JP6624403B2 - Switch device and clock - Google Patents

Description

  The present invention relates to a switch device used for electronic devices such as a timepiece, a mobile phone, and a portable terminal, and a timepiece including the same.

  For example, in a switch device for a wristwatch, as described in Patent Document 1, a mounting pipe is fitted into a mounting hole of a watch case, and a shaft of a button member is slidably inserted into the mounting pipe. The shaft of the button member protruding from the outside and the head of the outer end of the shaft are covered with a waterproof sheet, and the waterproof sheet is attached to the outer surface of the watch case by a fixing member, thereby achieving waterproofness. Things are known.

JP 2009-133859 A

  In this type of switch device, the waterproof sheet is formed of a soft synthetic resin such as urethane resin or silicone resin, and when the button member is pressed, the waterproof sheet is elastically deformed in accordance with the pressing operation, and this waterproof sheet is formed. When the button member slides with the elastic deformation of the seat, the switch contact in the watch case is switched.

  However, in such a switch device, when the thickness of the waterproof sheet is large, the waterproof sheet is unlikely to be elastically deformed, and the pressing load at the time of pressing the button member is increased, so that the operability of the button member is reduced. There is a problem. If the thickness of the waterproof sheet is thin, the waterproof sheet is easily deformed elastically, so that the waterproof sheet is easily damaged, and it is difficult to ensure waterproofness.

  Further, in such a switch device, since the waterproof sheet is made of a soft synthetic resin, the waterproof sheet is easily deteriorated even if the thickness of the waterproof sheet is thick or thin. When the button member is received, the button member is pressed by the impact and is inadvertently pushed into the watch case, causing a problem that a module in the watch case malfunctions or is damaged.

  It is an object of the present invention to provide a switch device capable of preventing entry of foreign matter, ensuring impact resistance, and improving operability, and a timepiece including the switch device.

The present invention includes a cylindrical member provided in the through hole of the case, the shaft portion to be inserted into the tubular member, and provided at the outer end of the shaft portion closer to separably to the outer surface of the case An operating member having a head, a packing member disposed along an outer periphery of the tubular member between an outer surface of the case and the head of the operating member, wherein the packing member is provided in the case; a base portion disposed on an outer surface of said head portion provided on the base portion is a switching device which is characterized by comprising a resilient portion for elastic contact to be separable.

  According to the present invention, when the shaft of the operation member is pushed into the cylindrical member provided in the through hole of the case to bring the head of the operation member close to the outer surface of the case, the head is elastically moved to the packing member. Since the contact can be made, foreign matter can be prevented from entering between the outer surface of the case and the head of the operation member, and even if an external impact is received, the impact can be buffered by the packing member. Further, since the operating member can be operated with the shaft portion of the operating member pulled out toward the outside of the case and the head separated from the packing member, the operability of the operating member can be improved.

1 is an enlarged front view showing a first embodiment in which the present invention is applied to a wristwatch. FIG. 2 is an enlarged sectional view of a main part of the wristwatch shown in FIG. FIG. 3 is an enlarged cross-sectional view of a main part showing a state in which an operation member of a switch device in the wristwatch shown in FIG. 2 is pushed out. FIG. 3 is an enlarged perspective view showing a main part of the switch device shown in FIG. 2 in an exploded manner. 5A and 5B show a packing member of the switch device shown in FIG. 4, wherein FIG. 5A is an enlarged front view thereof, and FIG. FIG. 7A shows a packing member of a switch device according to a second embodiment in which the present invention is applied to a wristwatch. FIG. 7A is an enlarged front view thereof, and FIG. It is the expansion perspective view which decomposed | disassembled and showed the packing member of the switch device in 3rd Embodiment which applied this invention to the wristwatch. 7A and 7B show the packing member shown in FIG. 7, wherein FIG. 7A is an enlarged front view thereof, FIG. 7B is an enlarged sectional view taken along a line DD, and FIG. is there. FIG. 11 is an enlarged perspective view showing a disassembled main part of a switch device according to a fourth embodiment in which the present invention is applied to a wristwatch. 9A and 9B show a packing member of the switch device shown in FIG. 9, wherein FIG. 9A is an enlarged front view, FIG. 9B is an enlarged cross-sectional view taken along a line FF, and FIG. It is sectional drawing. It is the expansion perspective view which decomposed | disassembled and showed the principal part of the switch apparatus in 5th Embodiment which applied this invention to the wristwatch. 11A and 11B show a packing member of the switch device shown in FIG. 11, wherein FIG. 11A is an enlarged front view, FIG. 11B is an enlarged sectional view taken along the line HH, and FIG. It is sectional drawing.

(1st Embodiment)
Hereinafter, a first embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS.
This wristwatch includes a wristwatch case 1 as shown in FIGS. The wristwatch case 1 includes a main body case 2, a first outer case 3, and a second outer case 4. The main body case 2 is made of a hard synthetic resin, and has a configuration in which a reinforcing metal member 2a is embedded therein.

  As shown in FIGS. 1 to 3, the first outer case 3 is made of a soft synthetic resin, and is configured to be attached to an outer periphery of the main body case 2 so as to cover the outer case. The second outer case 4 is made of a soft synthetic resin, and is configured to be attached to and cover the upper outer periphery of the main body case 2 and the upper outer periphery of the first outer case 3.

  As shown in FIGS. 2 and 3, a watch glass 5 is attached to the upper opening of the watch case 1, that is, the upper opening of the main body case 2 via a packing 5a. In this case, the outer peripheral edge on the upper surface of the watch glass 5 is covered by the second exterior case 4 as shown in FIGS. A back cover 6 is attached to a lower portion of the watch case 1, that is, a lower portion of the main body case 2 via a waterproof ring 6a.

  As shown in FIGS. 2 and 3, a watch module 7 is arranged inside the watch case 1, that is, inside the main body case 2, by a holding member 8. The clock module 7 includes various components (neither shown) necessary for a clock function, such as a clock movement for driving hands and a display panel for electro-optically displaying information such as time. The holding member 8 is arranged between the watch module 7 and the back cover 6, so that the watch module 7 is assembled in the watch case 1.

  In this case, a ring-shaped parting member 12 is provided between the watch module 7 and the watch glass 5, as shown in FIGS. The parting member 12 has an upper surface formed on an inclined surface that is inclined from the outer peripheral side toward the inner peripheral side, and time characters (not shown) are provided on the inclined surface at equal intervals along the circumferential direction. It has a configuration. Further, between the parting member 12 and the timepiece module 7, a first dial 13 and a second dial 14, which are driven by hands above the dial, are disposed in a vertically overlapping state.

  By the way, on each side of the 12 o'clock side and the 6 o'clock side of the watch case 1, as shown in FIG. A switch device 16 is provided on the 3 o'clock side of the wristwatch case 1. Each of the 2 o'clock, 4 o'clock, 8 o'clock, and 10 o'clock sides of the wristwatch case 1 is provided. Are provided with pushbutton switches 17, respectively.

  As shown in FIGS. 2 to 4, the switch device 16 has a tubular member 20 fitted in a through hole 18 provided in the main body case 2 of the wristwatch case 1, and is slidably inserted into the tubular member 20. And an operation member 21 protruding outside the main body case 2. In this case, the through-hole 18 is formed in the small-diameter hole 18a on the inner side of the main body case 2 and is formed in the large-diameter hole 18b on the outer side, and a counterbore 18c is formed at the outer end of the large-diameter hole 18b. It has been configured.

  As shown in FIGS. 2 to 4, the cylindrical member 20 includes a small-diameter cylindrical portion 20 a inserted into the small-diameter hole 18 a of the through hole 18 of the main body case 2, and a large-diameter hole 18 b of the through hole 18 of the main body case 2. And a large-diameter cylindrical portion 20c protruding outside of the main body case 2, which are integrally formed of metal or a hard synthetic resin.

  In this case, as shown in FIG. 2 and FIG. 3, the small-diameter cylindrical portion 20a is formed such that the axial length thereof is longer than the axial length of the small-diameter hole portion 18a of the through hole 18, and the inner end thereof is formed. It is configured to protrude into the main body case 2. A retaining member 22 such as an E-ring is attached to the inner end of the small-diameter cylindrical portion 20a protruding into the main body case 2. Thus, the small-diameter cylindrical portion 20 a is configured such that the retaining member 22 abuts against the inner peripheral surface of the main body case 2 so that the cylindrical member 20 does not come out of the main body case 2.

  As shown in FIGS. 2 and 3, the middle-diameter cylindrical portion 20 b is formed to have the same axial length as the large-diameter hole portion 18 b of the through hole 18 in the axial direction. Thus, the middle-diameter cylindrical portion 20b is configured to fit into the large-diameter hole portion 18b of the through hole 18. A plurality of waterproof rings 23 are provided in an annular shape on the outer peripheral surface of the middle-diameter cylindrical portion 20b so as to press against the inner peripheral surface of the large-diameter hole portion 18b of the through hole 18.

  2 and 3, the outer diameter of the large-diameter cylindrical portion 20c is larger than the inner diameter of the large-diameter hole portion 18b of the through hole 18 and the inner diameter of the counterbore portion 18c of the through hole 18. Are also formed in a small size. At the inner end of the large-diameter cylindrical portion 20c, that is, at the boundary with the medium-diameter cylindrical portion 20b, there is provided a flange portion 20d arranged in the counterbore portion 18c of the through hole 18.

  In this case, a small-diameter hole 20e and a large-diameter hole 20f are provided inside the tubular member 20, as shown in FIGS. The small-diameter hole portion 20e is provided in a small-diameter cylindrical portion 20a protruding into the main body case 2. The large-diameter hole portion 20f is provided from the small-diameter cylindrical portion 20a to the outer end of the large-diameter cylindrical portion 20c except for the small-diameter hole portion 20e.

  As a result, as shown in FIGS. 2 and 3, the cylindrical member 20 is attached to the small-diameter cylindrical portion 20 a with the medium-diameter cylindrical portion 20 b fitted into the large-diameter hole portion 18 b of the through hole 18 of the main body case 2. The stopper member 22 attached to the inner end of the main body case 2 comes into contact with the inner peripheral surface of the main body case 2, and the flange portion 20 d of the large-diameter cylindrical portion 20 c is disposed in the counterbore portion 18 c of the through hole 18. It is configured to be mounted in the through-hole 18 of the main body case 2 without backlash in the axial direction.

  On the other hand, as shown in FIGS. 2 to 4, the operation member 21 includes a shaft portion 24 slidably inserted into the cylindrical member 20 fitted in the through hole 18 of the main body case 2, and an outer portion of the shaft portion 24. And a head 25 provided at the end. The head 25 is formed in a substantially cylindrical shape as a whole, and is configured to be slidably disposed on the outer periphery of the large-diameter cylindrical portion 20 c of the cylindrical member 20 protruding outside the main body case 2.

  That is, as shown in FIGS. 2 and 3, the head 25 has an inner diameter larger than an outer diameter of the large-diameter cylindrical portion 20 c of the cylindrical member 20. The outer diameter of the head 25 is significantly larger than the outer diameter of the flange portion 20 d of the tubular member 20 and shorter than the length of the main body case 2 in the vertical direction. Further, the head 25 is formed such that the axial length of the outer peripheral portion is longer than the axial length of the large-diameter cylindrical portion 20c of the tubular member 20, and the axial length of the inner peripheral portion is larger. The length of the large-diameter cylindrical portion 20c of the cylindrical member 20 is substantially the same as the axial length.

  Thereby, as shown in FIGS. 2 and 3, the head 25 covers the outer periphery of the large-diameter cylindrical portion 20 c of the cylindrical member 20 protruding to the outside of the main body case 2 in the axial direction while covering this. The inner end surface 25a of the head 25 located on the side of the main body case 2 is configured to be slidable along the outer surface of the main body case 2.

  2 and 3, the shaft portion 24 is formed in a cylindrical shape, and is slidably and rotatably inserted into the large-diameter hole portion 20f of the tubular member 20. A head 25 is provided integrally with the outer end of the shaft portion 24. That is, the outer diameter of the shaft portion 24 is substantially the same as the inner diameter of the large-diameter hole portion 20f of the cylindrical member 20, and the axial length is substantially the same as the axial length of the large-diameter hole portion 20f. It is formed in length.

  In this case, a plurality of waterproof rings 26 are slidably pressed against the outer periphery of the shaft portion 24 as shown in FIGS. The plurality of waterproof rings 26 are provided in an annular shape on the inner peripheral surface of the large-diameter hole 20 f of the cylindrical member 20, and when the shaft 24 is inserted into the large-diameter hole 20 f of the cylindrical member 20, the shaft is closed. The shaft portion 24 is slidably slidable in a state of being pressed against the outer peripheral surface of the portion 24.

  As shown in FIGS. 2 and 3, a connection hole 27 is provided inside the shaft portion 24 along the axial direction of the shaft portion 24. The connection hole 27 is formed at a location located inside the main body case 2 and has a rectangular cross section 27a, and is formed at a location located outside the main body case 2 and is inscribed in the square hole 24a. And a round hole 27b having a circular cross section. An interlocking member 28 is slidably disposed in the connection hole 27 of the shaft portion 24.

  2 and 3, the outer diameter of the interlocking member 28 is smaller than the inner diameter of the round hole 27b in the connection hole 27 of the shaft 24, and the inner diameter of the small diameter hole 20e of the cylindrical member 20. It is formed in a rod shape of the same size as The interlocking member 28 is formed such that its axial length is shorter than the axial length of the connection hole 27 and longer than the axial length of the square hole 27 a of the connection hole 27. Further, a quadrangular square plate portion 28a slidably disposed in the square hole portion 27a of the connection hole 27 is provided at an intermediate portion of the interlocking member 28.

  As a result, as shown in FIGS. 2 and 3, the interlocking member 28 slides inside the square hole 27 a of the connection hole 27 of the shaft 24 and rotates the head 25 of the operating member 21. When the shaft portion 24 rotates in accordance with the above, it is configured to rotate together with the shaft portion 24 by the square plate portion 28a arranged in the square hole portion 27a of the connection hole 27.

  In this case, as shown in FIGS. 2 and 3, the interlocking member 28 is disposed between the deep end (the right end in FIG. 2) of the round hole 27 b located on the head 25 side and the square plate 28 a. The spring force of the coil spring 29 is urged in the direction of being pushed into the main body case 2. A winding stem 30 is integrally attached to the interlocking member 28.

  As shown in FIGS. 2 and 3, the winding stem 30 has one end 30 a screwed to an end of an interlocking member 28 located inside the main body case 2, and is located inside the main body case 2. The other end 30b is inserted into the main body case 2 through the small-diameter hole 20e of the tubular member 20, and the inserted other end 30b is inserted into the watch module 7 incorporated in the main body case 2. Have been.

  That is, as shown in FIG. 2 and FIG. 3, the shaft portion 24 of the winding stem 30 is rotated with the rotation of the head 25 of the operating member 21 in a state where the other end 30 b is inserted into the timepiece module 7. When the square plate portion 28a of the interlocking member 28 rotates together with the square hole 27a of the connection hole 27 due to the rotation of the shaft portion 24, the interlocking member 28 rotates and integrally rotates with the interlocking member 28. It is configured as follows.

  In addition, as shown in FIGS. 2 and 3, the head 25 of the operating member 21 faces the outside of the main body case 2 with the other end 30 b inserted into the timepiece module 7, as shown in FIGS. When the shaft portion 24 is pulled out and slides toward the outside of the main body case 2, the square plate portion 28 a of the interlocking member 28 is attached toward the inside of the main body case 2 by the spring force of the coil spring 29. By being urged, the interlocking member 28 does not slide with the shaft portion 24, and maintains the same state (neutral state) with the interlocking member 28.

  That is, as shown in FIGS. 2 and 3, when the shaft portion 24 of the operating member 21 slides outside the main body case 2, the square plate portion 28 a of the interlocking member 28 By moving relatively within the square hole 27a of the connection hole 27, the interlocking member 28 does not slide with the shaft portion 24, and maintains the same state (neutral state) with the interlocking member 28. .

  As shown in FIG. 3, the winding stem 30 is operated while the square plate portion 28 a of the interlocking member 28 is in contact with a contact portion 27 c provided at an end of the connection hole 27 of the shaft portion 24. When the head 25 of the member 21 is pulled out of the main body case 2 and the shaft portion 24 slides out of the main body case 2 against the spring force of the coil spring 29 with this, the interlocking member 28 slides with the shaft portion 24 and slides with the interlocking member 28 so that the timepiece movement of the timepiece module 7 can be operated.

  Further, in the state shown in FIG. 3, the head 25 of the operation member 21 is pulled out toward the outside of the main body case 2, and slides together with the interlocking member 28 in the state shown in FIG. When the timepiece movement becomes operable, the timepiece indicated by the hands is corrected by operating the timepiece movement of the timepiece module 7 by rotating together with the shaft portion 24 with the rotation of the operation member 21 and operating the timepiece movement of the timepiece module 7. It is configured to

  On the other hand, as shown in FIG. 2, the operation member 21 is locked when the head 25 of the operation member 21 is pushed toward the inside of the main body case 2 and the head 25 approaches the outer surface of the main body case 2. The mechanism 31 is configured to be locked to the tubular member 20. That is, as shown in FIGS. 2 to 4, the lock mechanism 31 engages and disengages the lock member 32 provided inside the head 25 of the operation member 21 and the lock member 32 provided on the tubular member 20. And a lock locking portion 33 that locks as possible.

  As shown in FIGS. 2 and 3, the lock member 32 has a cylindrical portion 32 a fitted on the inner periphery of the head 25 of the operation member 21, and the cylindrical portion 32 a is attached to the cylindrical portion 32 a by 120 degrees along the circumferential direction. And three (in this embodiment, three) hook portions 32b provided at intervals of.

  As shown in FIG. 4, the lock engaging portion 33 is provided at an end located on the outer side of the main body case 2 on the outer periphery of the large-diameter cylindrical portion 20 c of the cylindrical member 20 at intervals of 120 degrees along the circumferential direction. And three (in this embodiment, three) cam projections 33a, and a cam groove 33b provided in an annular shape along the circumferential direction adjacent to the cam projections 33a.

  In this case, when the head 25 of the operating member 21 is pushed toward the inside of the main body case 2 and the head 25 approaches the outer surface of the main body case 2 as shown in FIG. In addition, with the rotation of the head 25 of the operating member 21, the cylindrical portion 32 a rotates along the outer periphery of the large-diameter cylindrical portion 20 c of the cylindrical member 20, and the plurality of hook portions 32 b It is configured to rotate within the cam groove 33b.

  As a result, as shown in FIG. 2, the lock mechanism 31 rotates the lock member 32 with the rotation of the head 25 of the operation member 21 in a state where the head 25 of the operation member 21 approaches the outer surface of the main body case 2. When the cylindrical portion 32a rotates, the plurality of hooks 32b of the lock member 32 move within the cam groove 33b of the lock engaging portion 33 to face the plurality of cam projections 33a of the lock engaging portion 33, In this state, the plurality of hook portions 32b are pressed against the plurality of cam protrusions 33a and locked by the spring force of the coil spring 29, thereby locking the head 25 of the operation member 21.

  In the lock mechanism 31, in the state shown in FIG. 2, the cylindrical portion 32 a of the lock member 32 rotates with the rotation of the head 25 of the operation member 21, and the plurality of hook portions 32 b of the lock member 32 When the plurality of cam projections 33a of the lock engagement part 33 are located between the plurality of cam projections 33a, the engagement of the plurality of cam projections 33a with the plurality of hook parts 32b is released. As shown in FIG. 3, the head 25 of the operating member 21 is configured to be pushed out of the main body case 2 by the passage of the 32b between the plurality of cam protrusions 33a.

  Meanwhile, a packing member 34 is provided between the outer surface of the main body case 2 and the head 25 of the operation member 21 so that the head 25 can resiliently contact the head 25 as shown in FIGS. The packing member 34 includes an annular base 35 provided on the outer surface of the main body case 2, and an annular elastic portion 36 provided on the base 35.

  The base portion 35 is formed of a synthetic resin harder than the elastic portion 36. As shown in FIGS. 2 to 4, the base portion 35 is disposed in a mounting recess 2 b provided on the outer surface of the main body case 2 along the outer periphery of the middle diameter tubular portion 20 b of the tubular member 20. It is configured to be mounted in the mounting recess 2b while being pressed by the flange portion 20d of the tubular member 20.

  The elastic portion 36 is made of a synthetic resin that is softer than the base portion 35, and is formed integrally with the base portion 35 by two-color molding, as shown in FIGS. 5A and 5B. In this case, the elastic portion 36 is formed of a synthetic resin such as a urethane resin, a silicone resin, and an elastomer. Further, the base portion 35 may be formed of a hard synthetic resin different from the elastic portion 36, but may be formed of the same synthetic resin as the elastic portion 36 if the hardness is higher than the elastic portion 36.

  As shown in FIGS. 2 to 5, the elastic portion 36 has a substantially semicircular cross section and is formed in a ring shape as a whole. The elastic portion 36 is provided on the outer peripheral side on one surface (the upper surface in FIG. 5B) of the base portion 35, and when the base portion 35 is arranged in the mounting recess 2 b of the main body case 2, It is configured to protrude outward from the outer surface.

  As a result, as shown in FIG. 2, when the head 25 of the operating member 21 is pushed into the main body case 2 and locked by the lock mechanism 31, the packing member 34 approaches the outer surface of the main body case 2 as shown in FIG. The inner surface of the portion 25 is elastically pressed against the elastic portion 36, thereby waterproofing between the outer surface of the main body case 2 and the inner surface of the head 25 and preventing entry of foreign substances such as water and mud. ing.

  In this case, as shown in FIGS. 4 and 5, when the base portion 35 is disposed in the mounting recess 2 b of the main body case 2, the rotation stopping portion 37 causes the circumferential portion of the cylindrical member 20 to rotate within the mounting recess 2 b. The position is regulated so as not to rotate in the direction. That is, the rotation stopper 37 is provided with a notch 37 a provided on the inner peripheral edge of the base 35 and an engagement protrusion 37 b provided in the mounting recess 2 b of the main body case 2 and engaging with the notch 37 a. ,have.

  As a result, as shown in FIG. 2, when the head 25 is rotated in a state where the head 25 of the operation member 21 is elastically pressed against the elastic portion 36, the packing member 34 is Since the engagement protrusion 37b is engaged with the notch portion 37a of the base portion 35, the base portion 35 rotates together with the elastic portion 36 in the circumferential direction of the tubular member 20 in the mounting recess 2b of the main body case 2. This is so configured that only the head 25 slides and rotates in a state of being pressed against the elastic portion 36.

Next, the operation of the switch device 16 in such a wristwatch will be described.
In a normal state, the switch device 16 is locked by the lock mechanism 31 by pressing the head 25 of the operation member 21 toward the main body case 2 as shown in FIG. That is, in a state where the head 25 is pushed in, the plurality of hooks 32 b of the lock member 32 provided on the head 25 are connected to the plurality of cam projections 33 a of the lock engagement part 33 provided on the tubular member 20. Locked. Thereby, the head 25 is locked with respect to the tubular member 20.

  At this time, since the head 25 is pushed toward the main body case 2 side, the head 25 approaches the outer surface of the main body case 2, and in this state, the head 25 is provided on the outer surface of the main body case 2. The elastic member 36 of the packing member 34 is pressed against the elastic member 36 in a state where the elastic member 36 is elastically deformed. Thus, the space between the outer surface of the main body case 2 and the inner surface of the head 25 facing the main case 2 is waterproofed by the elastic portion 36 of the packing member 34.

  For this reason, in the switch device 16, in a normal state, foreign matter such as water, mud, or dust is prevented from entering between the outer surface of the main body case 2 and the inner surface of the head 25 facing the main case 2. Can be. In addition, in this state, when the head 25 receives an external impact due to dropping or the like, the impact is buffered by the elastic portion 36 of the packing member 34, so that the clock module 7 in the main body case 2 is subjected to the impact. Can be protected.

  When the time is adjusted by the switch device 16, first, the lock of the head 25 by the lock mechanism 31 is released. At this time, the head 25 is rotated by a predetermined angle, for example, about 60 degrees, and the cylindrical portion 32a of the lock member 32 in the head 25 is rotated by a predetermined angle, for example, about 60 degrees. Then, the plurality of hook portions 32 b of the lock member 32 rotate and correspond to the intermediate portion between the plurality of cam protrusions 33 a of the lock engagement portion 33 provided on the tubular member 20.

  At this time, the cylindrical portion 32a of the lock member 32 is pushed out of the main body case 2 by the spring force of the coil spring 29, so that the plurality of hook portions 32b of the lock member 32 pass through between the plurality of cam protrusions 33a. As shown in FIG. 3, the head 25 is pushed out of the main body case 2.

  In this case, the shaft portion 24 of the operation member 21 slides toward the outside of the main body case 2, and the square plate portion 28 a of the interlocking member 28 disposed in the connection hole 27 of the shaft portion 24 It relatively moves within the square hole 27a of the hole 27. That is, at this time, even if the shaft portion 24 slides, the interlocking member 28 does not slide with the shaft portion 24 because the interlocking member 28 is pressed by the spring force of the coil spring 29.

  For this reason, the winding stem 30 maintains the same state (neutral state) together with the interlocking member 28. In this state, even if the head 25 of the operation member 21 is rotated, the interlocking member 28 is rotated together with the shaft portion 24 with this rotation, and the winding stem 30 is rotated with this rotation, the winding stem 30 is still idling. Only by doing so, the timepiece movement of the timepiece module 7 is not operated by the winding stem 30, and the time adjustment of the hands is not performed.

  Then, when the head 25 is further pulled out toward the outside of the main body case 2, the shaft portion 24 slides toward the outside of the main body case 2 against the spring force of the coil spring 29. At this time, the interlocking member 28 slides together with the shaft portion 24, and the winding stem 30 slides out of the main body case 2 together with the interlocking member 28, so that the timepiece movement of the timepiece module 7 can be operated.

  When the head 25 of the operating member 21 is rotated in this state, the shaft 24 rotates the interlocking member 28 with the rotation of the head 25. As a result, the winding stem 30 rotates together with the interlocking member 28, so that the timepiece movement of the timepiece module 7 is operated by the winding stem 30, the hands move, and the time indicated by the hands is corrected.

  Thus, according to the wristwatch switch device 16, the tubular member 20 provided in the through hole 18 of the main body case 2, the shaft portion 24 inserted into the tubular member 20, and the outside of the shaft portion 24. An operating member 21 provided at an end portion and having a head 25 approaching and detachable from the outer surface of the main body case 2, and a cylindrical member 20 between the outer surface of the main body case 2 and the head 25 of the operating member 21. A packing member 34 that is annularly arranged along the outer periphery and the head 25 is elastically contacted with the head 25 so that foreign matter can be prevented from invading by making the head 25 elastically contact the packing member 34. In addition, impact resistance can be secured, and the operability of the operation member 21 can be improved.

  That is, in the switch device 16 of the wristwatch, the shaft portion 24 of the operating member 21 is pushed into the cylindrical member 20 provided in the through hole 18 of the main body case 2 so that the head 25 of the operating member 21 is attached to the outer surface of the main body case 2. When approaching, the head 25 can be elastically contacted with the packing member 34, so that waterproofness between the outer surface of the main body case 2 and the head 25 of the operation member 21 can be secured, External impact can be buffered by the packing member 34.

  For this reason, in the switch device 16, the head 25 can be elastically contacted with the packing member 34 in a normal state, so that the space between the outer surface of the main body case 2 and the inner surface of the head 25 facing this can be provided. Therefore, it is possible to reliably prevent foreign substances such as water, mud, and dust from entering, and to cushion the impact by the packing member 34 when the head 25 receives an external impact such as dropping. Therefore, the timepiece module 7 in the main body case 2 can be well protected from an impact.

  In the switch device 16, the shaft portion 24 of the operation member 21 is pulled out from the tubular member 20 to the outside, and the operation member 21 is operated in a state where the head 25 of the operation member 21 is separated from the packing member 34. Since the operation member 21 is not affected by the packing member 34, the operability of the operation member 21 can be improved.

  In this case, the switch device 16 includes a lock mechanism 31 that locks the head 25 to the tubular member 20 in a state where the head 25 of the operation member 21 approaches the outer surface of the main body case 2. Since the head 25 can be locked to the tubular member 20 by the lock mechanism 31 in a state where the head 25 is pushed in to approach the outer surface of the main body case 2, the head 25 can be securely attached to the packing member 34. , Whereby the packing member 34 can reliably waterproof the outer surface of the main body case 2 and the inner surface of the head 25 facing the outer surface.

  That is, the lock mechanism 31 has a lock member 32 provided on the inner peripheral portion of the head 25 and a lock engaging portion 33 provided on the outer peripheral portion of the large-diameter tubular portion 20b of the tubular member 20. The plurality of hooks 32b of the lock member 32 are detachably engaged with the plurality of cam projections 33a of the lock engagement portion 33, and the head 25 is locked to the tubular member 20. In addition, the head 25 can be easily and reliably locked to the tubular member 20, and the lock of the head 25 to the tubular member 20 can be easily and easily released.

  In this case, when the head 25 is pushed toward the main body case 2, the lock mechanism 31 passes the plurality of hook portions 32 b of the lock member 32 through the plurality of cam protrusions 33 a of the lock engagement portion 33 and pushes the plurality of hook portions 32 b. Side, the head 25 can be brought close to the outer surface of the main body case 2 and securely pressed against the packing member 34. In this state, the head 25 is rotated by a predetermined angle, and a plurality of Since the hook portion 32b can be engaged with the plurality of cam protrusions 33a, the head 25 can be locked easily and reliably.

  When releasing the lock of the head 25, the lock mechanism 31 rotates the head 25 by a predetermined angle so that the plurality of hooks 32 b of the lock member 32 are moved by the plurality of cam projections of the lock engagement portion 33. The hooks 32b can be moved to the outside of the main body case 2 through the plurality of cam projections 33a simply by corresponding to the intermediate portion between the 33a, so that the head 25 can be easily locked to the tubular member 20. And can be easily released.

  Further, in the switch device 16, the packing member 34 is provided with an annular base 35 disposed on the outer surface of the main body case 2, and the head 25 of the operating member 21 is provided on the base 35 so that the head 25 can contact and separate therefrom. When the head 25 of the operating member 21 is pushed toward the main body case 2 and approaches the outer surface of the main body case 2, the head 25 is moved to the elastic portion. The elastic member 36 can be elastically pressed into contact with the inner surface of the main body case 2 and the inner surface of the head 25, thereby ensuring impact resistance.

  In this case, the base portion 35 is disposed in the mounting concave portion 2b provided on the outer surface of the main body case 2 along the outer periphery of the medium-diameter cylindrical portion 20b of the cylindrical member 20, and in this state, the flange portion 20d of the cylindrical member 20 The base portion 35 can be easily and securely attached to the outer surface of the main body case 2 because the base portion 35 is attached to the inside of the attachment concave portion 2b while being pressed.

  The elastic portion 36 has a substantially semicircular cross-section made of a synthetic resin softer than the base portion 35, is entirely formed in a ring shape, and is integrally formed with the base portion 35 by two-color molding. When the base portion 35 is disposed in the mounting recess 2 b of the main body case 2, it is configured to protrude outward from the outer surface of the main body case 2. In addition, the elastic portion 36 can be reliably and satisfactorily elastically deformed by the head portion 25, whereby the head portion 25 can be reliably pressed against the elastic portion 36.

  Further, in the switch device 16, the rotation of the base portion 35 along the outer periphery of the tubular member 20 is provided with the rotation stopping portion 37, so that the head 25 rotates with the head portion 25 pressed against the elastic portion 36. At this time, the rotation stopping portion 37 can prevent the base portion 35 from rotating and moving along the outer periphery of the tubular member 20, so that only the head 25 is pressed against the elastic portion 36 smoothly. Since the sliding member can be slid and rotated, the operation member 21 can be smoothly and satisfactorily operated in a state where foreign matter is prevented from entering and impact resistance is secured.

(2nd Embodiment)
Next, a second embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. 6 (a) and 6 (b). The same parts as those in the first embodiment shown in FIGS.
In this wristwatch, the packing member 40 of the switch device 16 has a configuration different from that of the first embodiment, and the rest has the same configuration as that of the first embodiment.

  That is, as shown in FIGS. 6A and 6B, the packing member 40 includes an annular base portion 41 provided on the outer surface of the main body case 2 and an elastic portion provided on the base portion 41. 42. The base portion 41 is formed in a plate-shaped main body portion 41a formed of a soft synthetic resin harder than the elastic portion 42 in an annular shape, and is formed in an annular shape on one surface (the upper surface in FIG. 6B) of the main body portion 41a. And a protrusion 41 b protruding toward the outside of the main body case 2.

  Also in this case, similarly to the first embodiment, the base portion 41 is disposed in the mounting recess 2b in which the main body portion 41a is provided on the outer surface of the main body case 2 along the outer periphery of the middle diameter cylindrical portion 20b of the cylindrical member 20. In this state, the main body portion 41a is configured to be pressed by the flange portion 20d of the tubular member 20. In this case, the protruding portion 41b is configured such that its protruding tip is disposed at the same position as the outer surface of the main body case 2 or in a state where it protrudes slightly outside.

  The elastic portion 42 is made of a soft synthetic resin that is softer than the base portion 41. As shown in FIG. 6B, the elastic portion 42 is integrally formed on the outer surface of the projection portion 41b of the base portion 41 by two-color molding while covering the outer surface. Is formed. The elastic portion 42 is configured to protrude outward from the outer surface of the main body case 2 when the main body portion 41 a of the base portion 41 is disposed in the mounting recess 2 b of the main body case 2.

  Thereby, the packing member 40 approaches the outer surface of the main body case 2 when the head 25 of the operation member 21 is pushed into the main body case 2 side and locked by the lock mechanism 31, as shown in FIG. The inner surface of the head 25 is configured to be elastically pressed against the elastic portion 42 so as to waterproof between the outer surface of the main body case 2 and the inner surface of the head 25.

  Also in this case, as shown in FIGS. 6A and 6B, when the base portion 41 is disposed in the mounting recess 2 b of the main body case 2, the rotation stopping portion 37 causes the mounting recess 2 b to be in the mounting recess 2 b. , So as not to rotate in the circumferential direction of the tubular member 20. That is, as in the first embodiment, the notch 37a provided on the inner peripheral edge of the base 41 and the notch 37a provided in the mounting recess 2b of the main body case 2 are engaged with each other. And a mating engagement projection 37b.

  In such a switch device 16 for a wristwatch, in addition to the same operation and effect as in the first embodiment, the packing member 40 includes a base portion 41 and an elastic portion 42, and the base portion 41 is provided on the outer surface of the main body case 2. An annular main body 41a is provided, and an annular protrusion 41b formed integrally with the main body 41a and protruding toward the outside of the main body case 2 has an elastic portion 42 provided on an outer surface of the protrusion 41b. With the provision, the head 25 can be elastically pressed against the elastic portion 36, thereby preventing foreign matter from entering between the outer surface of the main body case 2 and the inner surface of the head 25, and preventing impact. Property can be ensured.

  In this case, the base portion 41 is formed of a soft synthetic resin that is harder than the elastic portion 42, and the elastic portion 42 is formed of a soft synthetic resin that is softer than the base portion 41. When the body 25 is pushed toward the main body case 2 and approaches the outer surface of the main body case 2, the elastic part 36 can be elastically deformed by the head 25, and the protrusion 41 b of the base part 41 also elastically deforms. be able to.

  For this reason, the packing member 40 also allows the head 25 to be reliably and satisfactorily pressed against the elastic portion 42, thereby preventing foreign matter from entering between the outer surface of the main body case 2 and the inner surface of the head 25. As compared with the packing member 34 of the first embodiment, it is possible to reliably prevent the packing member 34 and to ensure the impact resistance.

(Third embodiment)
Next, a third embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. Also in this case, the same parts as those of the first embodiment shown in FIGS.
This wristwatch has the same structure as the first embodiment except that the packing member 45 of the switch device 16 is different from that of the first embodiment.

  That is, as shown in FIGS. 7 and 8, the packing member 45 includes an annular base portion 46 provided on the outer surface of the main body case 2, an elastic portion 47 provided annularly on the base portion 46, When the head 31 of the operation member 21 is locked by the mechanism 31 and when the lock is released, a braking unit 48 that brakes the rotational operation force of the head 25 is provided.

  As in the second embodiment, the base portion 46 is formed in an annular plate shape from a soft synthetic resin harder than the elastic portion 47. In this case as well, the base portion 46 is disposed in the mounting recess 2b provided on the outer surface of the main body case 2 along the outer periphery of the middle diameter cylindrical portion 20b of the cylindrical member 20, similarly to the first embodiment. And is pressed by the flange portion 20d of the cylindrical member 20.

  The elastic portion 47 is made of a soft synthetic resin that is softer than the base portion 46 as in the second embodiment, and is formed integrally with the base portion 46 by two-color molding. The elastic portion 47 is configured to protrude outward from the outer surface of the main body case 2 when the base portion 46 is disposed in the mounting recess 2b of the main body case 2 as in the first embodiment. ing

  As shown in FIGS. 7 and 8C, a plurality of braking portions 48 are formed on one surface of the base portion 46 (the upper surface in FIG. 8C) at predetermined intervals along the annular direction thereof. The braking protrusion 48a and the elastic portion 47 are formed on one surface (the lower surface in FIG. 8C) of a substantially trapezoidal shape at predetermined intervals along the annular direction, and are fitted between the plurality of braking protrusions 48a. And a plurality of fitting projections 48b.

  In this case, as in the first embodiment, the plurality of hooks 32 b of the lock member 32 provided on the head 25 are formed by the lock mechanism 31 and the cam groove 33 b of the lock engagement portion 33 provided on the tubular member 20. The head 25 is locked and unlocked by rotating and moving the inside thereof to engage and disengage the plurality of hooks 32b with the plurality of cam projections 33a of the lock engaging portion 33. ing.

  For this reason, as shown in FIGS. 7 and 8C, the hook portions 32b of the lock mechanism 31 are locked to the cam protrusions 33a by the head 25 of the operating member 21, as shown in FIGS. When rotating in the locking direction, the first inclined surface S1 that is gently inclined along the rotating direction, and when rotating in the unlocking direction in which the hook portion 32b separates from the cam projection 33a, And a second inclined surface S2 that is steeply inclined along the same.

  As shown in FIGS. 7 and 8C, each of the plurality of fitting projections 48b has a first elastic contact surface D1 elastically contacting a gently inclined first inclined surface S1 of the braking projection 48a, and a braking projection. A second elastic contact surface D2 elastically contacting the steeply inclined second inclined surface S2 of the portion 48a, and a third elastic contact with one surface (the upper surface in FIG. 8C) of the base portion 46 located between the braking protrusions 48a. And an elastic contact surface D3, whereby the whole is formed in a substantially trapezoidal mountain shape.

  As a result, each of the plurality of fitting protrusions 48b is locked by the lock mechanism 31 in a state where the head 25 of the operation member 21 is pressed against the elastic portion 47 as shown in FIGS. 7 and 8C. When rotating in the direction (clockwise direction in FIG. 7), the first elastic surface D1 is elastically deformed in a direction in which it is pressed against the gently inclined first inclined surface S1 of the braking projection 48a. It is configured so that it can be easily performed.

  As shown in FIGS. 7 and 8C, each of the plurality of fitting protrusions 48b is locked by the lock mechanism 31 in a state where the head 25 of the operation member 21 is pressed against the elastic portion 47. The direction in which the second elastic surface D2 is pressed against the steeply inclined second inclined surface S2 of the braking projection 48a when rotating in the unlocking direction (counterclockwise direction in FIG. 7) for unlocking the head 25. It is configured such that elastic deformation is difficult due to elastic deformation.

  For this reason, as shown in FIG. 7 and FIG. 8, when rotating the head 25 of the operating member 21 while pressing the head 25 against the elastic part 47, the braking mechanism 48 locks the head 25 by the lock mechanism 31. The locking operation force at the time of unlocking and the unlocking operation force at the time of unlocking the head 25 by the locking mechanism 31 are configured to be different according to the elastic deformation of each of the plurality of fitting protrusions 48b. .

  That is, when the head 25 is locked by the lock mechanism 31, each of the plurality of fitting projections 48b is easily elastically deformed, so that the locking operation force on the head 25 is light, and the locking mechanism 31 When the lock of the head 25 is released, the plurality of fitting protrusions 48b are not easily elastically deformed, so that the unlocking operation force on the head 25 is configured to be heavy.

  Also in this case, as shown in FIG. 7 and FIG. 8, when the base portion 46 is disposed in the mounting recess 2 b of the main body case 2, the rotation preventing portion 37 causes the cylindrical member 20 to move within the mounting recess 2 b. It is configured not to rotate in the circumferential direction. That is, similarly to the first embodiment, the notch 37a provided in the inner peripheral edge of the base 46 and the notch 37a provided in the mounting recess 2b of the main body case 2 are engaged with each other. And a mating engagement projection 37b.

  In such a switch device 16 for a wristwatch, in addition to having the same operation and effect as the first embodiment, since the packing member 45 includes the braking portion 48 in addition to the base portion 46 and the elastic portion 47, When the head 25 of the operation member 21 is rotated while being pressed against the elastic portion 47, a lock operation force when the head 25 is locked by the lock mechanism 31 and the lock of the head 25 by the lock mechanism 31 is released. The unlocking operation force at the time of the operation can be changed by the braking unit 48.

  That is, the braking portion 48 includes a plurality of braking protrusions 48a formed on the base portion 46, and a plurality of fitting protrusions 48b formed on the elastic portion 47 and fitted between the plurality of braking protrusions 48a. And the braking projection 48a has a gentle first inclined surface S1 and a steep second inclined surface S2, and the fitting projection 48b elastically contacts the first inclined surface S1 with the first elastic contact surface D1. 2 has a second elastic contact surface D2 elastically contacting the inclined surface S2. Therefore, when the head 25 is rotated in a state of being pressed against the elastic portion 47, the elastic deformation of the fitting protrusion 48b depends on the rotation direction. You can change the state.

  Therefore, in the switch device 16, when the head 25 is locked by the lock mechanism 31, each of the plurality of fitting protrusions 48 b is easily elastically deformed, so that the locking operation force on the head 25 is reduced. When the lock 25 is unlocked by the lock mechanism 31, the unlocking operation force on the head 25 can be increased by making each of the plurality of fitting protrusions 48 b less elastically deformable. Thus, it is possible to prevent the head 25 from rotating carelessly to release the lock.

(Fourth embodiment)
Next, a fourth embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. Also in this case, the same parts as those of the first embodiment shown in FIGS.
This wristwatch has a configuration in which a packing member 50 of a switch device 16 is different from that of the first embodiment, and has almost the same configuration as that of the first embodiment except for this.

  That is, as shown in FIGS. 9 and 10, the packing member 50 includes an annular base portion 51 provided on the outer surface of the main body case 2, an elastic portion 52 provided annularly on the base portion 51, And a torsion restricting portion 53 for restricting the torsion of the portion 51. The base portion 51 is formed in an annular plate shape from a soft synthetic resin harder than the elastic portion 52.

  As shown in FIGS. 10A to 10C, the outer peripheral side of the base portion 51 is formed to be thicker than the inner peripheral side, thereby forming a boundary between the outer peripheral side and the inner peripheral side. A step 51a is formed in the portion. As shown in FIG. 9, the base portion 51 is disposed in a mounting recess 54 provided on the outer surface of the main body case 2 along the outer periphery of the medium-diameter cylindrical portion 20 b of the cylindrical member 20. As in the embodiment, it is configured to be pressed down by the flange portion 20d of the tubular member 20.

  The elastic portion 52 is made of a soft synthetic resin softer than the base portion 51, and extends over the stepped portion 51 a on the outer peripheral surface of the base portion 51 as shown in FIGS. And are integrally formed by two-color molding. The elastic portion 52 is configured to protrude outward from the outer surface of the main body case 2 when the base portion 51 is disposed in the mounting concave portion 54 of the main body case 2.

  As shown in FIGS. 9 and 10, the torsion restricting portion 53 has a plurality of radial projections 53a formed on the outer periphery of the base 51 so as to protrude in the radial direction. The plurality of radial projections 53a have the same thickness as the thickness on the outer peripheral side of the base 51, and are formed to protrude radially from the outer periphery of the base 51.

  In this case, as shown in FIG. 9, the mounting concave portion 54 of the main body case 2 includes a base mounting concave portion 54a in which the base portion 51 is disposed, and a plurality of radial projecting portions provided radially around the base mounting concave portion 54a. A plurality of restricting mounting recesses 54b in which 53a are arranged.

  Thereby, as shown in FIGS. 9 and 10, the torsion restricting portion 53 includes a plurality of radiation protrusions 53a and a plurality of restriction mounting recesses 54b, and the plurality of radiation protrusions 53a are connected to the plurality of restriction mounting recesses 54b. When the head 25 of the operating member 21 rotates in a state of being pressed against the elastic portion 52 by being mounted, the twisting of the base portion 51 due to the rotation of the head 25 is restricted and prevented. I have.

  Also in this case, as shown in FIG. 2, when the head 25 of the operation member 21 is pushed into the main body case 2 side and locked by the lock mechanism 31, as shown in FIG. The inner surface of the approaching head 25 is elastically pressed against the elastic portion 52, so that waterproofing is performed between the outer surface of the main body case 2 and the inner surface of the head 25.

  Also in this case, as shown in FIGS. 9 and 10, when the base portion 51 is disposed in the mounting recess 54 of the main body case 2, the rotation preventing portion 37 causes the cylindrical member 51 in the mounting recess 54. 20 so as not to rotate in the circumferential direction. That is, similarly to the first embodiment, the notch 37a provided in the inner peripheral edge of the base 51 and the notch 37a provided in the mounting recess 54 of the main body case 2 are related to the rotation stopper 37. And a mating engagement projection 37b.

  In such a wristwatch switch device 16 as well, the same operation and effect as those of the first embodiment are obtained. In addition, the packing member 50 includes the torsion restricting portion 53 in addition to the base portion 51 and the elastic portion 52. When the head 25 of the operating member 21 rotates in a state of being pressed against the elastic portion 52, the twist of the base portion 51 caused by the rotation of the head 25 is regulated by the torsion regulating portion 53 and reliably prevented. it can.

  That is, the torsion restricting portion 53 of the packing member 50 is provided on the outer periphery of the base portion 51 so as to protrude in a radial direction thereof and a plurality of radiating protrusions 53 a provided on the mounting recess 54 of the main body case 2. A plurality of regulation mounting recesses 54b on which the projections 53a are arranged, and the plurality of radiation projections 53a are mounted on the plurality of regulation mounting recesses 54b. When rotating in a state in which the base portion 51 is pressed against the torsion member, the torsion of the base portion 51 due to the rotation of the head portion 25 can be reliably restricted and prevented.

  In this case, the base portion 51 of the packing member 50 is formed so that the thickness on the outer peripheral side is thicker than the thickness on the inner peripheral side, whereby a step portion 51a is formed at the boundary between the outer peripheral side and the inner peripheral side. Since the elastic portion 52 is formed integrally with the outer peripheral surface of the base portion 51 by two-color molding while straddling the step portion 51a, the joint area of the elastic portion 52 with the base portion 51 is increased by the step portion 51a. Accordingly, the elastic portion 52 can be provided more firmly with respect to the base portion 51 than in the case of the first embodiment.

(Fifth embodiment)
Next, a fifth embodiment in which the present invention is applied to a wristwatch will be described with reference to FIGS. Also in this case, the same parts as those of the first embodiment shown in FIGS.
This wristwatch has a configuration in which a packing member 60 of a switch device 16 is different from that of the first embodiment, and has almost the same configuration as that of the first embodiment except for this.

  That is, as shown in FIGS. 11 and 12, the packing member 60 includes an annular base portion 61 provided on the outer surface of the main body case 2, an elastic portion 62 provided annularly on the base portion 61, and a base. And a torsion restricting portion 63 that restricts the torsion of the portion 61.

  As shown in FIG. 12, the base portion 61 is formed in an annular plate shape from a soft synthetic resin harder than the elastic portion 62. As shown in FIG. 11, the base portion 61 is disposed in a mounting recess 64 provided on the outer surface of the main body case 2 along the outer periphery of the medium-diameter cylindrical portion 20b of the cylindrical member 20, and in this state, the first As in the embodiment, it is configured to be pressed down by the flange portion 20d of the tubular member 20.

  The elastic portion 62 is made of a soft synthetic resin softer than the base portion 61 as in the first embodiment, and is integrally formed on the outer peripheral surface of the base portion 61 by two-color molding. The elastic portion 62 is configured to protrude outward from the outer surface of the main body case 2 when the base portion 61 is disposed in the mounting recess 64 of the main body case 2.

  As shown in FIGS. 11 and 12, the torsion restricting portion 63 includes a pair of restricting protrusions 63a formed on one surface (the lower surface in FIG. 12B) of the base 61 so as to project toward the main body case 2. Have. In this case, as shown in FIG. 11, the mounting recess 64 of the main body case 2 includes a base mounting recess 64a in which the base 61 is disposed, and a pair of regulating protrusions 63a provided in the base mounting recess 64a. And a pair of regulating mounting recesses 64b.

  As a result, as shown in FIGS. 11 and 12, the torsion restricting portion 63 includes a pair of restricting protrusions 63a and a pair of restricting mounting recesses 64b. When the head 25 of the operating member 21 rotates in a state of being pressed against the elastic part 52 by being attached, the twisting of the base 61 caused by the rotation of the head 25 is restricted and prevented. I have.

  Also in this case, as shown in FIG. 2, when the head 25 of the operation member 21 is pushed into the body case 2 side and locked by the lock mechanism 31, the packing member 60 is attached to the outer surface of the body case 2. The inner surface of the approaching head 25 is elastically pressed against the elastic portion 62 so as to provide waterproof between the outer surface of the main body case 2 and the inner surface of the head 25.

  Also in this case, as shown in FIGS. 11 and 12, when the base portion 61 is disposed in the mounting recess 64 of the main body case 2, the rotation preventing portion 37 causes the cylindrical member in the mounting recess 64. 20 so as not to rotate in the circumferential direction. That is, similarly to the first embodiment, the notch 37a provided in the inner peripheral edge of the base 61 and the notch 37a provided in the mounting recess 64 of the main body case 2 are related to the rotation stopper 37. And a mating engagement projection 37b.

  Also in such a switch device 16 of a wristwatch, in addition to the same operation and effect as the first embodiment, since the packing member 60 includes the twist restricting portion 63 in addition to the base portion 61 and the elastic portion 62. When the head 25 of the operating member 21 rotates in a state of being pressed against the elastic portion 62, the twist of the base portion 61 caused by the rotation of the head 25 is regulated by the torsion regulating portion 63 and reliably prevented. it can.

  That is, the torsion restricting portions 63 of the packing member 60 are provided on the base portion 61 so as to protrude toward the main body case 2 side, and the pair of restricting protrusions 63 a are provided on the mounting recess 64 of the main body case 2. And a pair of regulating mounting recesses 64b on which the regulating projections 63a are disposed, and the pair of regulating projections 63a are mounted on the pair of regulating mounting recesses 64b. When rotating in the state of being pressed against 62, the torsion of the base portion 61 due to the rotation of the head 25 can be reliably restricted and prevented.

  In each of the above-described first to fifth embodiments, the interlocking member 28 is provided on the shaft portion 24 of the operation member 21, and the winding stem 30 is provided on the interlocking member 28. Although the description has been given of the case where the movement is operated, the interlocking member 28 and the winding stem 30 are not necessarily provided, and the timepiece module 7 is operated by the shaft portion 24 of the operation member 21. There may be.

  In each of the above-described first to fifth embodiments, the lock mechanism 31 includes the lock member 32 provided on the head 25 of the operation member 21, the lock member 33 provided on the tubular member 20, And a case where the plurality of hooks 32b of the lock member 32 are engaged with the plurality of cam projections 33a of the lock engagement portion 33 in a detachable manner has been described. A female threaded portion may be provided on the inner peripheral surface of the head 25, and a male screw portion provided with a large threaded portion 20b of the tubular member 20 and a male threaded portion into which the female thread of the head 25 is screwed may be used.

  Further, in each of the first to fifth embodiments described above, the case where the lock mechanism 31 is provided has been described, but it is not always necessary to provide the lock mechanism.

  Further, in each of the above-described first to fifth embodiments, a case where the present invention is applied to a wristwatch is described. can do. Further, the present invention is not necessarily required to be a clock, and can be widely applied to electronic devices such as mobile phones and personal digital assistants.

Although some embodiments of the present invention have been described above, the present invention is not limited to these embodiments, but includes the inventions described in the claims and equivalents thereof.
Hereinafter, the inventions described in the claims of the present application will be additionally described.

(Note)
The invention according to claim 1 includes a case having a through-hole, a cylindrical member provided in the through-hole of the case, a shaft inserted into the cylindrical member, and an outer end of the shaft. An operation member having a head provided so as to be able to approach and separate from the outer surface of the case; and an annularly arranged along the outer periphery of the tubular member between the outer surface of the case and the head of the operation member. And a packing member with which the head is elastically contactable and detachable.

  According to a second aspect of the present invention, in the switch device according to the first aspect, the head is locked to the tubular member in a state where the head of the operation member is close to an outer surface of the case. A switch device comprising a lock mechanism.

  According to a third aspect of the present invention, in the switch device according to the first or second aspect, the packing member has an annular base portion disposed on an outer surface of the case, and the packing member is provided on the base portion. A switch device comprising: a ring-shaped elastic portion whose head is elastically contactable and detachable.

  According to a fourth aspect of the present invention, in the switch device according to the third aspect, the base portion is provided with a ring-shaped projection protruding toward the outside of the case, and the elastic portion includes A switch device provided on an outer surface of a protrusion.

  According to a fifth aspect of the present invention, in the switch device according to the third aspect, the packing member includes a lock operating force when the head is locked by the lock mechanism, and a lock of the head by the lock mechanism. And a braking unit that brakes so that the unlocking operation force at the time of releasing is different.

  According to a sixth aspect of the present invention, in the switch device according to any one of the first to fifth aspects, the packing member is pressed against an outer surface of the case by a flange portion provided on the cylindrical member. It is a switch device characterized by being arranged in the state where it was set.

  According to a seventh aspect of the present invention, in the switch device according to any one of the first to sixth aspects, the packing member includes a rotation stopper that regulates a rotational movement along an outer periphery of the tubular member. A switch device.

  According to an eighth aspect of the present invention, in the switch device according to any one of the first to seventh aspects, the packing member regulates the torsion of the packing member when the head rotates while the head is pressed. A switch device comprising a torsion restricting portion that performs the following.

  According to a ninth aspect of the invention, there is provided a timepiece including the switch device according to any one of the first to eighth aspects.

REFERENCE SIGNS LIST 1 watch case 2 body case 2b mounting recess 7 watch module 16 switch device 18 through hole 20 tubular member 21 operating member 24 shaft portion 25 head 28 interlocking member 30 winding stem 31 lock mechanism 32 lock member 32a tubular portion 32b hook portion 33 Lock locking part 33a Cam projection 33b Cam groove part 34, 40, 45, 50, 60 Packing member 35, 41, 46, 51, 61 Base part 36, 42, 47, 52, 62 Elastic part 37 Rotation stopping part 37a Off Notch 37b Engagement projection 41a Body 41b Projection 48 Braking part 48a Brake projection 48b Fitting projection 53, 63 Torsion regulating part 53a Radiation projection 54, 64 Mounting recess 54a, 64a Base mounting recess 54b, 64b Regulation mounting Recess 63a Regulation protrusion

Claims (4)

A cylindrical member provided in a through hole of the case ;
A shaft part to be inserted into the cylindrical member, and an operation member having a head provided at an outer end of the shaft part and approaching to and detachable from an outer surface of the case;
A packing member disposed along the outer periphery of the tubular member between the outer surface of the case and the head of the operation member,
With
The switch device, wherein the packing member includes: a base portion disposed on an outer surface of the case; and an elastic portion provided on the base portion and elastically contacting the head so that the head can come and go. A cylindrical member provided in a through hole of the case;
A shaft portion to be inserted into the cylindrical member, and an operation member having a head provided at an outer end of the shaft portion and approaching and detachable from an outer surface of the case;
A packing member disposed along the outer periphery of the tubular member between the outer surface of the case and the head of the operation member,
With
The packing member includes a braking unit that brakes so that a lock operation force when locking the head and a lock release operation force when unlocking the head are different. Switch device. 3. The switch device according to claim 1, further comprising a lock mechanism that locks the head with respect to the tubular member in a state where the head of the operation member is close to an outer surface of the case. 4. A switching device. A timepiece comprising the switch device according to any one of claims 1 to 3.

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