1. Field of the Invention
The present invention relates to a portable watch in which, structurally, a crown is so retained as not to accidentally rotate.
2. Description of the Prior Art
In a portable watch exemplified by a divers watch, adopted is the structure in which a crown is locked utilizing screw engagement (such a structure is referred to as screw lock in this specification) to prevent the crown from accidentally rotating when the portable watch is carried around.
The screw lock structure is the structure in which a case band including a watch movement is attached with a winding stem pipe, and to a male screw section formed to the outer rim of an extracase-band end section of the pipe, a female screw section locating at a crown main section to be fit to the extracase-band end section is screwed. With such a structure, under normal circumstances, the crown main section is screwed into the outer rim of the extracase-band end section so that the crown is locked. In order to operate the watch movement, the crown main section is unscrewed from the male screw section, and after pulling out the crown, a winding stem locating inside of the winding stem pipe can be operated for rotation.
With the conventional portable watch of such a screw lock structure, generally, a winding-stem-pipe-attachment section can be waterproof by brazing the winding stem pipe to the case band (see JP-A-57-46181 (from 8th line, right column, page 1 to 7th line, left column, page 2,
Other than the above, also known is another portable watch of a type aiming for waterproof capability of the winding-stem-pipe-attachment section. Therein, in the middle part of the winding stem pipe in the axial direction, a male screw section is provided separately from another male screw section to which a crown is screwed together so that the male screw section is screwed into the pipe-attachment hole of the case band, and after this screwing is completed, a waterproof gasket is sandwiched between the case band and the winding stem pipe.
In a portable watch with the screw lock structure, repeatedly operating the crown for rotation will cause both the screwing-together female screw section of the crown and the male screw section of the winding stem pipe to be worn out or chipped, resultantly reducing the screw lock capability.
In such a case, the portable watch of JP-A-57-46181 in which the case band is brazed with the winding stem pipe does not allow exchange of components locating close to the crown if requiring removal of the winding stem pipe from the case band. There is thus no choice to exchange the watch exterior assembly including the case band. As such, there has been a demand for improvement thereof.
With a watch having a winding stem pipe screwed into a case band, it has been considered that, in principle, exchange is possible for components including the winding stem pipe, locating close to the crown. Even with such a structure, however, the winding stem pipe receives rotation forces every time the crown is screwed into the winding stem pipe or every time this screwing is unscrewed. Accordingly, the screwing of the winding stem pipe into the case band becomes loose, resultantly possibly causing the waterproof capability achieved by a waterproof gasket to be reduced.
As measures against that, adhesive filling is sometimes done to the section at where the winding stem pipe and the case band are screwed together. If adhesive is used for attachment as such, the winding stem pipe becomes difficult to be removed from the case band, and in practical sense, exchange of components locating close to the crown becomes impossible. As a result, there has been no choice to exchange the watch exterior assembly including the case band if the screw lock capability is reduced. As such, there has been a demand for improvement thereof.
An object to be achieved by the present invention is to provide a portable watch capable of exchange of components locating close to the crown when the screw lock capability is reduced while retaining waterproof capability of the winding-stem-pipe-attachment section.
In order to achieve the above object, the present invention is characterized in that, a screw section being a reverse screw for a first male screw section of a winding stem pipe to be screwed into a pipe-attachment hole of a case band in a removable manner is provided to an intracase-band end section of the winding stem pipe, a clamp ring is screwed together with the screw section of the intracase-band end section in a removable manner, the ring and the extracase-band end section of the winding stem pipe to which the crown is screwed sandwich the case band, and a waterproof gasket is sandwiched between the case band and the winding stem pipe.
In the present invention, responding to operation of the crown for exerting or canceling the screw lock capability, when the winding stem pipe receives the rotation forces in the direction to loosen, the clamp ring is fastened to a greater degree. In this manner, the winding stem pipe can be prevented from loosening without using adhesive to attach the winding stem pipe, and the waterproof capability of the waterproof gasket sandwiched between the pipe and the case band can be retained. Moreover, the clamp ring can be removed from the intracase-band end section of the winding stem pipe in the intracase-band side, and the winding stem pipe is also removable from the case band as being screw-in type. Therefore, even if the screw lock capability is reduced, the winding stem pipe and the crown can be separately exchanged.
In a preferable embodiment of the present invention, the outer diameter of a screw section of the intracase-band end section is formed to be smaller than the outer diameter of the first male screw section. This embodiment is considered superior in the respect that, when the screw section of the intracase-band end section is a male screw section, the winding stem pipe can be easily inserted or removed to/from the pipe-attachment hole while suppressing snagging between the screw section and the male screw section locating inside of the pipe-attachment hole of the case band.
In the preferable embodiment of the present invention, the clamp ring is a square nut. In this embodiment, in a case of attaching or removing the clamp ring to/from the intracase-band end section of the winding stem pipe, it becomes possible to operate the tool from the direction orthogonal to the axial line of the winding stem pipe. This is preferable for performing attachment/removal operation of the clamp ring in the intracase-band side being narrow.
In the preferable embodiment of the present invention, the extracase-band end section is provided with an engagement section for causing the extracase-band end section to be engaged with a tool for rotating the winding stem pipe. This engagement section is formed by a square hole opening toward the end plane of the extracase-band end section, or a hexagon exposing toward the outer rim plane of the extracase-band end section. This embodiment is preferable in the respect of rotating, using a tool, the winding stem pipe being difficult to operate for rotation directly by hands. Furthermore, at the time of attaching/removing the clamp ring, it is also preferable to retain the winding stem pipe using the tool not to rotate.
A preferred form of the present invention is illustrated in the accompanying drawings in which:
In the below, described is a first embodiment of the present invention by referring to FIGS. 1 to 5.
A reference numeral 11 in
The watch exterior assembly 12 is so formed that a cover glass 14 is attached to be liquid tight over an annular metallic case band 13 in its thickness direction, and a case back 15 (refer to
As shown in
The case band 13 is attached with a metallic winding stem pipe 21 to be removable from the extracase-band side by going through the pipe-attachment hole 17.
In detail, as shown in
The winding stem pipe 21 is provided with, at one end thereof in the axial direction, an intracase-band end section 23, which is so arranged as to protrude toward the intracase-band side after going through the pipe-attachment hole 17. The outer rim plane of the end section 23 is formed with a screw section 24. The screw section 24 is structured by a screw reverse to the first male screw section 22 being a right-hand screw, that is, structured by a male screw section being a left-hand screw in a first embodiment. The outer diameter of the screw section 24 is formed smaller than both the outer diameter of the first male screw section 22 and the inner diameter of the female screw section 17a. Through establishing of such a dimensional relationship, it becomes possible to insert or remove the winding stem pipe 21 to/from the pipe-attachment hole 17 while suppressing snagging between the screw section 24 being a male screw section and the female screw section 17a locating inside of the pipe-attachment hole 17.
The winding stem pipe 21 is provided with, at the other end thereof in the axial direction, an extracase-band end section 25 arranged on the extracase-band side. This end section 25 is in the form of annular flange protruding outside in the diameter direction, and the outer diameter thereof is formed larger than that of the gasket accommodation groove 18. To the outer rim plane of the extracase-band end section 25, a second male screw section 26 is provided. This second male screw section 26 may be either a right-hand screw or a left-hand screw, but preferably, it is preferable to have it the right-hand screw as the first male screw section 22.
The extracase-band end section 25 has an abutment plane 25a with respect to an extracase-band plane 13a. This abutment plane 25a is formed by a plane made along in the direction orthogonal to the axial direction of the winding stem pipe 21. Further, the extracase-band end section 25 has an engagement section 27. As shown in
The winding stem pipe 21 structured as above is attached to the case band 13, the outer rim of which is engaged with a waterproof gasket 28 such as a rubber ring in such a manner as to abut to the abutment plane 25a, and is screwed into the pipe-attachment hole 17 from the intracase-band end section 23 from the outside of the case band 13. Through such attachment, the intracase-band end section 23 of the winding stem pipe 21 protrudes into the inside of the case band 13, and the extracase-band end section 25 is defined by position in the axial direction with its abutment plane 25a abutting to the outside plane 13a of the case band 13.
Through such attachment of the winding stem pipe 21, the waterproof gasket 28 is accommodated in the gasket accommodation groove 18, and also sandwiched between the furthest plane of the grove 18 and the abutment plane 25a by changing in shape due to its elasticity through compression. As a result, the waterproof gasket 28 is so provided for the purpose of achieving waterproof between the case band 13 and the winding stem pipe 21. The position to sandwich the waterproof gasket 28 is not limited, as long as locating between the case band 13 and the winding stem pipe 21. However, as in the present embodiment, placing it in such a manner as to exert the waterproof capability on the side exterior to the screwing part between the case band 13 and the winding stem pipe 21 is considered preferable in the respect of avoiding water to the screwing section.
To the screw section 24 of the intracase-band end section 23 of the winding stem pipe 21 located on the intracase-band side, a metallic clamp ring 29 is screwed in a removable manner. The clamp ring 29 is clamped until it abuts to the inner plane 13b (refer to
To the clamp ring 29, a square nut, for example, a hexagon nut as shown in
A crown denoted by a reference numeral 31 in
The crown tube section 33 is inserted into the winding stem pipe 21 from the extracase-band side. To an annular gasket attachment groove formed to the outer rim of the tube section 33, an annular waterproof rubber gasket 36 is attached. The waterproof gasket 36 is sandwiched between the inner rim plane of the winding stem pipe 21 and the outer rim plane of the crown tube section 33 by changing in shape due to its elasticity through compression, for the purpose of achieving waterproof therebetween. The crown tube section 33 is inserted with a winding stem 37 of the watch movement from the intracase-band side, and accommodating a coil spring 39 biasing the winding stem 37 in the axial direction via a spring bearing 38. The watch movement rotates in relation with the rotation operation of the crown 31 with the female screw section 35 being disengaged with the second male screw section 26, in other words, with screw lock released. In such a manner, time adjustment and others are carried out.
Described now is the attachment procedure for the winding stem pipe 21 to the case band 13 of the divers watch 11 structured as above.
First, the winding stem pipe 21 is inserted, from the screw section 24 thereof, to the pipe-attachment hole 17 of the case band 13 from the extracase-band side, and then screwed thereinto using a tool, which is not shown, engaged to the engagement section 27. This screwing is done with the waterproof gasket 28 previously fit in the gasket accommodation groove 18 for retention, or with the waterproof gasket 28 fit to the outer rim of the winding stem pipe 21 so as to abut to the abutment plane 25a in advance.
In this manner, the first male screw section 22 of the winding stem pipe 21 is screwed into the female screw section 17a of the pipe-attachment hole 17. At the last stage of this screwing, the intracase-band end section 23 of the winding stem pipe 21 protrudes into the intracase-band side of the case band 13, and the extracase-band end section 25 of the winding stem pipe 21 compresses the waterproof gasket 28, whereby the abutment plane 25a of the extracase-band end section 25 closely attaches to the outer plane 13a of the case band 13.
Next, the clamp ring 29 is screwed into the screw section 24 of the intracase-band end section 23 protruding inside of the case band 13. Then, this ring 29 is clamped using another tool, which is not shown, so as to closely attach the clamp ring 29 to the inner plane 13b of the case band 13. In this case, by retaining the not-shown above-mentioned tool with it engaged to the engagement section 27, it allows to realize the clamp operation of the clamp ring 29 while preventing the winding stem pipe 21 from rotating.
By going through such a procedure, the extracase-band end section 25 of the winding stem pipe 21 screwed into the pipe-attachment hole 17 and the clamp ring 29 sandwich the pipe-attachment hole 17 of the case band 13 and therearound. As such, the winding stem pipe 21 is completely attached to the case band 13. This state of attachment completion is shown in
Thereafter, attachment of the crown 31 is to be carried out. In this case, first, the crown tube section 33 of the crown 31 is inserted into the winding stem pipe 21 from the extracase-band side with the winding stem 37 connected thereto, and the female screw section 35 of the crown main section 32 is screwed with the second male screw section 26 of the winding stem pipe 21, and then clamped with positive rotation (right rotation). When the crown 31 is screwed into the second male screw section 26 to the furthest point, the crown main section 32 is defined by position when abutting to the outer plane 13a of the case band 13 as shown in
Through such assembly, the waterproof capability is exerted and retained around the winging stem pipe 21. That is, waterproof between the winding stem pipe 21 and the case band 13 can be secured thanks to the waterproof gasket 28 sandwiched therebetween by changing in shape due to its elasticity through compression. Further, waterproof between the winding stem pipe 21 and the crown tube section 33 internally inserted thereinto can be secured thanks to the inner waterproof gasket 36 sandwiched therebetween by changing in shape due to its elasticity through compression.
In the divers watch 11 assembled as shown in
Responding to attachment or removal of the crown 31 to/from the second male screw section 26 of the extracase-band end section 25, effected are the forces for rotating the winding stem pipe 21. In detail, in the first embodiment, in a case of locking the crown 31, effected are the forces in the direction of enforcing screwing of the winding stem pipe 21 to the pipe-attachment hole 17. On the other hand, in a case of releasing the screw lock of the crown 31, effected are the forces in the direction of loosening screwing of the winding stem pipe 21 to the pipe-attachment hole 17.
In the former case, the winding stem pipe 21 does not loosen, and thus the waterproof capability of the waterproof gasket 28 is not reduced. On the other hand. in the latter case, the winding stem pipe 21 tends to loosen, but actually, does not loosen due to the following reasons.
That is, the winding stem pipe 21 is fixed in the axial direction not to move by the clamp ring 29 screwed into the intracase-band end section 23 and the extracase-band end section 25. Moreover, the screw section 24 screwed with the clamp ring 29 is structured to be a reverse screw to the first male screw section 22 of the winding stem pipe 21 screwed into the pipe-attachment hole 17 of the case band 13. Accordingly, when the winding stem pipe 21 receives the rotation forces in the direction to loosen, the clamp ring 29 is clamped to a greater degree. In such a manner, it becomes possible to prevent the winding stem pipe 21 from loosening without fixing the winding stem pipe 21 to the case band 13 using adhesive. As a result, the waterproof gasket 28 sandwiched between the winding stem pipe 21 and the case and 13 can retain its waterproof capability.
If the screw lock capability of the crown 31 is reduced due to damage or wear-out of the second male screw section 26 and the female screw section 35 screwed thereinto, the divers watch 11 of the present embodiment can be dealt with as follows.
In detail, the clamp ring 29 can be removed from the intracase-band end section 23 of the winding stem pipe 21 in the intracase-band side, and the winding stem pipe 21 can be also removed from the case band 13 as being screw-in type. Thus, if the screw lock capability is reduced, the winding stem pipe 21 and the crown 31 can be separately exchanged. Further, to polish the extracase plane 13a at the time of exchange, the winding stem pipe 21 will be kept out of the way.
The winding stem pipe 21 and therearound can be disassembled in a reverse manner to the assembly procedure described above. In this case, a specifically-designed tool, which is not shown, having engaged with the clamp ring 29 is used to prevent the clamp ring 29 from rotating, or the clamp ring 29 is rotated in the loosening direction using the specifically-designed tool. At the same time, the hexagon wrench engaged to the engagement section 27 is used to rotate the winding stem pipe 21 in the loosening direction, so that the clamp ring 29 can be removed from the winding stem pipe 21. Then, the winding stem pipe 21 is rotated in the direction to loosen, thereby removing the winding stem pipe 21 from the case band 13.
Through such disassembly and assembly, for a person asking for repairment, when the screw lock capability is reduced, there is no need to exchange the watch exterior assembly 12 including the case band 13, and the like. However, only component exchange of the crown 31 and the winding stem pipe 21 for screw locking it will do, reducing the cost payment.
In the second embodiment, the engagement section 27 provided to the extracase-band end section 25 of the winding stem pipe 21 is made to be a polygon, e.g., hexagon, exposing toward the outer rim plane of the extracase-band end section 25. This engagement section 27 is made larger than the second male screw section 26, and provided closer to the intracase-band end section 23 than the second male screw section 26. The side plane of the intracase-band end section 23 is placed flush with the abutment plane 25a. To this hexagon engagement section, at the time of attachment or removal of the winding stem pipe 21 to/from the case band 13, a tool such as spanner can be used from the direction orthogonal to the axial direction of the winding stem pipe 21.
Due to this engagement section 27 provided as such, there is no more square hole opening toward the engagement section described in the first embodiment, that is, the end plane of the extracase-band end section 25. Also, the crown main section 32 is formed with a clearance section 32a for preventing interference with the hexagon engagement section 27. Herein, the structures other than the above are the same as the first embodiment.
Therefore, also in this embodiment, the winding stem pipe 21 is provided with the screw section 24 being a reverse screw to the first male screw section 22 screwed with the pipe-attachment hole 17. The clamp ring 29 screwed to this screw section 24 and the extracase-band end section 25 of the winding stem pipe 21 sandwich the pipe-attachment hole 17 of the case band 13 and therearound. Thus, responding to the operation for attaching or removing the crown 31 to/from the extracase-band end section 25, it can prevent the winding stem pipe 21 from loosening. Moreover, the engagement section 27 of the second embodiment is formed to the outer rim of the extracase-band end section 25. Thus, compared with the case of forming the engagement section by a square hole, it is easy to process.
The present invention is not restrictive to the above embodiments. For example, the engagement section 27 may be formed by a negative or a positive groove opening toward the end plane or the rim plane of the extracase-band end section 25, so that the cutting edge of the screw may be engaged thereto. Further, two or more types of the engagement sections described above may be provided to the extracase-band end section 25. Moreover, the present invention can be applied to portable watches such as normal wrist watches or pocket watches that are not asking for waterproof capability under high voltage.
According to the present invention, when a winding stem pipe receives the rotation forces in the direction to loosen through operation done to a crown, a clamp ring screwed into a screw section being a reverse screw to a first male screw section of the winding stem pipe screwed into a case band is clamped to a greater degree. In this manner, there is no need to attach, using adhesive, the winding stem pipe screwed into the case band in a removable manner to prevent the winding stem pipe from loosening. Accordingly, when the screw lock capability is reduced, provided is a portable watch achieving component exchange of a crown and a winding stem pipe for screw locking it without exchanging the watch exterior assembly including a case band and others while retaining the waterproof capability of a winding-stem-pipe-attachment section by a waterproof gasket between the case band and the winding stem pipe.
According to the invention with the structure in which the outer diameter of a screw section of an intracase-band end section of a winding stem pipe is made smaller than the outer diameter of a first male screw section, provided is a portable watch allowing a winding stem pipe to be easily inserted or removed into/from a pipe-attachment hole while suppressing snagging of the inner plane of the pipe-attachment hole of the screw section locating in the intracase-band end section to a female screw section.
According to the invention in which a clamp ring is a square nut, at the time of attachment or removal of a clamp ring to/from an intracase-band end section of a winding stem pipe in the case band being narrow, a tool can be used from the direction orthogonal to the axial direction of the winding stem pipe. As such, provided is a portable watch having the better attachment/removal operability of a clamp ring.
According to the invention in which an engagement section engaging with a tool for rotating a winding stem pipe is provided in an extracase-band end section, provided is a portable watch enabling rotation of the winding stem pipe using a tool that is difficult to directly operate for rotation by hands, and retention of the winding stem pipe using the tool not to rotate when the clamp ring is attached or removed.
Number | Date | Country | Kind |
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2003-063250 | Mar 2003 | JP | national |