Source: http://www.google.com/patents/US5967298?dq=5572193
Timestamp: 2014-09-16 01:44:44
Document Index: 26020511

Matched Legal Cases: ['art 52', 'arts 52', 'art 58', 'arts 58', 'arts 52', 'art 9', 'art 9']

Patent US5967298 - Keyboard device - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign in<nobr>Advanced Patent Search</nobr>PatentsIn conventional keyboard devices, since an elastic member is disposed between an insulating substrate and the central crossing part of levers, it is impossible to realize a thin keyswitch, and a high cost is required to modify the height of the keyswitch to a desired value required in a specific application....http://www.google.com/patents/US5967298?utm_source=gb-gplus-sharePatent US5967298 - Keyboard deviceAdvanced Patent SearchPublication numberUS5967298 APublication typeGrantApplication numberUS 08/909,013Publication dateOct 19, 1999Filing dateAug 8, 1997Priority dateAug 21, 1996Fee statusPaidAlso published asCN1101957C, CN1177133APublication number08909013, 909013, US 5967298 A, US 5967298A, US-A-5967298, US5967298 A, US5967298AInventorsKazutoshi Watanabe, Tsuyoshi NarusawaOriginal AssigneeAlsp Electric Co., Ltd.Export CitationBiBTeX, EndNote, RefManPatent Citations (3), Referenced by (12), Classifications (8), Legal Events (7) External Links: USPTO, USPTO Assignment, EspacenetKeyboard deviceUS 5967298 AAbstract In conventional keyboard devices, since an elastic member is disposed between an insulating substrate and the central crossing part of levers, it is impossible to realize a thin keyswitch, and a high cost is required to modify the height of the keyswitch to a desired value required in a specific application. The invention provides a keyboard device having no such problems. In the keyboard device of the invention, a first and second levers are combined with each other via a shaft such that they cross each other; an elastic member is disposed in a hollow formed in the first or second lever; and the top portion of the elastic member is in contact with the pedestal formed on the back surface of the keytop. This structure allows a reduction in space between the keytop and the top portion of the elastic member. Thus, it is possible to realize a thin-type keyboard device, and it is also possible to accommodate the requirement of various heights of keyswitches simply by making a modification on the keytop. This allows a reduction in production cost.
What is claimed is: 1. A keyboard device comprising:a keytop, the keytop having a back surface; a first lever, one end of said first lever being slidably held by a supporting member, the other end of said first lever being pivotably held by the back surface of said keytop, the supporting member have a hole and a fixing portion in close proximity to said hole; a second lever, one end of said second lever being pivotably held by said supporting member, the other end of said second lever being slidably held by the back surface of said keytop; and a dome-shaped elastic member placed on an insulating substrate, the elastic member having a top portion and a flange portion, said flange portion being formed in an integral fashion on said elastic member and said flange portion being held between said insulating substrate and said supporting member and disposed within said hole, the fixing portion being adapted to retain the flange portion; and wherein said first and second levers are combined with each other via a shaft such that they cross each other; said elastic member is located in a hollow formed in said first or second lever; and the top portion of said elastic member is in contact with the back surface of said keytop. 2. A keyboard device capable of having a plurality of heights comprising:a keytop having a pedestal formed on its back surface, the pedestal having a thickness, whereby the thickness of the pedestal controls a plurality of heights of the keyboard device, the pedestal further comprising a projection; a first lever, one end of said first lever being slidably held by a supporting member, the other end of said first lever being pivotably held by the back surface of said keytop; a second lever, one end of said second lever being pivotably held by said supporting member, the other end of said second lever being slidably held by the back surface of said keytop; and a dome-shaped elastic member placed on an insulating substrate, the elastic member having a top portion, a recess and a projecting portion, the recess having a bottom portion; wherein said first and second levers are combined with each other via a shaft such that they cross each other; said elastic member is located in a hollow formed in said first or second lever; the top portion of said elastic member is in contact with said pedestal on the back surface of said keytop: and the projection is disposed within the recess of the elastic member such that a space is formed between the projection and the bottom portion of the recess, whereby when the keytop is depressed the projection contacts the bottom portion of the recess thereby pushing the projecting portion downward. Description
The present invention relates to a keyboard device suitable as an input/output device for use in a word processor, personal computer, or the like.
FIG. 6 illustrates a keyboard device used as an input/output device. In this keyboard device, switch elements are constructed by placing a flexible insulating substrate 51, having a circuit (not shown) formed thereon, onto an insulating substrate 50 on which a conductor (not shown) is formed.
Each supporting member 52 is made of a synthetic resin in such a manner so as to include: a holding element 52a having a hole; a holding element 52c having a sliding slot 52b; and a cut-away part 52d formed between the holding elements 52a and 52c. These components are combined into a single supporting member 52. A plurality of similar supporting members are produced and placed on the insulating substrate 51.
First and second levers 53 and 54 are connected to each other via a shaft 55 such that they cross each other, wherein one end of the first lever 53 is slidably fit into the sliding slot 52b and one end of the second lever 54 is pivotably fit into the holding element 52a.
Each keytop 56 is made up of a synthesis resin in such a manner as to include: a holding element 56a having a hole and a holding element 56c having a sliding slot 56b wherein the holding elements 56a and 56c are disposed on the back surface of each keytop 56. The other end of the first lever 53 is pivotably fit into the holding element 56a and the other end of the second lever 54 is slidably fit into the holding element 56c thereby fixing the keytop to the first and second levers 53 and 54.
Dome-shaped elastic members 57 made of electrically insulating rubber are placed on the insulating substrate 51 in such a manner that they are located in the cut-away parts 52d of the respective supporting members 52. The top portion 57a of each elastic member 57 is in contact with the central crossing part of the first and second levers 53 and 54.
A plurality of key units each consisting of first and second levers 53 and 54, a keytop 56 fixed to the levers 53 and 54, and an elastic member 57 are disposed on the switch elements along a plurality of lines.
In the keyboard device constructed in the above-described manner, if a certain keytop 56 is pressed, the first and second levers 53 and 54 rotate about the shaft 55 and also pivot at their one end fit in the holding elements 52a and 56a, respectively. The other end of the first lever 53 slides in the sliding slot 52b and the other end of the second lever 54 slides in the sliding slot 56b. Thus, the first and second levers 53 and 54 move downward. As a result, the keytop 56 also moves downward while maintaining itself horizontal. As a result of the downward movement of the first and second levers 53 and 54, the top portion 57a of the elastic member 57 is pressed by the central crossing part 58 of the first and second levers 53 and 54, and finally the dome-shaped elastic member 57 is inverted in shape. As a result, the insulating substrate 51 is pressed by the elastic member 57 and the corresponding electric contact formed on the insulating substrate 51 comes in contact with the conductor disposed on the insulating substrate 50. Thus, a corresponding switch element is turned on.
If the pressing force against the keytop 56 is removed, the first and second levers 53 and 54 and the keytop 56 are pushed back by the elastic force of the elastic member 57 to their original positions where they were located before being pressed. The pressure by the elastic member 57 against the insulating substrate 51 is released and the insulating substrate 51 returns to its original position by its own restoring force. As a result, the contact with the conductor on the insulating substrate 50 is released and thus the switch element is turned off.
In the conventional keyboard device described above, since the dome-shaped elastic members 57 for actuating the corresponding switch elements are disposed between the insulating substrate 51 and the central crossing parts 58 of the first and second levers 53 and 54, the height H of the upper surface of the keytop relative to the insulating substrate 51 becomes great, and thus it is difficult to achieve a thin keyboard device.
Furthermore, since the elastic members 57 are simply placed in the cut-away parts 52d of the supporting members 52 on the insulating substrate 51, when the first and second levers 53 and 54 are attached to the supporting members 52 after the elastic members have been placed, the elastic members 57 move from their right position. Therefore, it is required to correct the position of the elastic members 57, and thus the assembling process is inefficient.
Furthermore, in the conventional keyboard device, it is required to modify the height H in accordance with specific applications. To this end, it is required to prepare various sizes of components including supporting members 52, first and second levers 53 and 54, and keytops 56. This causes an increase in cost, and makes it impossible to standardize the components. As a result, it is impossible to assemble the components into a keyboard device in an efficient manner.
SUMMARY OF THE INVENTION According to a first aspect of the invention, there is provided a keyboard device including: a keytop a first lever, one end of said first lever being slidably held by a supporting member, the other end of said first lever being pivotably held by the back side of said keytop; a second lever, one end of said second lever being pivotably held by said supporting member, the other end of said second lever being slidably held by the back side of said keytop; and a dome-shaped elastic member placed on an insulating substrate; wherein said first and second levers are combined with each other via a shaft such that they cross each other; said elastic member is located in a hollow formed in said first or second lever; and the top portion of said elastic member is in contact with the back surface of said keytop.
According to a second aspect of the invention, there is provided a keyboard device including: a keytop having a pedestal formed on its back surface; a first lever, one end of said first lever being slidably held by a supporting member, the other end of said first lever being pivotably held by the back side of said keytop; a second lever, one end of said second lever being pivotably held by said supporting member, the other end of said second lever being slidably held by the back side of said keytop; and a dome-shaped elastic member placed on an insulating substrate; wherein said first and second levers are combined with each other via a shaft such that they cross each other; said elastic member is located in a hollow formed in said first or second lever; and the top portion of said elastic member is in contact with said pedestal on the back surface of said keytop.
According to a third aspect of the invention, there is provided a keyboard device based on the first or second aspect, in which a recess is formed in the top portion of said elastic member, and a projection formed on the back surface of said keytop is fit into said recess.
According to a fourth aspect of the invention, there is provided a keyboard device based on the first, second, or third aspect, in which a flange is formed in an integral fashion on said elastic member, and said flange is held between said insulating substrate and said supporting member.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a keyboard device according to the invention;
FIG. 2 is a cross-sectional view illustrating the main parts of a keyboard device according to the invention;
FIG. 3 is a cross-sectional view of the keyboard device taken along line III--III of FIG. 2;
FIG. 4 is a cross-sectional view illustrating the main parts of a keyboard device according to another embodiment of the invention;
FIG. 5 is a cross-sectional view illustrating the main parts of a keyboard device according to still another embodiment of the invention; and
FIG. 6 is a cross-sectional view illustrating the main parts of a keyboard device according to a conventional technique.
DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIGS. 1-3, an embodiment of a keyboard device according to the invention will be described below. As shown in FIG. 1, the keyboard device includes a plurality of keyswitches S disposed on its enclosure 1 along a plurality of lines.
Each keyswitch S has its own switch element constructed by placing a flexible insulating substrate 4 having a circuit (not shown) formed thereon onto an insulating substrate 2 having a conductor (not shown) formed thereon, wherein a plate-shaped spacer 3 made up of an insulating material having a hole 3a is disposed between the insulating substrates 4 and 2.
A supporting member 5 is made of a synthetic resin in such a manner as to include: two holding elements 5a each having a hole and disposed apart from each other; a holding element 5c having a sliding slot 5b and disposed apart from the above holding elements 5a; and a circular-shaped hole 5d and a fixing element 5e having an L-shape cross section, formed between the holding element 5c and the holding elements 5a. The supporting member 5 is placed on the insulating substrate 4.
A first lever 6 is formed into a substantially square shape using a synthesis resin. The first lever 6 includes circular projections 6a located at its one end; a bar-shaped connecting element 6b located at the opposite end; a hollow 6c formed in the center; and outward-projecting shafts 6d located between the one end and the opposite end. The connecting element 6b is held by the holding element 5c of the supporting member 5 in such a manner that the connecting element 6b can slide in the sliding slot 5b.
Furthermore there is provided a pair of second levers 7 each made up of a synthetic resin and including: circular projections 7a and 7b formed at either end; and a hole 7c formed at a location between the projections 7a and 7b. The projection 7a is fit into the hole of the holding element 5a of the supporting member 5, and the hole 7c receives the shaft 6d of the first lever 6 so that the first and second levers 6 and 7 are combined into a crossing form.
Each keytop 8 is made of a synthesis resin into a boat shape. The keytop 8 has, on its back side, two holding elements 8a each having a hole; two L-shaped holding elements 8c each having a sliding slot 8b; a rather thin circular-shaped pedestal 8e formed at the center of the back surface 8d of the keytop 8; and a projection 8f formed in the center of the pedestal 8e.
The projections 6a of the first lever 6 are fit into the corresponding holes of the holding elements 8a of the keytop 8, and the projection 7b of each of the two second levers 7 is fit into the sliding slot 8b of the corresponding holding element 8c of the keytop 8 so that the keytop 8 is fixed to the first and second levers 6 and 7.
As shown in FIGS. 2 and 3, a dome-shaped elastic member 9 is made of electrically insulating rubber in such a manner as to include: a trunk 9b having a cavity 9a; a projecting part 9c formed in the cavity 9a; a ring-shaped flange 9d formed at the bottom of the trunk 9b; and a top portion 9f having a recess 9e and disposed at the top of the trunk 9b.
The ring-shaped flange 9d of the elastic member 9 is held between the insulating substrate 4 and the fixing element 5e of the supporting member 5 so that the elastic member 9 cannot move in either a vertical or horizontal direction. The trunk 9b and the top portion 9f of the elastic member 9 are located in the hollow 6c of the first lever 6 in such a manner that the projection 8f of the keytop 8 is fit into the recess 9e of the top portion 9f and the end of the top portion 9f is in contact with the pedestal 8e of the keytop 8 and thus the keytop 8 is always pushed upward by the elasticity of the elastic member 9.
As described above, each keyswitch S is constructed with a switch element, first and second levers 6 and 7, a keytop 8, and an elastic member 9.
The operation of the keyboard device constructed in the above-described manner will be described below.
If some keytop 8 is pressed against the elastic force of the elastic member 9, the elastic member 9 is gradually deformed and the dome-shaped trunk 9b is finally inverted in shape. As a result, the insulating substrate 4 is pressed by the projecting part 9c against the insulating substrate 2 and the electric contact on the insulating substrate 4 comes into contact with the conductor formed on the insulating substrate 2. Thus, the corresponding switch element is turned on.
In the above operation, since the projection 8f of the keytop 8 is fit in the recess 9e of the elastic member 9, the elastic member 9 is precisely pushed down by the keytop 8.
Furthermore, in the above operation, the first and second levers 6 and 7 rotate about the shaft 6d and also pivot at their one end fit in the holding elements 5a and 8a, respectively. The other end of the first lever 6 slides in the sliding slot 5b and the other end of the second lever 7 slides in the sliding slot 8b. Thus, the first and second levers 6 and 7 move downward. As a result, the keytop 8 also moves downward while maintaining itself horizontal.
After that, when the pressing force against the keytop 8 is removed, the keytop 8, the first and second levers 6 and 7 are pushed back by the elastic force of the elastic member 9 to their original positions at which they were located before being pressed. The pressure by the elastic member 9 against the insulating substrate 4 is released and the insulating substrate 4 returns to its original position by its own restoring force. As a result, the contact with the conductor on the insulating substrate 2 is released and thus the switch is turned off.
FIG. 4 illustrates a keytop 8 for use in a keyboard device, according to another embodiment of the invention. FIG. 5 illustrates a keytop 8 according to still another embodiment of the invention.
In keyboard devices, as described, it is required to adjust the height h of keyswitches S (refer to FIG. 2) in accordance with specific applications.
For example, keyswitches S having a height of 9 mm, 7.5 mm, or less than that, are currently used in practical applications. To meet the requirement of a smaller height h, the keytop 8 shown in FIG. 4 has a pedestal 8e with a height smaller than that shown in FIG. 2 and the keytop 8 is combined with the elastic member 9 such that the end of the top portion 9f of the elastic member 9 is in contact with the pedestal 8e. Except for the above point, the structure is the same as that shown in FIGS. 2 and 3.
This technique makes it possible to reduce the height h by an amount corresponding to the reduction in the height of the pedestal 8e. In the keytop 8 shown in FIG. 5, the pedestal 8e is removed and the keytop 8 is combined with the elastic member 9 in such a manner that the end of the top portion 9f of the elastic member 9 comes in direct contact with the back surface 8d of the keytop 8. This allows a further reduction in height h.
As described above, it is possible to meet the requirement of various heights h of the keyswitch S by varying the height of the pedestal 8e or removing the pedestal 8e. That is, it is possible to accommodate such the requirement simply by making a change only on the keytop 8.
Although in the embodiments described above, the hollow 6c is formed in the first lever 6, a hollow may be formed in the second lever 7.
In the present invention, as described above, the first and second levers are combined with each other via the shaft such that they cross each other; the elastic member is disposed in the hollow formed in the first or second lever; and the top portion of the elastic member is in contact with the pedestal on the back surface of the keytop. With this arrangement, the space between the keytop and the top portion of the elastic member can be reduced. This makes it possible to realize a thin-type keyboard device. Furthermore, it is possible to accommodate the requirement of various heights of keyswitches simply by making a modification on the keytop. This allows a reduction in production cost.
In another mode of the invention, the first and second levers are combined with each other via the shaft such that they cross each other; the elastic member is disposed in the hollow formed in the first or second lever; and the top portion of the elastic member is in contact with the pedestal on the back surface of the keytop. This arrangement also provides the advantages that the space between the keytop and the top portion of the elastic member can be reduced, and that it is possible to accommodate the requirement of various heights of keyswitches simply by making a modification on the keytop. This allows a reduction in production cost.
Furthermore, since a recess is formed in the top portion of said elastic member, and a projection formed on the back surface of the keytop is fit into the recess, it is possible to precisely press a desired keytop without encountering a shift in a horizontal direction.
Furthermore, since a flange is formed in an integral fashion on the elastic member, and the flange is held between the insulating substrate and the supporting member, it is possible to properly restrict the motion of the elastic member. This arrangement also makes it easier to assemble the components into keyswitch units.
Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS5280147 *Oct 28, 1992Jan 18, 1994Brother Kogyo Kabushiki KaishaKeyswitch assembly with a key support limiting transverse, longitudinal and rotational movement of the keyUS5457297 *Apr 20, 1994Oct 10, 1995Chen; Pao-ChinComputer keyboard key switchUS5630501 *Jun 20, 1996May 20, 1997Shin Jiuh Corp.Computer key* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6068416 *Jan 12, 1999May 30, 2000Hosiden CorporationKeyboard switchUS6318695 *Jun 29, 1999Nov 20, 2001Silitek Corp.Notebook computer keyUS6355894 *May 23, 2001Mar 12, 2002Hosiden CorporationKeyboard and method of making the sameUS6597344Oct 24, 2000Jul 22, 2003Alps Electric Co., Ltd.Key switch disposed on keyboard input device and method of producing the sameUS6624369Aug 1, 2001Sep 23, 2003Alps Electric Co., Ltd.Keyboard device and method for manufacturing the sameUS6689977Jul 31, 2001Feb 10, 2004Alps Electric Co., Ltd.Keyswitch having a keytop that is upwardly and downwardly movable and method of assembling the sameUS6690360May 3, 2001Feb 10, 20043M Innovative Properties CompanyLiquid proof switch arrayUS6740832Mar 27, 2002May 25, 20043M Innovative Properties CompanyApparatus exhibiting tactile feelUS6827459Mar 27, 2002Dec 7, 20043M Innovative Properties CompanyLighted fastening structureUS6940030 *Apr 3, 2003Sep 6, 2005Minebea Co., Ltd.Hinge key switchUS7091952May 3, 2001Aug 15, 20063M Innovative Properties CompanyLiquid proof switch arrayEP1100099A1 *Sep 20, 2000May 16, 2001Alps Electric Co., Ltd.Key switch disposed on keyboard input device and method of producing the same* Cited by examinerClassifications U.S. Classification200/344International ClassificationG06F3/02, H01H13/712, H01H13/20, H01H3/12, H01H13/14Cooperative ClassificationH01H3/125European ClassificationH01H3/12B2Legal EventsDateCodeEventDescriptionMar 23, 2011FPAYFee paymentYear of fee payment: 12Mar 20, 2007FPAYFee paymentYear of fee payment: 8May 7, 2003REMIMaintenance fee reminder mailedMar 26, 2003FPAYFee paymentYear of fee payment: 4Oct 2, 2001CCCertificate of correctionSep 5, 2000CCCertificate of correctionAug 8, 1997ASAssignmentOwner name: ALPS ELECTRIC CO., LTD., JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:WATABABE, KAZUTOSHI;NARUSAWA, TSUYOSHI;REEL/FRAME:008661/0821Effective date: 19970718RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services©2012 Google