing engagement of screws without being restricted by a function of a watch movement, durability can be improved, and a screw lock operation for the crown is light.
In order to solve the problem, the present invention is a portable timepiece, such as a portable watch, in which a crown is held so as not to be turned carelessly utilizing engagement of screws, the crown including: a crown shaft that moves a winding stem in association with the crown shaft; a crown head that has a female screw section to be detachably engaged with a male screw section of a pipe attached to a case band and turns the crown shaft in a state in which this engagement is released; and a clutch that couples the crown shaft and the crown head so as to prevent turn of the crown shaft in a state in which the engagement is completed, and couples the crown shaft and the crown head so as to make it possible to turn this crown shaft following the crown head in a state in which the engagement is released.
In the present invention, by releasing the engagement of the female screw section of the crown head with the male screw section of the pipe, restraint of the crown head is released to allow this crown head to turn, and a relative position of the crown head and the crown shaft with respect to the axial direction changes, and the crown head and the crown shaft are coupled by the clutch. Consequently, a turning operation for the crown head under this coupling state is transmitted to the crown shaft via the clutch. Consequently, as the winding stem is turned, the watch movement in the case band can be operated. After this operation, the crown head is moved in the axial direction so as to come closer to an outside surface of the case band, and the female screw section of the crown head is engaged with the male screw section of the pipe, whereby the coupling by the clutch is released, and then the crown head comes into abutment against the outside surface of the case band to come into the screw lock state. In this way, immediately before the engagement of the crown head with respect to the pipe is completed, the crown head and the crown shaft are coupled again by the clutch. Thus, at a point when the engagement is completed immediately after this re-coupling, the turn of the crown shaft is prevented by the crown head held in the screw lock state. In this case, with the screw lock operation for obtaining the screw lock state, the crown head and the crown shaft are not coupled until the engagement is about to be completed. Thus, it is possible to control the crown shaft not to turn to transmit the turn to the watch movement following the screw lock operation.
In a preferred form of the present invention, the clutch includes: first and second driven sections, which are formed in a polygon or a gear shape and provided in parallel to each other in an axial direction of the crown shaft apart from an outer periphery of the crown shaft by a dimension of movement in the axial direction of the crown head; and a driving section that has a fitting hole of the same shape as these driven sections, is provided in the crown head, and is detachably engaged with the first and the second driven sections following the movement in the axial direction of the crown head. Thus, the present invention is excellent in that a structure of the clutch is simple.
In a preferred form of the present invention, a shaft portion between the first and the second driven sections are formed in a size to be inscribed in the fitting hole. Thus, the present invention is excellent in that, in moving the crown head in the axial direction, the driving section is guided to the shaft portion between the first and the second driven sections, and the crown head can be moved in the axial direction easily while controlling fluctuation in a posture of the crown head such as inclination.
In a preferred form of the present invention, the driving section is made of a ring that is fixed to an inner periphery of the crown head. Thus, the present invention is excellent in that a joint trace, which appears on a visually recognizable end face of the crown head, is preferable in appearance because the joining trace can contribute to giving impression that the crown head is machined with a lot of trouble.
In a preferred form of the present invention, the driving section is provided integrally with the crown head. Thus, the present invention is preferable in that there is no deficiency in coupling of the crown shaft and the crown head based on attachment deficiency of the driving section to an inner surface of the crown head, and the function of the clutch can be maintained surely for use in a long period.
In a preferred form of the present invention, a receiving section, which an end of the female screw section comes into contact with and separates from following the movement in the axial direction of the crown head in a state in which the engagement of the male screw section and the female screw section is released, is provided on an outer periphery of the crown shaft closer to an outside surface of the case band than the clutch. Thus, the crown head is positioned with respect to the axial direction of the crown shaft with the end of the female screw section hooked on to the receiving section.
In a preferred form of the present invention, the receiving section and the driving section are arranged so as to be opposed to each other in the axial direction, and an elastic body, which biases the crown head in a direction in which the crown head moves away from the outside surface of the case band, is provided between the receiving section and the driving section. Thus, the present invention is excellent in that, simultaneously with the engagement of the male screw section and the female screw section being released, the crown head is moved in the axial direction by a biasing force of the elastic body so as to hook the end of the female screw section on the receiving section, and the driving section is positioned with respect to the second driven section by the hook, whereby the crown shaft and the crown head can be coupled such that the crown shaft can turn.
A preferred form of the present invention is illustrated in the accompanying drawings in which:
A first embodiment of the present invention will be explained with reference to
In
As shown in
As shown in
A tubular member (first tubular member) in the form of a pipe 21 is inserted into the pipe attachment hole 17 from the outside of the case band and is attached to the case band 14 by brazing or the like. In
The crown 31 includes a crown shaft 32, a crown head 33, a clutch member 34 (hereinafter “clutch”), and an elastic body, for example, a coil spring 35.
The crown shaft 32 is made of, for example, metal, preferably stainless steel. As shown in
A winding stem 36, which transmits a turning force of the crown 31 to the watch movement 13, is screwed from the inside of the case band and coupled to a tip of the inserting shaft section 32a. Consequently, the winding stem 36 and the crown shaft 32, which are coupled to each other, cannot move in the axial direction. An annular waterproof gasket 37, which consists of an elastic material such as rubber, is inserted in an annular recess formed on an outer periphery of the tip of the inserting shaft section 32a. This gasket 37 elastically adheres to the annular recess and an inner periphery of the pipe 21. Consequently, a part between the inner periphery of the pipe 21 and the crown shaft 32 is waterproofed.
The shaft end 32b has a diameter larger than the inserting shaft section 32a. The receiving section 32c is provided forming an annular brim. This receiving section 32c has a diameter larger than outer diameters of the shaft end 32b and the male screw section 24.
The crown head 33 is made of, for example, metal, preferably, stainless steel and is formed in a cylindrical shape as shown in
The clutch 34 is adapted to couple the crown shaft 32 and the crown head 33 so as to prevent the turn of the crown shaft 32 in a state in which engagement of the male screw section 24 and the female screw section 38 is completed (this coupling will be hereinafter referred to as a first coupling state), couples the crown shaft 32 and the crown head 33 so as to make it possible to turn the screw shaft 32 following the screw head 33 in a state in which the engagement is released (this coupling will be hereinafter referred to as a second coupling state), and releases the coupling in states other than the two states. For this purpose, the clutch 34 has, for example, a first driven section 41, a second driven section 42, and a driving section 43.
More specifically, as shown in
The driving section 43 engages with and disengages from the first and the second driven sections 41 and 42 selectively, has a fitting hole 43a of the same shape as the first and the second driven sections 41 and 42, that is, the regular pentagon as illustrated in
A shaft portion 32bc between the first and the second driven sections 41 and 42 of the shaft end 32b is made in a thickness inscribing each side of the fitting hole 43a included in the driving section 43. Consequently, since the driving section 43 is guided to the shaft portion 32bc when the crown head 33 is moved in the axial direction, the crown head 33 can be moved in the axial direction easily and smoothly while controlling fluctuation in a posture of the crown head 33 such as inclination. Therefore, engagement and disengagement operations of the fitting hole 43a of the driving section 43 with respect to the first and the second driven sections 41 and 42 are easy.
The coil spring 35 is nipped between the receiving section 32c and the driving section 43, which are opposed to each other in the axial direction of the crown shaft 32, and is provided while always biasing the crown head 33 in a direction in which the crown head 33 moves away from the outside surface 14b of the case band 14.
In the wristwatch 10 including the above-mentioned structure, a state in which the crown 31 is arranged in a position where the crown 31 is not pulled out (generally referred to as a “zero stage”) is shown in
Consequently, in a state in which the coil spring 35 is compressed strongly between the driving section 43 and the receiving section 32c of the crown shaft 32, regardless of the fact that the crown head 33 is biased in the direction in which the crown head 33 moves away from the case band 14, the crown head 33 is not moved in the axial direction because of the engagement. At the same time, since the clutch 34 is in the first coupling state, and the fitting hole 43a of the driving section 43 and the first driven section 41 are engaged with each other, the crown shaft 32 is prevented from turning with respect to the crown head 33. In this way, in the “zero stage”, the crown 31 is in the screw lock state. In this screw lock state, as shown in
When time setting for the watch movement 13 is performed, the crown 31 in the screw lock state is pulled out to the position, which generally referred to as the “first stage”, and turned. That is, first, the crown head 33 is turned in a loosening direction to bring the crown head 33 into a state in which the female screw section 38 thereof is disengaged from the male screw section 24 of the pipe 21. In this case, in an initial stage of the turn of the crown head 33 in the loosening direction, since the driving section 43 and the first driven section 41 are fitted with each other, the crown shaft 32 is turned in association with the crown head 33. However, the crown head 33 moves axially in a direction in which the crown head 33 moves away from the outside surface 14b of the case band 14 in accordance with the turn in the loosening direction thereof, the fitting of the driving section 43 and the first driven section 41 is released promptly in the initial stage. Consequently, the transmission of a turning force to the watch movement 13 according to the association of the crown shaft 32 with the crown head 33 turned in the loosening direction is substantially negligible.
The fitting of the driving section 43 and the first driven section 41 is released as described above, whereby the first coupling state of the crown shaft 32 and the crown head 33 by the clutch 34 is released. Simultaneously with this, the crown head 33 is moved easily without a manual operation along the axial direction of the crown shaft 32 by a spring force (biasing force) of the coil spring 35. The crown shaft 32 is never turned following this movement in the axial direction.
In accordance with this movement in the axial direction of the crown head 33, the clutch 34 comes into the second coupling state to couple the crown shaft 32 and the crown head 33. That is, the fitting hole 43a of the driving section 43 is fitted to an outer periphery of the second driven section 42. Simultaneously with this second coupling state being created, the end 38a of the female screw section 38 comes into abutment against the receiving section 32c of the crown shaft 32, and the movement in the axial direction of the crown head 33 is regulated. The crown head 31 released from the screw lock state is held in the pulled-out position, which is generally referred to as the “first stage”, by positioning according to this regulation as shown in
The crown 31 can be turned manually in this pulled-out position. That is, in the second coupling state in which the fitting hole 43a of the driving section 43 is fitted to the outer periphery of the second driven section 42, turn of the crown head 33 is transmitted to the crown shaft 32 via the clutch 34. Since a turning force is given to the watch movement 13 via the winding stem 36 following the transmission of the turn, adjustment of time-setting or the like for this watch movement 13 can be performed.
After this adjustment, the crown 31 is brought into the lock state (see
In this operation for obtaining the screw lock state, the clutch 34 is released from the second coupling state of the crown head 33 and the crown shaft 32 in the early stage of the turn of the crown head 33. In addition, immediately before completion of engagement of the male screw section 24 and the female screw section 38, the clutch 34 comes into the first coupling state for coupling the crown head 33 and the crown shaft 32. Then, the transmission of the crown head 33 is never transmitted to the crown shaft 32 in most of the period in which the crown head 33 is turned in the tightening direction, that is, from a point when the clutch 34 is released form the second coupling state until the clutch 34 comes into the first coupling state.
Incidentally, in a stage immediately before the engagement of the female screw section 38 with the male screw section 24 is completed, since the clutch 34 comes into the first coupling state, the crown shaft 32 turns following the crown head 33 that is turned in the tightening direction. However, an amount of turn of the crown head 33, which is required from a start point of this following turn until the one end face 33a of the screw head 33 comes into abutment against the outside surface 14b of the case band 14 and the engagement is completed, is a little. Consequently, the association of the crown shaft 32 with the crown head 33, which is turned in the tightening direction, is substantially negligible.
Therefore, it is possible to control the crown shaft 32 not to turn following the screw lock operation, which has already been described, for obtaining the screw lock state to transmit the turn to the mechanical watch movement 13. Consequently, in the screw lock operation, the spiral spring included in the watch movement 13 is controlled not to be a load. Therefore, for example, even in a state in which the spiral spring is wound up considerably, the screw lock operation for the crown 31 can be performed lightly, and operability is high. Note that, in the case in which the watch movement 13 is not mechanical but has the function of changing an operation mode with the crown 31 arranged in the “zero stage” position, a turning force following the screw lock operation for the crown 31 is controlled not to spread to the watch movement as described above. Thus, an operation mode is never changed carelessly.
In addition, since the screw lock operation in the mechanical clock movement 13 having the spiral spring can be performed lightly as described already, an excessive turning operation force is never applied to the male screw section 24 and the female screw section 38. Thus, durability of these screw sections 24 and 38 can be improved.
A second embodiment of the present invention will be explained with reference to
In the second embodiment, the female screw section 38, which is formed in an inner surface of a tubular member (second tubular member) and is provided separately from the crown head 33, is fixed to the inner periphery at one end in the axial direction of the crown head 33 by caulking. Moreover, the driving section 43 of the clutch 34 is formed integrally with the inner periphery at the other end in the axial direction of the crown head 33. Other than the points explained here, the second embodiment including the structures not shown in
Therefore, even with the wristwatch 10 of this second embodiment, the same action as the first embodiment can be obtained to solve the problems that the present invention is to solve. Moreover, since the driving section 43 is provided integrally with the crown head 33, there is no deficiency in attachment of the driving section 43 to the crown head 33. Consequently, there is not deficiency in coupling of the crown shaft 32 and the crown head 33 due to the deficiency in attachment, the function of the clutch 34 can be maintained surely over a long-term use, and a caulking trace can be made invisible.
The present invention is not limited to both the embodiments described above. For example, the crown head 33 can be formed in a length that substantially covers the entire outer periphery of the shaft end 32b when the crown head 33 is in the screw lock state. In this structure, while maintaining a function of allowing a user to know whether a state of the crown 31 is the screw lock state or the state in which screw lock is released according to a mutual positional relation between the end face of the crown head 33 and the shaft end 32b of the crown shaft 32, the second driven section 42 can be made less likely to be operated in the screw lock state to turn the crown shaft 32 carelessly.
In the present invention, the coil spring 35 of the crown 31 may not be provided. In this case, in bringing the crown head 33 into the screw lock state, the crown head 33 is not subjected to resistance of the coil spring. 35. Consequently, the crown head 33 can be moved in the axial direction toward the outside surface 14b of the case band 14 with a light operation.
In both the embodiments described above, the first and the second driven sections 41 and 42 of the clutch 34 are formed with regular polygonal projections, and the driving section 43 is constituted to have the regular polygonal fitting hole. Alternatively, in the present invention, the first and the second driven sections 41 and 42 can be formed of external gears, and the driving section 43 can be formed of an internal gear.
According to the present invention, it is possible to control the crown shaft not to turn following the screw lock operation to transmit the turn to the watch movement. Consequently, a portable watch can be provided in which the screw lock operation for the crown can be performed lightly so that durability of the male screw section of the pipe and the female screw section of the crown head can be improved, and moreover, it is possible to hold the crown so not to be turned carelessly or unintentionally by utilizing engagement of screws without being restricted by functions of the watch movement, for example, a function of winding up a spiral spring and a function of changing an operation mode.
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2003-362728 | Oct 2003 | JP | national |
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Number | Date | Country | |
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20050088920 A1 | Apr 2005 | US |