Japan Priority Application 2004-016493, filed Jan. 26, 2004 including the specification, drawings, claims, and abstract, is incorporated herein by reference in its entirety. Japan Priority Application 2004-016760, filed Jan. 26, 2004 including the specification, drawings, claims, and abstract, is incorporated herein by reference in its entirety.
1. Field of the Invention
Embodiments of the present invention relate to a keyboard apparatus for the performance of music and, in particular embodiments, to a keyboard apparatus with which the input of performance information and the like to a computer is possible.
2. Related Art
In the past, electronic musical instruments have been proposed that are furnished with a keyboard and a sound source, and with which it is possible to easily play the keyboard and enjoy music. On the other hand, using a personal computer, the creation of new pieces and the editing of already existing pieces can be carried out. In addition, personal computers possess the capability to produce musical tones by means of the execution of programs that are known as so-called soft synthesizers, and keyboard apparatuses with which it is possible to carry out a performance with a feeling such as that of a personal computer keyboard for the input of letters and the like in order to input performance data are desired.
For this kind of keyboard apparatus, one that is especially compact and thin and, moreover, that has a key stroke that is short compared to an ordinary keyboard but accurately detects the key pressing speed and the key releasing speed is demanded.
For example, with the keyboard apparatus that is disclosed in Japanese Laid-Open Patent Application Publication (Kokai) Number Hei 9-274482 (Patent Reference 1), a thin type keyboard apparatus is disclosed where at least an octave of keys is formed as a unit in which a plurality of white keys and black keys are formed in a process in which the keys are pressed from a thin steel plate,and the intervals between the mutually adjoining keys are removed by excising processing.
In addition, in Japanese Laid-Open Patent Application Publication (Kokai) Number 2002-62876 (Patent Reference 2), a keyboard apparatus is disclosed in which a key unit that comprises the key main body, the key support section, and a connecting section that connects the key main body to the key support section so that the key is free to swing, is formed as one body with a resin. With the key unit, since the resin is poured from the rear end of the key main body or the connection section at the time that the unit is formed, the flow of the resin in the mold becomes uniform and it is possible to improve the strength of the key.
However, in a keyboard apparatus that has been disclosed in Patent Reference 1, since a plurality of white keys and black keys are processed by press processing in a single unit from a thin steel plate and following that, the keys are formed by the intervals between the mutually adjoining keys being removed by excising processing, the side walls do not exist for the keys. Accordingly, because, in particular when a white key is pressed down, the space between the key and the adjoining key is opened greatly, the appearance is poor and, together with this, because the comer of the key that adjoins the key that has been pressed down may be entangled by the finger, there has been the problem that it is not possible to carry out an agile performance.
In addition, with the invention that has been disclosed in Patent Reference 2, the operability of the keys can be improved, but there has been the problem that it is not possible to form the keyboard apparatus compactly and thin.
In addition, the rubber switch of the keyboard apparatus that is disclosed in Patent Reference 1 can detect the key pressing speed, but the touch feeling is poor. There have especially been the problems that the feeling of the force pushing back against the finger at the time that the keyboard has been pressed is not satisfactory and, together with this, chattering is produced when the fixed contact and the moveable contact come into contact and it is difficult to accurately detect the key pressing speed. In particular, in order to detect the key pressing speed, it is configured such that in response to the pressing down of a key, first, the first moveable contact and the first fixed contact come into contact and, next, the second moveable contact and the second fixed contact come into contact. Because of this, after the first moveable contact and the first fixed contact have come into contact, even during a time that the key is pressed down further and the second moveable contact and the second fixed contact come into contact, it is necessary that the first moveable contact be stabilized and the pressing on the first fixed contact be continued.
However, after the first moveable contact and the first fixed contact have come into contact, distortion is produced by a process in which the key is pressed down further and the area that the first moveable contact presses is deformed and chattering occurs. In particular, when the second moveable contact comes into contact with the second fixed contact and the area that is pressed by the second moveable contact begins to deform, the first moveable contact is affected.
In addition, there is a need to provide a click sensation for the key, but it is also necessary that the key rotate smoothly to the lowest portion after the click sensation has been imparted and a keyboard apparatus having a satisfactory operating sensation be made.
Embodiments of the present invention address problems as described above and relate to a keyboard apparatus for which the operating sensation is satisfactory, that is thin, and with which it is possible to detect the key pressing speed with good accuracy.
A keyboard apparatus in accordance with a first embodiment is furnished with a key unit that has a plurality of keys that are free to swing, and a detection section for the detection of the key speed in those cases where any of the keys has been operated, and a bottom plate member that accommodates the key unit and detection section and that has been formed of a resin, and a reinforcing member, which has rigidity, that reinforces the bottom plate member, and the reinforcing member has a bottom surface that is at least the width of all of the keys that are possessed by the keyboard apparatus for one side and at least the length of a black key for the other side, and the bottom surface and the inside flat surface of the bottom plate member are tightly joined and fixed and attached.
A keyboard apparatus in accordance with a second embodiment is one in which the reinforcing member is processed bent roughly vertically and bent further to be parallel to the bottom surface of the reinforcing member forming a key guide.
A keyboard apparatus in accordance with a third embodiment is one in which the keys have a key guide hole having a cross-section shape for the surface that is perpendicular to the long direction of the key that is rectangular, and the guide regulates the left to right position of the key by means of the two vertical sides of the rectangular key guide hole and, together with this, the position of the key in those cases where the key has been released is regulated by the bottom side of the rectangular key guide hole and the position of the key in those cases where the key has been pressed is regulated by the top side of the rectangular key guide hole.
A keyboard apparatus in accordance with a fourth embodiment is furnished with a key stop with which the key is stopped in those cases where the key has been pressed and the key stop is stamped out of the reinforcing member that has rigidity and is formed on the bottom plate member.
A keyboard apparatus in accordance with a fifth embodiment is one in which the reinforcing member that has rigidity is stamped out of a steel plate and has been bent.
A keyboard apparatus in accordance with a sixth embodiment is one in which the reinforcing member forms a rib by the bending of the outer periphery.
A keyboard apparatus in accordance with a seventh embodiment is, in a keyboard apparatus that has been furnished with a driven section that comprises a cylindrical section that has a moveable contact on the inside, and a switch that is formed from an elastic material in a single unit with a skirt section that supports the driven section, and a key, which is free to swing, that drives the driven section, and a base plate that has a fixed contact, which has been formed opposite the moveable contact, one in which, in the state in which the key has started to drive the driven section of the switch, an open gap is disposed between the upper surface of the moveable contact of the switch and the area that corresponds to the moveable contact of the key, and after the moveable contact has come into contact with the fixed contact as a consequence of the pressing of the key, the area that corresponds to the moveable contact of the key comes into contact with the upper surface of the moveable contact.
A keyboard apparatus in accordance with an eighth embodiment is one in which a protrusion from the elastic material with which the switch is configured is disposed on the top of the moveable contact of the switch.
A keyboard apparatus in accordance with a ninth embodiment is one in which a protrusion is disposed on the area that is opposite the moveable contact of the switch on the side of the key.
A keyboard apparatus in accordance with a tenth embodiment is, in a keyboard apparatus that has a driven section comprising a first cylindrical section that has a first moveable contact and a second cylindrical section that has a second moveable contact, and a switch that is formed from an elastic material in a single unit with a skirt section that supports the driven section, and a key, which is free to swing, that drives the driven section, and a base plate that has a first fixed contact that has been formed opposite the first moveable contact and a second fixed contact that has been formed opposite the second moveable contact, and that has been configured such that first, the first moveable contact comes into contact with the first fixed contact and then the second moveable contact comes into contact with the second fixed contact in conformance with the pressing down of the key, one in which, in a state in which the driving of the driven section of the switch by the key has been started, an open gap is disposed between the first moveable contact and the area of the key that corresponds to the first moveable contact, and after the first moveable contact has come into contact with the fixed contact in conformance with the pressing down of the key, the area that corresponds to the first moveable contact of the key comes into contact with the upper surface of the first moveable contact.
A keyboard apparatus in accordance with an eleventh embodiment is one in which, in the state in which the driving of the driven section of the switch has been started by the key, an open gap is disposed between the first moveable contact and the area of the key that corresponds to the first moveable contact, and after the first moveable contact has come into contact with the first fixed contact in conformance with the pressing down of the key, at roughly the time that the second moveable contact comes into contact with the second fixed contact, the area that corresponds to the first moveable contact of the key comes into contact with the upper surface of the first moveable contact.
A keyboard apparatus in accordance with a twelfth embodiment is one in which a protrusion from the elastic material with which the switch is configured is disposed on the top of the first moveable contact of the switch.
A keyboard apparatus in accordance with a thirteenth embodiment is one in which a protrusion is disposed on the area that is opposite the first moveable contact of the switch on the side of the key.
By means of a keyboard apparatus in accordance with the first embodiment, since the keyboard apparatus is furnished with a reinforcing member, which has rigidity, that reinforces the bottom plate member that is formed from a resin and the reinforcing member has a bottom surface that on one side is at least the width of all of the keys of the keyboard apparatus and on the other side is at least the length of a black key, and the bottom surface and the inside flat surface of the bottom plate member are tightly joined and fixed, there is the advantageous result that because the resin is made to have rigidity, it is possible to detect the key speed with good accuracy and, together with this, the keyboard apparatus can be formed thin.
By means of a keyboard apparatus in accordance with the second embodiment, since a key guide is formed by bending the reinforcing member roughly vertically and then further bending the member so that the leading edge section is parallel to the bottom surface of the reinforcing member, there is the advantageous result that the number of components is reduced and, together with this, because the member is formed in the pressing process, it is possible to supply it cheaply.
By means of a keyboard apparatus in accordance with the third embodiment, since the cross-section shape of the vertical surface in the long direction of the key is a rectangular key guide hole, and the key guide regulates the left to right position of the key by means of the two vertical sides of the rectangular hole and, together with this, regulates the position in those cases where the key is released by means of the bottom side of the rectangular key guide hole and regulates the position in those cases where the key has been pressed by means of the upper side of the key guide hole, it is possible to regulate the movement of the key in the left to right direction and the up and down direction and thus, there is the advantageous result that the number of components is small and the configuration is simple and, together with this, because the key structure can be made simple, it is possible to make the key thin.
By means of a keyboard apparatus in accordance with the fourth embodiment, since the key stop, with which the key is stopped in those cases where the key has been pressed down, has been formed on the bottom plate member by being stamped out of the reinforcing member, there is the advantageous result that the keyboard apparatus can be made thin.
By means of a keyboard apparatus in accordance with the fifth embodiment, since the reinforcing member that has rigidity has been stamped out and bent by the pressing of a steel plate, there is the advantageous result that the reinforcing member can be formed cheaply.
By means of a keyboard apparatus in accordance with the sixth embodiment, since the reinforcing member forms a rib by the bending of its outer periphery, there is the advantageous result that it is possible to increase the rigidity of the reinforcing member by means of a simple processing method.
By means of a keyboard apparatus in accordance with the seventh embodiment, since it is configured such that in the key releasing state, an open space is provided between the driven surface and the upper surface of the moveable contact and after the moveable contact has come into contact with the fixed contact as a consequence of the key pressing, the key comes into contact with the upper surface of the moveable contact, there is the advantageous result that in those cases where the key is pressed down, it is possible for the moveable contact to be reliably pressed against the fixed contact after the moveable contact has come into contact with the fixed contact and, thus, the occurrence of chattering can be prevented.
By means of a keyboard apparatus in accordance with the tenth embodiment, since after the first moveable contact has come into contact with the fixed contact, the upper surface of the first moveable contact comes into contact with the key and when the key is pressed down further, the second moveable contact comes into contact with the fixed contact, there is the advantageous result that it is possible to prevent chattering between the first moveable contact and the fixed contact and, thus, it is possible to detect an accurate key speed.
By means of a keyboard apparatus in accordance with the eleventh embodiment, after the first moveable contact has come into contact with the first fixed contact, the second moveable contact comes into contact with the second fixed contact and there is the advantageous result that it is possible to prevent the occurrence of chattering by the first moveable contact caused by the second moveable contact.
By means of a keyboard apparatus in accordance with the eighth or twelfth embodiments, since on the upper surface of the moveable contact of the switch, a protrusion from the elastic material that configures said switch is disposed, there is the advantageous result that it is possible to prevent chattering with a simple configuration and, together with this, since the protrusion is an elastic material, the force pushing back in those cases where the key has been pressed down is dampened and the operating sensation is satisfactory.
By means of a keyboard apparatus in accordance with the ninth or thirteenth embodiments, there is the advantageous result that it is possible to prevent chattering with a simple configuration in which a protrusion is formed on the key.
a), 5(b), and 5(c) are detailed drawings of a key guide of an embodiment of the invention, wherein
a) and 6(b) are detailed drawings of a rubber switch of an embodiment of the invention, wherein
Explanations will be given below regarding embodiments while referring to the attached drawings.
In addition, although they are not shown in the drawing, the rear surface of the keyboard apparatus 1 is furnished with an electric power switch and various types of jacks. The types of jacks that the keyboard apparatus is furnished with are jacks for carrying out the input and output of MIDI signals and the communication of digital audio signals, USB (universal serial bus), which is a personal computer communications standard, audio signal input and output jacks, and jacks for headphones.
The keyboard apparatus 1 is one that is primarily employed with the aim of the production and editing of performance data using a personal computer and is made compact and thin so that it can be used on top of a desk but can accurately detect the key pressing speed (velocity). In particular, with this keyboard apparatus 1, in order to make the apparatus thin, the stroke of the keys is set shorter than the stroke for an ordinary keyboard.
In addition, the keyboard apparatus 1 is furnished with a microcomputer that is configured by a CPU, a ROM, a RAM, and the like that are not shown in the drawing; and when the keys and the various kinds of operators are operated by the performer, the operating states of these are detected and such MIDI messages as the note on and off and control change are output via the USB. The personal computer that has been connected to the keyboard apparatus 1 via the USB receives the MIDI message and transmits the digital audio signal that corresponds to the MIDI message via the USB. The keyboard apparatus 1 is furnished with a D/A converter and the digital audio signal is converted into an analog audio signal and can be heard by the performer using headphones and the like.
The various types of volume control knobs 3 adjust the volume of the audio signal and can set other parameters as desired. It is possible to assign the MIDI messages to the volume control knobs 3 with which the parameters are set.
The display device 4 displays the MIDI channels that have been set and the values of the parameters, and three digits of seven segments as well as dots that indicate various types of functions and the like are configured using an LCD.
The various types of switches 5 assign the MIDI channels to the operators of the keyboard and the like and set the functions and the like that assign the MIDI messages to the volume control knobs 3 that set the parameters discussed above.
The bender 6 is an operator with which a swinging operation is possible in the direction that the keys are lined up and at those times that no operation has been done by the operator, the bender is maintained in the center. When the bender is operated in the left direction or the right direction, the bender information for the MIDI message that is the control signal with which the pitch of the musical tone is controlled down or up is output.
These various types of volume controls 3, the display device 4, the switches 5, and the bender 6 are soldered to a printed circuit board that is not shown in the drawing and the printed circuit board is screwed onto the upper panel 2, which is formed from a resin.
The key support sections of the three key units are superposed in the order from the bottom of the black key unit 32, the white key unit 30d, and the white key unit 30 and are fixed to the key base section 10b, which has been formed on the bottom plate member 10 (refer to
For the keyboard apparatus 1 that is shown in
The slits 40b that are mated to the protrusions 10i for positioning, which are disposed on the bottom plate member 10, are disposed in the printed wiring board such that each of the switches is arranged in a position that corresponds to each of the keys at the time that the board is attached to the reinforcing member 20. In addition, the connectors 44 for the wiring for the detection of the connection state of each of the switches are soldered to the printed wiring board 40a.
The reinforcing member 20 is a member that has been press processed from a steel plate and is fixed to the bottom plate member 10, which has been formed from a resin, with screws. Because the bottom plate member 10 is formed using a resin, the member is cheap and light and also has satisfactory producability, but is easily warped and changes over time are likely to occur especially due to temperature changes and the like. Because of this, it is difficult to detect the key pressing speed with satisfactory accuracy using a resin only. Therefore, with the keyboard apparatus of the present invention, the entire bottom surface of the reinforcing member 20, which is made from steel plate, is affixed to the flat surface of the bottom plate member 10 and due to the fact that the reinforcing member is solidly attached, the warping and deformation of the bottom plate member 10 is prevented. The width of the bottom surface of the reinforcing member 20 is at least the width of the all of the keys that are possessed by the keyboard apparatus 1 (25 keys in this preferred embodiment) and the depth is at least the length of a black key. Due to this fact, the flatness of the keyboard apparatus 1 in the direction of the width can be ensured and, together with this, with regard to the direction of the depth, it is possible to ensure rigidity between the switches with which the speed of the key is detected from the fulcrum of the key and the speed can be detected with good accuracy. In this preferred embodiment, in order to further ensure the rigidity of the bottom plate member 10, the depth of the bottom surface of the reinforcing member 20 has been made nearly the length of a white key.
A self tapping screw is inserted into the screw hole 10f that has been opened in the flat surface of the bottom section of the bottom plate member 10 and is screwed from direction of the bottom of the bottom plate member 10 into the screw hole 20c that has been disposed in the reinforcing member 20.
Along the entire periphery of the reinforcing member 20, the steel plate is bent at a right angle to the bottom surface, obtaining strength and, together with this, the rib. 20b is formed by stamping out and bending the steel plate in five places, acquiring additional strength.
In addition, the key guide 20d, which has been formed by the bending of the reinforcing member 20, is formed in the center of the reinforcing member 20, and the long hole 20f that has been punched out of the steel plate in order to form the key guide 20d is formed (discussed later). The base plate bearer 10g that supports the printed wiring board 40a is formed on the bottom plate member 10 and the clearance hole 20g, which provides clearance for the base plate bearer 10g, and the clearance holes 20i, which provide clearance for the protrusions 10i for the positioning of the printed wiring board 40a, are formed. For the steel plate that is employed for the reinforcing member 20, one that has had corrosion proof treatment such as zinc plating is preferable.
The bottom plate member 10 is the bottom plate of this keyboard apparatus 1 and the housing for this keyboard apparatus 1 is formed by fixing and attaching the upper panel 2 with screws. A plurality of bosses 10a that have screw holes are formed on the outer periphery of the bottom plate member 10 and are fixed and attached with screws to bosses that are formed on the upper panel 2 in positions that correspond to these bosses 10a . In addition, on the rear of the bottom plate 10, the pass through holes 10e , in which the various types of jacks are arranged, are formed in a plurality. In addition, as will be discussed later, the base plate bearer 10g that supports the printed wiring board 40 and the protrusions 10j that support the fulcra of the keys are disposed extending in the direction that the keys are lined up, and the depression 10h, in which the key stopper 12 (shown in
The printed wiring board 40a is inserted into the holes that have been disposed on the bottom of the reinforcing member 20, arranged on the nuts 20a that are formed from brass that has been fixed and attached by means of caulking and on the base plate bearer 10g, which is a protrusion that has been formed on the bottom plate member 10, and is screwed down by means of the screws 20e. The base plate bearer 10g is adhered to the printed wiring board 40a using double sided tape and supports the load that is applied to the rubber switches 42 that have been disposed on the printed wiring board 40a in those cases where a key has been pressed down.
The clearance hole 20g (shown in
The rubber switch 42 is in contact on the switch's upper surface with the actuator section 30f that has been formed on the key and the dome shaped section of the rubber switch 42 swings and impels the key upward due to the elastic restorative force that the section possesses. In addition, two contacts are furnished in different key pressing positions on the rubber switch 42 that become connection conditions for the detection of the key speed and, due to the fact that when the key is pressed down, the dome shaped section of the rubber switch 42 swells and the two moveable contacts that are formed from conductive rubber sequentially come into contact with the fixed contacts that have been disposed on the printed wiring board 40a, the fixed contacts are brought into a conducting state. In those cases where the key is pressed, first, the first contact is brought into a conductive state and, following that, the second contact is changed to a conductive static. The velocity at the time of the key pressing is detected by the detection of the difference in the times that the two contacts change to a conductive state.
In addition, in those cases where the key is released, first, the second contact is brought into a non-conductive state and, following that, the first contact is changed to a non-conductive state. In this case also, in the same manner, the velocity at the time of the key releasing is detected by the detection of the difference in the times that the two contacts change to a non-conductive state.
The key guide receptacles or vertical key guide walls 30p are disposed on the white keys and the black keys on the inside of the keys and in the long direction of the keys and an opening or rectangular key guide hole 30m is formed in the key guide wall 30p . The movements in the vertical direction and in the horizontal direction of the key are regulated by means of the key guide hole 30m and the key guide bushing 22 that has been attached in the key guide 20d . The key guide bushing 22 is installed in the key guide 20d that has been bent processed such that the bushing cuts the bottom plate section 20f of the reinforcing member 20 and first is stood up roughly vertically from the bottom plate and in addition, the tip that has been stood up becomes roughly parallel to the bottom plate (refer to
The key stopper 12 is something that comes into contact with the key guide wall 30p and the linked wall 30g and is fixed by means of an adhesive in the depression 10h that has been formed one level lower than the bottom plate member 10 inside the long hole 20f that has been opened in order to form the key guide 20d from the reinforcing member 20.
The key stopper 14 is something that comes into contact with the tip section 30n of the key and is fixed by means of an adhesive to the bent section on the tip side of the key of the reinforcing member 10.
The protrusion 10j, which has a roughly rectangular cross-section extending in the direction that the keys are lined up, is disposed on the bottom plate member 10. The protrusion 10j is positioned below the fulcrum 30k that has been formed in the portion that is connected to the hinge section 30i of the main key body of the key. The protrusion 10j and the fulcrum 30k are usually separated but if the key is pressed down strongly, the fulcrum 30k comes into contact with the upper surface of the protrusion 10j and the regulation is done such that the hinge section 30i does not become lower than the position at which the protrusion 10j is supported. Because of this, a large force acting on and damaging the hinge section 30i is prevented. The same applies to the hinge section 30c of the white key unit 30 and the hinge section 32c of the black key unit 32.
b) is a plane drawing (top) and a front elevation drawing (bottom) of the key guide bushing 22 and, as is shown in the front elevation drawing, an insertion hole into which the key guide 20d is inserted is formed in the center area, and two lines of peak shaped protrusions are formed respectively on the top and bottom. These protrusions are for dampening the impact in those cases where the key has swung to the lower limit or the upper limit position.
c) is a cross-section drawing that presents a cross-section view at B—B in
In those cases where the white key 30a swings up and down, since the left and right edges of the key guide bushing 22 move along the vertical sides of the rectangular key guide hole 30m, the left to right position of the key is regulated.
If the white key 30a has been pressed down, the upper side of the key guide hole 30m comes into contact with the protrusions that have been formed on the upper surface of the key guide bushing 22; and, together with this, the side wall and the vertical wall 30g of the white key 30a (refer to
b) is a cross-section drawing along C—C of
In addition, the air hole 42c is formed in the area where the section between adjoining switches and the printed wiring board on the first contact side are joined and is configured such that the air is exhausted to the outside and taken in conformance with the changes in the volume in the interior of the skirt section due to the pressing down of the key.
In
When the pressing force becomes stronger, the skirt section 42i of the rubber switch begins to change shape and the first moveable contact 42a comes into contact with the first fixed contact that has been formed on the printed wiring board 40a. In this state, there is a space between the top of the protrusion 42d that has been formed on the top of the first moveable contact 42a and the actuator section 30f of the key and there is also a space between the second moveable contact 42b and the second fixed contact that has been formed on the printed wiring board 40a.
When the driven section 42h is driven further downward, the second moveable contact 42b comes into contact with the second fixed contact that has been formed on the printed wiring board 40a. Roughly at the same time as this, the actuator 30f of the key and the upper surface of protrusion 42d that has been formed on the top of the first moveable contact 42a come into contact. When the pressing force on the key is further increased, each section of the switch that is formed from an elastic material changes shape, the first moveable contact 42a and the second moveable contact press strongly on the first fixed contact and the second fixed contact that have been formed on the printed wiring board 40a, and the key pressing ends.
There is the same kind of action in those cases where the protrusion has been disposed on the actuator section 30f of the key also. The upper surface of the first moveable contact 42a and the lower surface of the protrusion that has been disposed on the actuator section 30f come into contact at roughly the same time as the second moveable contact 42b comes into contact with the printed wiring board 40a and presses on the first moveable contact 42a.
Accordingly, in either case, since the upper surface of the first moveable contact comes into contact with the key after the first moveable contact 40a once comes into contact with the fixed contact that has been disposed on the printed wiring board, it is possible to prevent the occurrence of chattering in the process in which the key is pressed down further.
An explanation was given above of the present invention based on embodiments. However, the present invention is in no way limited to the embodiments described above and the fact that various modifications and changes are possible that do not deviate from and are within the scope of the essentials of the present invention can be easily surmised.
For example, in the embodiments described above, an explanation has been given of a keyboard apparatus in which two contacts are disposed on one rubber switch and the key pressing speed is detected by the difference in the times that the contacts conduct. However, the present invention is also applicable to those cases in which one contact has been disposed on one rubber switch. In other words, the invention is valid also for the case in which the contact makes contact at a specified position of the key stroke, it is necessary to maintain the contact after that also, and there is chattering by the contact that occurs during that time.
In addition, it has been configured such that the key obtains the restorative force from the rubber switch, but it may also be done such that the restorative force is obtained from a spring and the like. In that case, it is not necessary that the driven section of the switch be in contact with the actuator section of the key when the key is released.
In addition, in the embodiments described above, an explanation has been given regarding the case in which a protrusion is disposed on the upper surface of the first moveable contact of the rubber switch 42 and the case in which a protrusion is disposed in the area of the key that corresponds to the first moveable contact. However, it may also be set up such that a protrusion is also disposed in the same manner for the second moveable contact and the occurrence of chattering by the second contact is prevented.
The embodiments disclosed herein are to be considered in all respects as illustrative, and not restrictive of the invention. The present invention is in no way limited to the embodiments described above. Various modifications and changes may be made to the embodiments without departing from the spirit and scope of the invention. The scope of the invention is indicated by the attached claims, rather than the embodiments. Various modifications and changes that come within the meaning and range of equivalency of the claims are intended to be within the scope of the invention.
Number | Date | Country | Kind |
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2004-016493 | Jan 2004 | JP | national |
2004-016760 | Jan 2004 | JP | national |
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