Information
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Patent Application
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20010013463
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Publication Number
20010013463
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Date Filed
February 06, 200123 years ago
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Date Published
August 16, 200123 years ago
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Inventors
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Original Assignees
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CPC
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US Classifications
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International Classifications
Abstract
In a two-position pushbutton switch, a cushioning member is placed on at least one of first and second click springs, and the click spring is pressed via the cushioning member, thereby making a first press stroke long. A guide member is provided to guide the motion of a driving member. The driving member is slid along the guide member in the pressing direction of a key top.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to a two-position pushbutton switch suitable for use in a digital camera.
[0003] 2. Description of the Related Art
[0004] A conventional two-position pushbutton switch will be described below with reference to FIGS. 32 to 35. First, second, and third switch sections S3, S4, and S5 are held in a casing 51.
[0005] The first switch section S3 is formed of a membrane switch in which an insulating sheet 54 with an opening is interposed in a folded sheet 53 having a fixed contact and a movable contact, as shown in FIG. 34.
[0006] The second switch section S4 is formed of a membrane switch in which a fixed contact formed on a sheet 52 and a movable contact formed on a sheet 53 are opposed to each other via the opening of the sheet 54.
[0007] In the casing 51, a platelike support member 55 is also placed, and an operating member 56 is mounted on the support member 55.
[0008] The operating member 56 includes a mounting portion 56a mounted on the support member 55, an elastic portion 56b connected to the mounting portion 56a, a projection 56c formed at one end of the elastic portion 56b, an operating portion 56e connected to the mounting portion 56a via hinge portions 56d, a projection 56f formed at the end of the operating portion 56e, and a projection 56g formed at the bottom center of the operating portion 56e.
[0009] The sheet 53 is bent in the shape of the letter U, and the first switch section S3 at the leading end thereof is placed on the upper surface of the operating portion 56e. A dome-shaped click spring 57 having a small working force and a small diameter is laid on the first switch section S3.
[0010] The second switch section S4, composed of three stacked sheets 52, 53, and 54, is placed on the upper surface of the support member 55, and a dome-shaped click spring 58 having a great working force and a large diameter is laid on the second switch section S4 and below the projection 56g. The third switch section S5 is placed below the projection 56f.
[0011] A key top 59 includes an operating portion 59a, two projections 59b and 59c formed on the lower side of the operating portion 59a, a support portion 59d formed at one end of the operating portion 59a, and a retaining portion 59e formed at the other end of the operating portion 59a. The key top 59 is supported in a cantilevered manner at the support portion 59d.
[0012] When the key top 59 is mounted, the operating portion 59a is exposed from an opening portion 51a of the casing 51, the projection 59b is in contact with the projection 56c of the operating member 56, and the projection 59c is in contact with the click spring 57. Furthermore, the retaining portion 59e is retained on the inner surface of the casing 51 by the resilient force of the elastic portion 56b of the operating member 56.
[0013] The operation of the conventional two-position pushbutton switch will now be described. First, when the operating portion 59a of the key top 59 is pressed, the key top 59 tilts relative to the support portion 59d so as to simultaneously push the projection 56c and the click spring 57.
[0014] Then, the click spring 57 with a small working force is first inverted and presses the sheet 53 (folded portion) so that the movable contact is put into contact with the fixed contact thereon, thereby turning on the first switch section S3.
[0015] In this case, the relationship between the stroke A and the working force B of the key top 59 is represented by a curve C3, and the stroke A3 is short, as shown in FIG. 35.
[0016] When the key top 59 is further pressed in this state, the operating portion 56e of the operating member 56 is tilted via the hinge portions 56d, and therefore, the projection 56g of the operating portion 56e presses the click spring 58.
[0017] Subsequently, the click spring 58 with a large working force is inverted and presses the sheet 53 so that the movable contact is put into contact with the fixed contact of the sheet 52, thereby turning on the second switch section S4.
[0018] In this case, the stroke A and the working force B of the key top 59 have a relationship represented by a curve C4, as shown in FIG. 35.
[0019] In response to the tilting of the operating portion 56e, the projection 56f operates the third switch section S5 so as to switch from the ON state to an OFF state.
[0020] When the key top 59 is then released from pressing, it is pushed back by the elastic portion 56b, and the operating portion 56e is returned to its initial state by the hinge portions 56d. Furthermore, the click springs 57 and 58 are inverted into their initial states because of their own resilient forces. This turns off the first and second switch sections S3 and S4, and returns the third switch section S5 into an ON state.
[0021] In a case in which such a two-position pushbutton switch is adopted in a digital camera, focusing is performed by operating the first switch section S3 by a first press, and a shutter is released by operating the second switch section S4 by a second press.
[0022] In the conventional two-state pushbutton switch, however, since the click spring 57 is pressed and inverted immediately after the key top 59 abuts the click spring 57, a stroke A3 of the first press is short, as shown in FIG. 35.
[0023] For this reason, when such a two-position pushbutton switch is adopted in a digital camera, the press stroke for focusing is short and the focusing operation is difficult. This decreases ease of use.
[0024] Furthermore, the operating member 56 includes the mounting portion 56a and the operating portion 56e supported on the mounting portion 56a via the hinge portions 56d, and the operating 56e is able to move via the hinge portions 56d. This requires a large space in the lateral direction and increases the size of the switch.
SUMMARY OF THE INVENTION
[0025] Accordingly, an object of the present invention is to provide a two-position pushbutton switch in which operability is improved by extending the stroke of a key top for switching between switch sections.
[0026] Another object of the present invention is to provide a compact two-position pushbutton switch which allows smooth operation.
[0027] In order to overcome the above problems, according to an aspect of the present invention, there is provided a two-position pushbutton switch including: a first click spring to be inverted by a first working force; a first switch section to be operated by the inversion of the first click spring; a driving member disposed opposed to the first click spring so as to press the first click spring; a second switch section laid on the driving member; a second click spring to be inverted by a second working force, different from the first working force, so as to operate the second switch section; and a key top for pressing the second click spring, wherein a cushioning member is placed on at least one of the first and second click springs and the click spring is pressed via the cushioning member.
[0028] This can make a first press stroke long. For this reason, in a case in which such a two-position pushbutton switch is adopted in a digital camera, a press stroke for focusing can be made long, and the focusing operation is easy. This improves ease of use of the pushbutton switch.
[0029] The cushioning member may be placed on the second click spring.
[0030] This can make the first press stroke long. Moreover, since the key top and the second click spring are not in direct contact with each other, even when the key top rattles, no sound is produced by the contact therebetween.
[0031] The cushioning member may be placed on the first click spring.
[0032] This can make the first press stroke long. The first press stroke can be further extended by using the cushioning member in combination with a cushioning member placed on the second click spring.
[0033] Preferably, the two-position pushbutton switch further includes a casing for holding the key top, an operating portion of the key top is exposed from an opening portion of the casing, and the key top is elastically pressed against the casing and supported therein by the cushioning member.
[0034] In this case, the cushioning member also serves to press the key top and to thereby prevent the key top from rattling. This also reduces the number of components and lowers the cost.
[0035] Preferably, the first working force for the first click spring is greater than the second working force for the second click spring.
[0036] In this case, after the second click spring at the upper position is inverted, the lower first click spring is inverted. The driving member can be stably supported by the lower click spring with a large working force.
[0037] Preferably, the diameter of the first click spring is smaller than that of the second click spring, and the thickness of the first click spring is greater than that of the second click spring.
[0038] This makes it possible to reliably make the working force for the first click spring greater than that for the second click spring and to thereby allow reliable operation.
[0039] Preferably, the first and second click springs are made of a metal leaf spring and also serve as movable contacts of the first and second switch sections.
[0040] This reduces the number of components, improves assembly efficiency, and lowers the cost.
[0041] Preferably, the two-position pushbutton switch further includes a flexible insulating substrate having fixed contacts for the first and second switch sections, and the flexible insulating substrate is bent in the shape of the letter S and is placed opposed to the first and second click springs.
[0042] In this case, the fixed contacts can be formed in the same plane of the flexible insulating substrate, and therefore, productivity is increased.
[0043] Preferably, the two-position pushbutton switch further includes a support member for supporting the first switch section, the support member has a plurality of guide projections extending in the pressing direction of the key top, and the driving member is slid along the guide projections in the pressing direction.
[0044] This makes it possible to reduce the space for supporting the driving member and to thereby reduce the size, and to make the sliding motion of the driving member smooth.
[0045] According to another aspect of the present invention, there is provided a two-position pushbutton switch including: a first click spring to be inverted by a first working force; a first switch section to be operated by the inversion of the first click spring; a driving member placed opposed to the first click spring so as to press the first click spring; a second switch section placed on the driving member; a second click spring to be inverted by a second working force, different from the first working force, so as to operate the second switch section; a key top for pressing the second click spring; and a guide member for guiding the motion of the driving member, wherein the driving member is slid along the guide member in the pressing direction of the key top.
[0046] Since the space for holding the driving member can be reduced, the size of the two-position pushbutton switch can also be reduced. Moreover, since the driving member can be moved stably, operability is enhanced.
[0047] Preferably, the guide member includes a plurality of guide projections arranged to surround the second switch section, and a support member is further provided so as to support the first switch section.
[0048] This reduces the size of the pushbutton switch and allows the driving member to be moved stably.
[0049] Preferably, the guide projections are shaped like a bendable column, and hook portions are formed at the leading ends of the guide projections so as to retain the driving member.
[0050] In this case, the driving member can be easily assembled and the position thereof can be regulated reliably.
[0051] The guide member may have a connecting portion for connecting the guide projections.
[0052] This facilitates assembly of the guide member and improves productivity.
[0053] Preferably, the first switch section is placed on a flexible insulating substrate, a projection is formed at the bottom of the connecting portion of the guide member, the guide member is mounted on the support member by the projection, and the flexible insulating substrate laid on the support member is sandwiched between the support member and the connecting portion.
[0054] In this case, the guide member and the flexible insulating substrate can be mounted simultaneously. This increases productivity and prevents the first switch section from lifting.
[0055] Preferably, the driving member has a flat portion for holding the second switch section thereon, and the flat portion has a plurality of guide portions to be guided by the guide projections.
[0056] This allows the driving member to be moved stably and smoothly.
[0057] Preferably, fixed contacts of the first and second switch sections are formed on the same flexible insulating substrate, and the flexible insulating substrate is placed in a form bent in the shape of the letter S.
[0058] Since the fixed contacts can be formed on the same plane of the flexible insulating substrate, productivity is increased.
[0059] Preferably, the driving member has a pair of projecting latch portions, the flexible insulating substrate has a pair of holes, and the second switch section is held on the driving member by latching the latch portions in the holes.
[0060] In this case, the position of the second switch section with respect to the driving member can be reliably ensured, and the second switch section can be mounted without lifting.
[0061] Preferably, the first and second click springs are made of a metal leaf spring, and also function as movable contacts of the first and second switch sections.
[0062] This reduces the number of components, improves assembly efficiency, and lowers the cost.
[0063] Further objects, features, and advantages of the present invention will become apparent from the following description of the preferred embodiments with reference to the attached drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0064]
FIG. 1 is a plan view of a two-position pushbutton switch according to the present invention.
[0065]
FIG. 2 is a cross-sectional view taken along line II-II in FIG. 1.
[0066]
FIG. 3 is a cross-sectional view taken along line III-III in FIG. 1.
[0067]
FIG. 4 is an exploded perspective view of the two-position pushbutton switch.
[0068]
FIG. 5 is a plan view of a flexible insulating substrate in the two-position pushbutton switch.
[0069]
FIG. 6 is a plan view of a guide member in the two-position pushbutton switch.
[0070]
FIG. 7 is a front view of the guide member.
[0071]
FIG. 8 is a bottom view of the guide member.
[0072]
FIG. 9 is a cross-sectional view taken along line IX-IX in FIG. 6.
[0073]
FIG. 10 is a cross-sectional view taken along line X-X in FIG. 6.
[0074]
FIG. 11 is a plan view of a driving member in the two-position pushbutton switch.
[0075]
FIG. 12 is a front view of the driving member.
[0076]
FIG. 13 is a side view of the driving member.
[0077]
FIG. 14 is a cross-sectional view taken along line XIV-XIV in FIG. 11.
[0078]
FIG. 15 is a plan view showing a state in which the guide member and the driving member are combined.
[0079]
FIG. 16 is a plan view of a key top in the two-position pushbutton switch.
[0080]
FIG. 17 is a front view of the key top.
[0081]
FIG. 18 is a bottom view of the key top.
[0082]
FIG. 19 is a side view of the key top.
[0083]
FIG. 20 is a cross-sectional view taken along line XX-XX in FIG. 16.
[0084]
FIG. 21 is a graph showing the relationship between the stroke and the working force in the two-position pushbutton switch.
[0085]
FIG. 22 is a plan view of another example of a guide member.
[0086]
FIG. 23 is a front view of the guide member.
[0087]
FIG. 24 is a bottom view of the guide member.
[0088]
FIG. 25 is a side view of the guide member.
[0089]
FIG. 26 is a cross-sectional view taken along line XXVI-XXVI in FIG. 22.
[0090]
FIG. 27 is a cross-sectional view taken along line XXVII-XXVII in FIG. 22.
[0091]
FIG. 28 is a plan view of another example of a driving member.
[0092]
FIG. 29 is a front view of the driving member.
[0093]
FIG. 30 is a bottom view of the driving member.
[0094]
FIG. 31 is a cross-sectional view taken along line XXXI-XXXI in FIG. 28.
[0095]
FIG. 32 is a cross-sectional view of a conventional two-position pushbutton switch.
[0096]
FIG. 33 is an exploded perspective view of the conventional two-position pushbutton switch.
[0097]
FIG. 34 is a cross-sectional view showing the principal part of a first switch section in the conventional two-position pushbutton switch.
[0098]
FIG. 35 is a graph showing the relationship between the stroke and the working force in the conventional two-position pushbutton switch.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0099] A two-position pushbutton switch according to an embodiment of the present invention will be described below with reference to the attached drawings.
[0100] The configuration of the two-position pushbutton switch of this embodiment will now be described with reference to FIGS. 1 to 21.
[0101] A support member 1 made of a metal plate or the like has four mounting holes 1a formed on the outer side, and three mounting holes 1b formed on the inner side.
[0102] A flexible insulating substrate 2 made of a polyester film includes, particularly shown in FIG. 5, a rectangular base portion 2a, a band portion 2c extending from one side of the base portion 2a and having cutouts 2b on both sides, and a band-shaped extended portion 2d extending from one side of the base portion 2a at right angles to the band portion 2c.
[0103] The flexible insulating substrate 2 also has four mounting holes 2e formed on the outer periphery of the base portion 2a, two mounting holes 2f formed inside the mounting holes 2e, a circular hole 2g formed in the center of the band portion 2c, and a pair of rectangular holes 2h and 2j formed at an interval in the band portion 2c offset from the hole 2g toward the leading end of the band portion 2c.
[0104] A conductive pattern is formed on the upper surface of the flexible insulating substrate 2 by, for example, printing conductive paste made of silver or the like. A first fixed contact 3 is formed at the center of the base portion 2a, and a second fixed contact 4 is formed between the holes 2h and 2j at the leading end of the band portion 2c. These fixed contacts 3 and 4 are led into the extended portion 2d by lead-out conductors 5. The upper surface of the flexible insulating substrate 2, excluding the first and second fixed contacts 3 and 4 and the ends of the lead-out conductors 5, is covered with an insulating resist layer 6 (hatched in FIG. 5).
[0105] A first click spring 7, which is shaped like a dome and also serves as a first movable contact, is made of a resilient leaf spring of stainless steel, and, for example, is 0.07 mm in thickness and 5 mm in diameter. The first click spring 7 is laid on the base portion 2a of the flexible insulating substrate 2 so that it faces the first fixed contact 3 and so that it is constantly in contact with one contact portion of the first fixed contact 3 disposed on the outer side and is spaced from the other contact portion disposed at the center.
[0106] The first click spring 7 is stuck on the flexible insulating substrate 2 with its outer surface being covered with an insulating sheet (not shown) having adhesive on one side.
[0107] The first click spring 7 and the first fixed contact 3 constitute a first switch section S1. The first click spring 7 is inverted by a substantially great working force so that the center thereof moves into contact with and apart from the center contact portion of the first fixed contact 3.
[0108] A second click spring 8 also serving as a second movable contact is made of a resilient leaf spring of stainless steel, and is shaped like a dome larger than that of the first click spring 7, for example, having a thickness of 0.05 mm and a diameter of 6 mm. The second click spring 8 is laid at the end of the band portion 2c of the flexible insulating substrate 2 so that it faces the second fixed contact 4 and so that it is constantly in contact with one contact portion of the second fixed contact 4 disposed on the outer side and is spaced from the other contact portion disposed at the center.
[0109] The second click spring 8 is stuck on the flexible insulating substrate 2 with its outer surface being covered with an insulating sheet (not shown) having adhesive on one side, in a manner similar to that of the first click spring 7.
[0110] The second click spring 8 and the second fixed contact 4 constitute a second switch section S2. The second click spring 8 is inverted by a working force less than that of the click spring 7 so that the center thereof moves into contact with and apart from the center contact portion of the second fixed contact 4.
[0111] The base portion 2a of the flexible insulating substrate 2 having such a structure is placed on the support member 1 with the mounting holes 2e and 2f aligned with the mounting holes 1a and 1b of the support member 1. The band portion 2c is able to bend in the form of the letter S relative to the base portion 2a, as shown in FIGS. 2 and 4.
[0112] A casing 9 molded from synthetic resin includes a cylindrical side wall 9a, a flange portion 9c formed at the upper end of the side wall 9a and having a circular opening 9b, and four projections 9d projecting downward from the bottom end of the side wall 9a.
[0113] The casing 9 and the base portion 2a of the flexible insulating substrate 2 are mounted on the support member 1 by placing the bottom end of the side wall 9a on the flexible insulating substrate 2 with the projections 9d passed through the holes 1a and 2e and thermally caulking the leading ends of the projections 9d on the lower surface of the support member 1.
[0114] A guide member 10 molded from synthetic resin includes, particularly shown in FIGS. 6 to 10, a ring-shaped connecting portion 10a, a plurality of (four) bendable guide projections 10b projecting upward from the connecting portion 10a, hook portions 10c projecting from the upper ends of the guide projections 10b toward the center, three projections 10d projecting downward from the connecting portion 10a, an L-shaped support portion 10f projecting sideways from the connecting portion 10a, and a groove portion 10e formed between the connecting portion 10a and the support portion 10f.
[0115] The guide member 10 is mounted on the support member 1 by placing the lower side of the connecting portion 10a on the flexible insulating substrate 2 with the projections 10d passed through the mounting holes 2f and 1b and thermally caulking the leading ends of the projections 10d on the bottom surface of the support member 1. The base portion 2a of the flexible insulating substrate 2 is supported on the support member 1.
[0116] After mounting, the guide member 10 is positioned inside the casing 9, and the first switch section S1 is positioned in the center space of the connecting portion 10a.
[0117] Since the flexible insulating substrate 2 is pressed against the support member 1 by the connecting portion 10a of the guide member 10, the first switch section S1 will not lift.
[0118] A driving member 11 molded from synthetic resin includes, particularly shown in FIGS. 11 to 14, a flat portion 11a, a plurality of (four) guide portions 11b cut out on the outer periphery of the flat portion 11a, an L-shaped latch portion 11c formed at one end of the flat portion 11a so as to partly project on the upper side, a latch portion lid formed on the side opposite from the latch portion 11c so as to project from an end face of the flat portion 11a, and a pressing portion 11e projecting from the bottom center of the flat portion 11a.
[0119] The latch portion 11c of the driving member 11 is latched in the hole 2h of the flexible insulating substrate 2, and the latch portion 11d is latched in the hole 2j. The second switch section S2 disposed on the band portion 2c is placed on the flat portion 11a in a state in which the band portion 2c is prevented from becoming slack by the latch portions 11c and 11d.
[0120] The band portion 2c of the flexible insulating substrate 2 is bent along the lower side of the driving member 11, and the pressing portion 11e is passed through the hole 2g. A portion of the band portion 2c on the side of the base portion 2a is placed in the groove 10e of the guide member 10 and is supported by the support portion 10f.
[0121] The driving member 11, on which the band portion 2c of the flexible insulating substrate 2 is latched, is placed between guide projections 10b of the guide member 10b while the guide projections 10b are bent outward, and the guide projections 10b are then unbent and are engaged with the guide portions 11b.
[0122] The driving member 11 is thereby allowed to vertically move along the guide projections 10b. The driving member 11 is prevented from falling off upward and the position thereof is regulated by the hook portions 10c at the upper ends of the guide projections 10b.
[0123] When the driving member 11 is mounted, the flexible insulating substrate 2 is bent in the shape of the letter S as a whole, as shown in FIG. 2.
[0124] Since the pressing portion 11e of the driving member 11 is passed through the hole 2g of the flexible insulating substrate 2, the resilient force of the S-shaped flexible insulating substrate 2 is well balanced and the flexible insulating substrate 2 is held stably.
[0125] First and second cushioning members 12 and 13 are made of a sponge material, such as rubber sponge (soft foam rubber) or foamed polyurethane sponge (polyurethane foam), which is elastically deformed (compression-deformed) by a force less than the working force for the second click spring 8.
[0126] The first cushioning member 12 is stuck on the upper surface of the first click spring 7 (more precisely, the upper surface of the insulating sheet, which is not shown, covering the outer surface of the first click spring 7) by a double-faced adhesive tape or the like. The driving member 11 is always elastically pressed upward against the hook portions 10c by the first cushioning member 12. Similarly, the second cushioning member 13 is stuck on the upper surface of the second click spring 8 covered with the insulating sheet (not shown) by a double-sided adhesive tape or the like.
[0127] A key top 14 molded from synthetic resin includes, as particularly shown in FIGS. 16 to 20, an operating portion 14a shaped like a circular dome, a ring-shaped flange portion 14b projecting on the outer periphery of the operating portion 14a, a linear portion 14c formed in the flange portion 14b, and a pressing portion 14d projecting from the bottom center of the operating portion 14a.
[0128] The key top 14 is held inside the casing 9. The surface of the operating portion 14a is exposed from the opening portion 9b, and the flange portion 14b is retained and held by the inner surface of the flange portion 9c of the casing 9.
[0129] When the key top 14 is held in the casing 9, the linear portion 14c abuts a linear portion (not shown) formed in the casing 9 so as to lock the key top 14. Furthermore, the pressing portion 14d abuts the cushioning member 13, the key top 14 is always elastically pressed upward by the second cushioning member 13, and the flange portion 14d is pressed against the flange portion 9c, whereby the key top 14 is elastically pressed and supported so as not to rattle.
[0130] The operation of the two-position pushbutton switch of the present invention will now be described. When the operating portion 14a of the key top 14 is first pressed, the key top 14 is moved while elastically deforming and compressing the first and second cushioning members 12 and 13.
[0131] In this case, the second cushioning member 13 is elastically deformed and compressed by the pressing portion 14a of the key top 14, and the first cushioning member 12 is elastically deformed and compressed by the pressing portion 11e of the driving member 11 which is pressed by the key top 14 and is slid along the guide member 10.
[0132] When the pressing of the key top 14 is continued, the first and second cushioning members 12 and 13 are further deformed elastically. When the elastic depression exceeds the limit, the second cushioning member 13 presses and inverts the second click spring 8 with a small working force. Then, the second click spring 8 turns on the second switch section S2.
[0133] In this case, as shown in FIG. 21, a stroke A of the key top 14 and a working force B (force to be applied to the key top 14) have a relationship represented by a smooth curve C1, and a stroke A1 thereof is long.
[0134] When the key top 14 is further pressed in this state, the driving member 11 is moved along the guide member 10 in the pressing direction, and the first click spring 7 is pressed by the first cushioning member 12.
[0135] Next, the first click spring 7 having a large working force is inverted to turn on the first switch section S1.
[0136] In this case, the stroke A and the working force B of the key top 14 have a relationship represented by a curve C2, as shown in FIG. 21.
[0137] When the pressing force is removed from the key top 14, the first and second click springs 7 and 8 are inverted to their initial states because of their own resilient forces, and the first and second switch sections S1 and S2 are turned off. Furthermore, the first cushioning member 12 is elastically returned, and the driving member 11 is thereby returned upward into the initial state retained by the hook portions 10c. The second cushioning member 13 is elastically returned, the key top 14 is returned upward, and the flange portion 14b is elastically pressed against the flange portion 9c.
[0138] The two-position pushbutton switch of the present invention is operated in this way.
[0139] In a case in which such a two-position pushbutton switch of the present invention is adopted in a digital camera, the second switch section S2 is operated by a first press so as to perform focusing, and the first switch section S1 is operated by a second press so as to release the shutter.
[0140] In such a two-position pushbutton switch of the present invention, when the key top 14 is pressed, a relatively long stroke having a desired working force (elastic force) is first obtained by the cushioning members 12 and 13. Next, the long stroke A1 is obtained as a whole by inverting the second click spring 8 by the first press.
[0141] When the cushioning member 12 and 13 are compressed, a force equivalent to the load (working force) applied to the operating portion 14a of the key top 14 acts on the second click spring 8. Therefore, the curve C1 is continuous and smooth. This allows a comfortable operation feeling in the first press.
[0142] For this reason, the press stroke is long at the time of focusing, and this facilitates the focusing operation and improves operability.
[0143] FIGS. 22 to 27 show another example of a guide member 10. While the connecting portion 10a of the guide member 10 in the above embodiment is wide, a connecting portion 10a of this example is made narrow in order to reduce the outer size.
[0144] Since other structures are similar to those in the above embodiment, the same components are denoted by the same numerals, and descriptions thereof are omitted.
[0145] FIGS. 28 to 31 show another example of a driving member 11. While the driving member 11 in the above embodiment has the cut-out guide portions 11b, the guide member 11 of this example has no guide portions in order to reduce the outer size.
[0146] Since other structures are similar to those in the above embodiment, the same components are denoted by the same numerals, and descriptions thereof are omitted.
[0147] The guide member 10 shown in FIGS. 22 to 27 is used in combination with the driving member 11 shown in FIGS. 28 to 31. The driving member 11 is supported on the flexible insulating substrate 2 so that it barely rotates and it slides in the pressing direction of the key top 14 with the outer periphery of a flat portion 11a thereof being guided by a plurality of guide projections 10b.
[0148] While the first and second cushioning members 12 and 13 are adopted in the above embodiment, only one of them may be used. In a case in which only the first cushioning member 12 is used, first, the driving member 11 is slid by pressing the key top 14. The driving member 11 elastically deforms and compresses the first cushioning member 12 and then inverts the second click spring 8 with a small working force. In contrast, in a case in which only the second cushioning member 13 is used, it is elastically deformed and compresses by pressing the key top 14, and the second click spring 8 with a small working force is then inverted.
[0149] While the first and second click springs 7 and 8 also function as movable contacts in the above embodiment, they need not always serve the function. The switch sections S1 and S2 may be formed of so-called membrane switches in which contacts are formed opposed to each other on a film substrate, and may be operated by the inversion of the first and second click springs 7 and 8.
[0150] While the guide projections 10b of the guide member 10 are connected by the connecting portion 10a in the above embodiment, the guide member 10 may have guide projections formed independently. Furthermore, the number of the guide projections 10b is not limited to four and may be two as long as the guide projections 10b are shaped like a circular arc.
[0151] While the guide portions 11b of the driving member 11 are cut out in the above embodiment, they may be formed of holes or outer end portions of the driving member 11.
[0152] While the key top 14 is inserted in the opening portion 9b of the casing 9 and the pressing portion 14d thereof is held on the second cushioning member 13 in the above embodiment, various holding structures may, of course, be adopted. For example, the key top 14 may have an elastically deformable hinged portion which is fixed to the inner surface of the casing 9.
[0153] While the present invention has been described with reference to what is presently considered to be the preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiment. On the contrary, the invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
Claims
- 1. A two-position pushbutton switch comprising:
a first click spring to be inverted by a first working force; a first switch section to be operated by the inversion of said first click spring; a driving member disposed opposed to said first click spring so as to press said first click spring; a second switch section laid on said driving member; a second click spring to be inverted by a second working force, different from the first working force, so as to operate said second switch section; and a key top for pressing said second click spring, wherein a cushioning member is placed on at least one of said first and second click springs and said click spring is pressed via said cushioning member.
- 2. A two-position pushbutton switch according to claim 1, wherein said cushioning member is placed on said second click spring.
- 3. A two-position pushbutton switch according to claim 1, wherein said cushioning member is placed on said first click spring.
- 4. A two-position pushbutton switch according to claim 1, further comprising:
a casing for holding said key top, wherein an operating portion of said key top is exposed from an opening portion of said casing, and said key top is elastically pressed against said casing and supported therein by said cushioning member.
- 5. A two-position pushbutton switch according to claim 1, wherein the first working force for said first click spring is greater than the second working force for said second click spring.
- 6. A two-position pushbutton switch according to claim 5, wherein the diameter of said first click spring is smaller than that of said second click spring, and the thickness of said first click spring is greater than that of said second click spring.
- 7. A two-position pushbutton switch according to claim 1, wherein said first and second click springs are made of a metal leaf spring and also serve as movable contacts of said first and second switch sections.
- 8. A two-position pushbutton switch according to claim 1, further comprising:
a flexible insulating substrate having fixed contacts for said first and second switch sections, wherein said flexible insulating substrate is bent in the shape of the letter S and is placed opposed to said first and second click springs.
- 9. A two-position pushbutton switch according to claim 1, further comprising:
a support member for supporting said first switch section, wherein said support member has a plurality of guide projections extending in the pressing direction of said key top, and said driving member is slid along said guide projections in the pressing direction.
- 10. A two-position pushbutton switch comprising:
a first click spring to be inverted by a first working force; a first switch section to be operated by the inversion of said first click spring; a driving member placed opposed to said first click spring so as to press said first click spring; a second switch section placed on said driving member; a second click spring to be inverted by a second working force, different from the first working force, so as to operate said second switch section; a key top for pressing said second click spring; and a guide member for guiding the motion of said driving member, wherein said driving member is slid along said guide member in the pressing direction of said key top.
- 11. A two-position pushbutton switch according to claim 10, wherein said guide member includes a plurality of guide projections arranged to surround said second switch section, and a support member is further provided so as to support said first switch section.
- 12. A two-position pushbutton switch according to claim 11, wherein said guide projections are shaped like a bendable column, and hook portions are formed at the leading ends of said guide projections so as to retain said driving member.
- 13. A two-position pushbutton switch according to claim 11, wherein said guide member has a connecting portion for connecting said guide projections.
- 14. A two-position pushbutton switch according to claim 13, wherein said first switch section is placed on a flexible insulating substrate, a projection is formed at the bottom of said connecting portion of said guide member, said guide member is mounted on said support member by said projection, and said flexible insulating substrate laid on said support member is sandwiched between said support member and said connecting portion.
- 15. A two-position pushbutton switch according to claim 11, wherein said driving member has a flat portion for holding said second switch section thereon, and said flat portion has a plurality of guide portions to be guided by said guide projections.
- 16. A two-position pushbutton switch according to claim 10, wherein fixed contacts of said first and second switch sections are formed on said same flexible insulating substrate, and said flexible insulating substrate is placed in a form bent in the shape of the letter S.
- 17. A two-position pushbutton switch according to claim 16, wherein said driving member has a pair of projecting latch portions, said flexible insulating substrate has a pair of holes, and said second switch section is held on said driving member by latching said latch portions in said holes.
- 18. A two-position pushbutton switch according to claim 10, wherein said first and second click springs are made of a metal leaf spring, and also function as movable contacts of said first and second switch sections.
Priority Claims (2)
Number |
Date |
Country |
Kind |
2000-038202 |
Feb 2000 |
JP |
|
2000-038203 |
Feb 2000 |
JP |
|