JP3810691B2 - Cell phone clock - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lock structure for operation parts such as operation buttons and crowns in portable watches such as wristwatches.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a portable timepiece with an operation unit such as a wristwatch is provided with an operation unit lock structure for locking the operation unit at a predetermined position so that the operation unit is not inadvertently operated.
FIG. 12 is a cross-sectional view showing an operation unit lock structure in a conventional portable timepiece. FIG. 12 also shows the locked state and unlocked state of the operation button 1201.
In FIG. 12, the operation portion lock structure includes an operation button 1201, a rotating member 1202 having a screw 1206 therein, a coil spring 1203 for urging the operation button 1201 in a direction protruding from the case 1200 of the watch body, and a screw 1206 outside thereof. And a cylindrical member 1207 having a screw 1208 to be screwed together.
[0003]
An end 1204 on the case 1200 side of the operation button 1201 is provided with a retaining member 1205, which prevents the operation button 1201 from falling off the cylindrical member 1207 due to the urging force of the coil spring 1203. Yes.
A switch 1209 is disposed inside the case 1200 near the end 1204 of the operation button 1201.
In addition, the rotation member 1202 indicates the position in the locked state by reference numeral 1202a, and the position in the unlocked state by reference numeral 1202b.
[0004]
The operation of the operation unit lock structure configured as described above will be described.
First, in the locked state, the rotating member 1202 is at the position 1202a. In this state, since the operation button 1201 is in contact with the rotating member 1202a, the operation button 1201 cannot be pushed into the case 1200.
From this state, when the rotating member 1202a is rotated a plurality of times, the rotating member 1202a advances toward the case 1200 while being screwed into the cylindrical member 1207.
When the rotation member 1202 is in the unlock position (position of the rotation member 1202b) where the rotation member 1202 comes into contact with the case 1200, a gap is formed between the operation button 1201 and the rotation member 1202b. It becomes possible to push the operation button 1201 in the case 1200 direction.
[0005]
In the unlocked state, the switch 1209 is operated by pushing the operation button 1201 in the case 1200 direction. Thereby, the function associated with the switch 1209 can be executed.
In the case of changing from the unlocked state to the locked state, the rotating member 1202 is rotated a plurality of times in the direction opposite to the rotation to be in the locked state (the position of the rotating member 1202a).
As described above, it is possible to switch between the locked state in which the operation button 1201 is locked and the unlocked state in which the locked state is released.
[0006]
[Problems to be solved by the invention]
The conventional portable timepiece has a problem in that it is necessary to rotate the rotating member 1202 a plurality of times, so that the operation is complicated and the switching between the locked state and the unlocked state cannot be performed instantaneously.
In addition, the locked state and unlocked state of the operation button 1201 are unclear for the user, and it is difficult to understand whether the operation button 1201 is in the locked state or in the unlocked state.
[0007]
An object of the present invention is to make it possible to instantaneously switch between a locked state and an unlocked state of an operation unit.
Another object of the present invention is to make it easy to recognize whether the operation unit is in a locked state or an unlocked state.
[0008]
[Means for Solving the Problems]
According to the present invention, a portable timepiece having a timepiece body in which a timekeeping part is accommodated in a case, an operated part accommodated in the case, and an operating part that is exposed from the case and operates the operated part. , A rotating member arranged to be able to rotate at a locked position and an unlocked position, an elastic member rotating integrally with the rotating member, and arranged to be movable in the case direction or the anti-case direction An operating portion, and the operating portion engages with the elastic member when the rotating member is in the locked position to restrict movement in the case direction or the anti-case direction, and the rotating member is The portable timepiece is capable of moving in the case direction or the anti-case direction without engaging with the elastic member when in the unlocked position. The operating portion engages with the elastic member when the rotating member is in the locked position to restrict movement in the case direction or the anti-case direction, and engages with the elastic member when the rotating member is in the unlocked position. It is possible to move in the case direction or the non-case direction without any problems.
[0009]
Here, a cylindrical member provided integrally with the case and a through-hole provided in the cylindrical member are provided, and the rotating member can rotate to the locked position and the unlocked position with the cylindrical member as an axis. And the operating portion is slidably disposed in the cylindrical member, and the elastic member is a position discharged from the through hole when the rotating member is in the unlocked position. To move out of the trajectory of the operating portion to enable operation of the operating portion, and when the rotating member is in the locked position, the operating portion is moved to the through hole and positioned in the trajectory of the operating portion. You may comprise so that operation of a part may be prevented.
[0010]
The elastic member is formed by a C-shaped spring member, and a pair of the through holes are provided in the cylindrical member so as to face each other. The spring member is configured such that the rotating member is in the unlock position. When the cylindrical member is moved to a position discharged from the pair of through-holes by the cylindrical member so that the operation unit can be operated out of the track of the operation unit, and the rotating member is in the locked position. You may comprise so that operation of the said operation part may be prevented by moving to a pair of said through-hole , and being located in the track | orbit of the said operation part.
The cylindrical member may have a recess between the pair of through holes, and the spring member may be configured to engage with the recess when the rotating member is in the unlock position.
[0011]
The rotating member may have a receiving hole, and the spring member may be configured to be positioned in the receiving hole when the rotating member is in the unlocked position.
Moreover, you may comprise so that the rotation mark may be provided with the identification mark for showing a locked state and an unlocked state.
The operation unit may be an operation button, and the operated unit may be a switch.
The operation unit may be a crown, and the operated unit may be a winding stem.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a diagram showing an operation unit lock structure in the portable timepiece according to the first embodiment of the present invention, and is a view in which an operation button 101 is in a locked state. 1A is a front sectional view, and FIG. 1B is an XX sectional view of FIG. 1A. In FIG. 2B, the outer shape of the head 108 of the operation button 101 is indicated by a two-dot chain line.
FIG. 2 is a diagram showing an operation unit lock structure in the portable timepiece according to the first embodiment of the present invention, in which the operation button 101 is in an unlocked state (a state in which the locked state is released). 2A is a front sectional view, and FIG. 2B is an XX sectional view of FIG. 2A. In FIG. 2B, the outer shape of the head 108 of the operation button 101 is indicated by a two-dot chain line.
[0013]
3A and 3B are diagrams showing the configuration of the cylindrical member 103, where FIG. 3A is a front view, FIG. 3B is a bottom view, and FIG. 3C is a right side view. FIG. 4 is a perspective view of the cylindrical member 103.
5A and 5B are views showing the spring 104. FIG. 5A is a front view and FIG. 5B is a bottom view.
FIG. 6 is an exploded perspective view showing a part of the operation portion lock structure, and is a view when the operation button 101 is in a locked state.
FIG. 7 is an exploded perspective view showing a part of the operation portion lock structure, and is a view when the operation button 101 is in an unlocked state.
FIG. 8 is a perspective view showing a part of the operation portion lock structure, and is a view when the operation button 101 is in a locked state.
FIG. 9 is a perspective view showing a part of the operation portion lock structure, and is a view when the operation button 101 is in an unlocked state.
1 to 9, the same reference numerals are given to the same parts.
[0014]
In FIG. 1 to FIG. 9, the operation portion lock structure according to the present embodiment includes an operation button 101 that constitutes the operation portion, a rotation member 102, a cylindrical member 103, a C-shaped spring 104 that constitutes an elastic member, and a rotation member 102. It is provided with identification marks 105, 105 and a coil spring 106, each of which is composed of a pair of concavities disposed opposite to each other, and is provided integrally with the case 100 of the wristwatch body.
The operation button 101 includes a cylindrical head portion 108 and a cylindrical body portion 109 having a smaller diameter than the head portion 108. A circular protrusion 107 is formed on the body 109 side of the head 108 along the circumference of the end of the head 108. A retaining member 111 is integrally provided at the end 110 of the body 109 of the operation button 101.
The cylindrical member 103 has a large diameter portion 115 and a small diameter portion 116 having a smaller diameter than the large diameter portion 115. The operation button 101 is accommodated in the large diameter portion 115 with a part of the head 108 protruding, and the trunk portion 109 is accommodated in the small diameter portion 116. The operation button 101 is in the axial direction of the trunk portion 109. A is slidably held along A.
[0015]
The operation button 101 is urged in a direction protruding from the cylindrical member 103 (counter case 100 direction) by a coil spring 106 disposed in the cylindrical member 103. The retaining member 111 is configured to abut against the end of the small diameter portion 116 of the cylindrical member 103 so that the operation button 101 is prevented from falling off the cylindrical member 103 due to the urging force of the coil spring 106.
The large-diameter portion 115 of the cylindrical member 103 is formed with a pair of through grooves 114 and 114 at positions facing each other along the circumferential direction of the large-diameter portion 115. The through grooves 114 and 114 constitute a through hole. In addition, a pair of recesses 301 and 301 are formed between the through grooves 114 and 114 at positions facing each other.
[0016]
A groove 113 is formed inside the rotating member 102 along the circumferential direction thereof. A convex portion 117 is formed inside the rotating member 102.
A C-shaped spring 104 is disposed in the rotating member 102 so as to sandwich the cylindrical member 103. The spring 104 is held so as to sandwich the convex portion 117 of the rotating member 102 by both end portions 118, 118, whereby the spring 104 is configured to rotate integrally with the rotating member 102. .
The spring 104, the through holes 114 and 114, and the groove 113 are disposed on the same surface in the radial direction of the rotating member 102 and the cylindrical member 103, and the spring 104 is inside the groove 113 through the through holes 114 and 114. It is comprised so that it can protrude in.
A switch 112 constituting an operated portion is disposed near the end portion 110 in the case 100. When the switch 112 is unlocked, the switch 112 is operated by pushing the operation button 101 toward the case 100. It is configured to be able to.
[0017]
The operation of the operation unit lock structure configured as described above will be described.
First, in the locked state, each component is in the state shown in FIG. 1, FIG. 6, and FIG.
That is, the rotation member 102 is configured such that the identification marks 105 and 105 are positioned in the upward and downward directions.
In this state, the spring 104 protrudes into the through grooves 114 and 114 and is positioned so as to face the circular protrusion 107 of the operation button 101. As a result, the spring 104 is positioned on the track of the operation button 101 so that the operation button 101 cannot be pushed in toward the case 100.
The user can easily know that the identification mark 105 is in the locked state by being positioned above and below the rotating member 102.
[0018]
From this state, the cylindrical member 102 is unlocked by rotating it 90 degrees to the left or right.
In the unlocked state, each component is in the state shown in FIGS.
That is, the rotation member 102 has the identification marks 105, 105 positioned in the left and right directions.
Further, as the rotating member 102 rotates, the spring 104 rotates integrally with the rotating member 102, so that the spring 104 is discharged from the through grooves 114 and 114, and the groove portions 113 and 113 through the through grooves 114 and 114. Will be located within. Further, the spring 104 is held at a position where the recesses 301 and 301 are sandwiched. In addition, when the spring 104 sandwiches the recesses 301 and 301, a click feeling can be obtained in the rotating operation of the rotating member 102, and it can be known from the operating feeling of the rotating member 102 that the locked state is changed to the unlocked state. . Therefore, it is possible to prevent the rotating member 102 from being excessively rotated.
[0019]
When the spring 104 is discharged from the through grooves 114, 114, the spring 104 does not exist on the track of the operation button 101, so that the operation button 101 can be pushed into the case 100 side.
Further, since the identification marks 105, 105 of the rotating member 102 are positioned in the left-right direction, the user can know that the user is in the unlocked state.
In the unlocked state, the switch 112 is operated by pushing the operation button 101 into the case 100 side. Thereby, the function associated with the switch 112 can be executed.
[0020]
When changing from the unlocked state to the locked state, the rotating member 102 is rotated 90 degrees left or right to shift to the locked state. In addition, when the spring 104 is positioned in the through grooves 114 and 114, a click feeling can be obtained in the rotation operation of the rotation member 102, and it is known from the operation feeling of the rotation member 102 that the lock state is changed from the unlocked state. Can do. Therefore, it is possible to prevent the rotating member 102 from being excessively rotated.
As described above, it is possible to switch between the locked state in which the operation button 101 is locked and the unlocked state in which the locked state is released.
[0021]
(Second Embodiment)
FIG. 10 is a diagram showing an operation unit lock structure in a portable timepiece according to the second embodiment of the present invention, and is an example in which a crown 1001 is used as an operation unit. The crown 1001 is in a locked state.
FIG. 11 is a diagram of the crown 1001 in the unlocked state in the operation unit lock structure of FIG. 11.
10 and 11, the same parts as those in FIGS. 1 to 9 are denoted by the same reference numerals.
[0022]
The second embodiment is different from the first embodiment in that the operation unit is a crown 1001, the operated unit is a winding stem 1003, and in the unlocked state, the crown 1003 is This is the point that the winding stem 1003 provided integrally with the trunk portion 109 of the crown 1003 can be operated by operating in a direction away from the case 100 (anti-case 100 direction).
In the second embodiment, in the locked state, the C-shaped spring 104 that rotates integrally with the rotating member 102 is located in the groove portion 1002 formed in the crown 1001, whereby the crown 1001 is anti-case 100. It is comprised so that it cannot move to a direction (refer FIG. 10).
[0023]
When the rotating member 102 is switched to the unlocked state by rotating it 90 degrees left or right from the locked state, the spring 104 is accommodated in the groove 113 through the through groove 114. As a result, the spring 104 is disengaged from the orbit of the crown 1001, so that the crown 1001 can move in the direction opposite to the case 100.
In the unlocked state, the winding stem 1003 is operated by pulling out the crown 1001 in the direction opposite to the case 100. Thereby, the function associated with the winding stem 1003 can be executed.
When changing from the unlocked state to the locked state, the rotating member 102 is rotated 90 degrees to the left or right to enter the locked state.
As described above, by rotating the rotating member 102 by 90 degrees, it is possible to switch between a locked state in which the crown 1001 is locked and an unlocked state in which the locked state is released.
[0024]
As described above, the operation portion locking structure in the portable timepiece according to the embodiment of the present invention includes the timepiece main body that houses the timekeeping portion in the case 100, and the operated portions 112 and 1003 that are housed in the case 100. In the portable timepiece having the operation parts 101 and 1001 exposed from the case 100 and operating the operated parts 112 and 1003, the portable timepiece is rotatably arranged and rotates between a locked position and an unlocked position by rotating a predetermined angle. , A rotating member 102 that can be moved in the direction, an elastic member 104 that rotates integrally with the rotating member 102, and operation units 101 and 1001 that are arranged to be movable in the case 100 direction or the opposite case 100 direction. The operation units 101 and 1001 are engaged with the elastic member 104 when the rotating member 102 is in the locked position, and the case 100 direction or opposite case. The movement in the 00 direction is restricted, and when the rotating member 102 is in the unlocked position, the movement in the case 100 direction or the anti-case 100 direction is possible without engaging the elastic member 104. .
[0025]
Therefore, the rotating member can be instantaneously switched between the locked state and the unlocked state of the operation unit.
Further, when switching between the locked state and the unlocked state, it is only necessary to rotate the operation units 101 and 1001 by a predetermined angle (90 degrees in each embodiment), and the operation units 101 and 1001 are rotated a plurality of times. Since it is not necessary, switching between the locked state and the unlocked state can be performed instantaneously.
Moreover, since the identification mark is provided on the rotating member 102, it is possible to easily recognize whether the operation units 101 and 1001 are in the locked state or the unlocked state.
Further, since the rotating member 102 is configured in a free state, there is no possibility of being damaged even if it is excessively rotated.
[0026]
In the first embodiment, the operation button 101 is pushed and operated. However, the operation button 101 may be pulled out.
In the second embodiment, the crown 1001 is pulled out. However, the crown 1001 may be pushed out.
Further, although the spring 104 is configured in a C shape, it may be configured in a polygonal shape such as a triangular shape or a hexagonal shape having a pair of open ends, a semi-elliptical shape, or the like.
[0027]
【The invention's effect】
According to the present invention, when switching between the locked state and the unlocked state, it is not necessary to rotate the operation unit a plurality of times, and it is possible to instantaneously switch between the locked state and the unlocked state of the operation unit. Become.
In addition, it is possible to easily recognize whether the operation unit is in a locked state or an unlocked state.
Moreover, even when the rotating member is excessively rotated, there is an effect that there is little risk of breakage.
[Brief description of the drawings]
FIG. 1 is a diagram showing an operation unit lock structure in a portable timepiece according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an operation unit lock structure in the portable timepiece according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a configuration of a cylindrical member used in the first embodiment of the present invention.
FIG. 4 is a perspective view of a cylindrical member used in the first embodiment of the present invention.
FIG. 5 is a diagram showing a configuration of a spring used in the first embodiment of the present invention.
FIG. 6 is an exploded perspective view of an operation unit lock structure in the portable timepiece according to the first embodiment of the invention.
FIG. 7 is an exploded perspective view of an operation unit lock structure in the portable timepiece according to the first embodiment of the present invention.
FIG. 8 is a perspective view of an operation unit lock structure in the portable timepiece according to the first embodiment of the invention.
FIG. 9 is a perspective view of an operation unit lock structure in the portable timepiece according to the first embodiment of the invention.
FIG. 10 is a diagram showing an operation unit lock structure in a portable timepiece according to a second embodiment of the present invention.
FIG. 11 is a diagram showing an operation unit lock structure in a portable timepiece according to a second embodiment of the present invention.
FIG. 12 is a diagram showing a conventional operation unit lock structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Case 101 ... Operation button 102 which comprises an operation part ... Rotating member 103 ... Cylindrical member 104 ... Spring 105 which comprises an elastic member ... Identification mark 106 ... Coil spring 112... Switches 113, 1002 constituting the operated part, groove part 114, through groove 301 constituting the through hole, recessed part 1001, crown 1003 constituting the operating part, etc. Winding stem

Claims (7)

In a portable timepiece having a timepiece main body containing a timekeeping part in a case, an operated part accommodated in the case, and an operating part exposed from the case to operate the operated part,
A rotating member arranged to be rotatable at a locked position and an unlocked position;
An elastic member that rotates integrally with the rotating member;
And an operation unit arranged to be movable in a case direction or an anti-case direction,
A cylindrical member provided integrally with the case;
A through hole provided in the cylindrical member,
The rotating member is arranged to be rotatable in the locked position and the unlocked position with the cylindrical member as an axis, and the operation portion is slidably arranged in the cylindrical member,
The elastic member moves to a position discharged from the through-hole when the rotating member is in the unlocked position, and can be operated from the orbit of the operating unit, and the rotating member can be operated in the locked state. The portable timepiece is characterized in that the operation unit is prevented from being operated by moving to the through hole and being positioned in the track of the operation unit at the position . The elastic member is formed by a C-shaped spring member, and the through holes are provided in a pair on the cylindrical member so as to face each other,
Said spring member, said by the cylindrical member when the rotating member is in said unlocked position is moved to the position discharged from the pair of through holes, can operate the operation unit deviates from the track of the operating unit to, is moved to the pair of through holes when said rotary member is in said locked position, characterized by blocking the operation of the operation section by a position in the track of the operating unit according to claim 1 The listed portable watch. The cylindrical member has a recess between the pair of through holes,
3. The portable timepiece according to claim 2 , wherein the spring member is engaged with the recess when the rotating member is in the unlock position. The rotating member has a receiving hole;
It said spring member is a watch according to claim 2 or 3, wherein said rotary member is positioned in the accommodation hole at the unlock position. The portable timepiece according to any one of claims 1 to 4 , wherein an identification mark for indicating a locked state and an unlocked state is provided on the rotating member. Together with the operating part is an operation button, a portable timepiece according to any one of claims 1 to 5, characterized in that said operated portion is a switch. The portable timepiece according to any one of claims 1 to 5 , wherein the operation unit is a crown and the operated unit is a winding stem.

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