WO2007100030A1 - Commutateur de commande, panneau de commande et dispositif d'informations - Google Patents

Commutateur de commande, panneau de commande et dispositif d'informations Download PDF

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Publication number
WO2007100030A1
WO2007100030A1 PCT/JP2007/053876 JP2007053876W WO2007100030A1 WO 2007100030 A1 WO2007100030 A1 WO 2007100030A1 JP 2007053876 W JP2007053876 W JP 2007053876W WO 2007100030 A1 WO2007100030 A1 WO 2007100030A1
Authority
WO
WIPO (PCT)
Prior art keywords
knob
lever
fixing member
operation switch
uneven portion
Prior art date
Application number
PCT/JP2007/053876
Other languages
English (en)
Japanese (ja)
Inventor
Nao Takagi
Yoshinori Kataoka
Original Assignee
Pioneer Corporation
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Pioneer Corporation filed Critical Pioneer Corporation
Publication of WO2007100030A1 publication Critical patent/WO2007100030A1/fr

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Classifications

    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05GCONTROL DEVICES OR SYSTEMS INSOFAR AS CHARACTERISED BY MECHANICAL FEATURES ONLY
    • G05G1/00Controlling members, e.g. knobs or handles; Assemblies or arrangements thereof; Indicating position of controlling members
    • G05G1/02Controlling members for hand actuation by linear movement, e.g. push buttons
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2221/00Actuators
    • H01H2221/066Actuators replaceable

Definitions

  • the present invention relates to an operation switch such as a slider provided in a DJ device, an operation panel including such an operation switch, and an information device such as a DJ device including an operation panel including such an operation switch. .
  • the volume of the music to be played can be changed, and the tempo can be changed.
  • other various operations can be performed. Such an operation is executed, for example, when the user operates an operation switch.
  • the operation switch include a slider switch that can slide back and forth (in other words, a slider volume, etc.) and a rotary switch that can rotate (in other words, a rotary volume, etc.).
  • a knob directly touched by a user is electrically or mechanically connected to a detector or the like that senses an operation amount or the like and protrudes to the upper side of the operation panel. It is inserted into a lever having a shape (in other words, a shaft).
  • the knob has an insertion hole that can be inserted into a lever having a shape protruding above the operation panel.
  • the knob is fixed to the lever by friction between the knob and the lever, and is configured so that it can be easily removed even by a user operation.
  • the knob is fixed to the lever only by friction between the knob and the lever. Therefore, the more frequently the operation switch is operated, the more loose the knob insertion hole can be. For this reason, the friction between the knob and the lever becomes relatively small, and there is a disadvantage that the knob loses the lever force.
  • Patent Document 1 Japanese Utility Model Publication No. 6-50199
  • Patent Document 2 JP-A-8-272471
  • the present invention provides an operation switch that allows easy removal of the lever force knob while the knob is fixed to the lever, an operation panel including such an operation switch, and an information device including such an operation switch. Let it be an issue.
  • a first operation switch includes a knob, a lever, and the knob and a fixing member fixed to each of the lever.
  • a knob-side concavo-convex portion that engages with the first fixing member-side concavo-convex portion of the fixing member, and a release hole for eliminating the engagement between the first fixing member-side concavo-convex portion and the knob-side concavo-convex portion from outside the knob.
  • the lever includes a lever-side concavo-convex portion that meshes with a second fixing member-side concavo-convex portion provided in the fixing member.
  • the knob and the lever can be fixed via the fixing member.
  • the knob and the lever can be fixed by fixing the fixing member and the knob and fixing one if the fixing member is used.
  • the lever includes a lever-side uneven portion (for example, a member having a shape that engages with another uneven portion such as a protrusion, a depression, or a through hole), and the fixing member includes a lever-side uneven portion.
  • a second fixing member-side uneven portion (for example, a member having a shape that engages with a protrusion, a dent, or another uneven portion) is provided at a position where it engages.
  • the lever and the fixing member are fixed by engaging the lever side fixing member and the second fixing member side uneven portion.
  • the lever and the fixing member are fixed by engaging a recess as the lever-side uneven portion with a protrusion as the second fixing member-side uneven portion, for example.
  • the knob is provided with a knob-side uneven portion (for example, a member having a shape that engages with a protrusion, a depression, or another uneven portion), and the fixing member is first fixed at a position where it engages with the knob-side uneven portion.
  • a member-side uneven portion (for example, a member having a shape that engages with a protrusion, a depression, or another uneven portion) is provided.
  • the knob and the fixing member are fixed by engaging the lever side fixing member and the first fixing member side uneven portion. Specifically, for example, the knob and the fixing member are fixed by engaging a protrusion as the knob-side uneven portion with a recess as the first fixing member-side uneven portion.
  • the knob includes a release hole for releasing the engagement between the first fixing member-side uneven portion and the knob-side uneven portion from the outside of the knob.
  • a rod-shaped member is inserted into the knob from the outside through the release hole, and at least one of the first fixing member side uneven portion and the knob side uneven portion is connected to the first fixing member side uneven portion and the knob side uneven portion.
  • the knob side uneven portion provided in the knob and the first fixed member side uneven portion provided in the fixing member are engaged with each other, and the lever side concave portion provided in the lever is provided.
  • the second fixing member-side concavo-convex portion of the fixing member are engaged with each other, so that the knob and the lever can be fixed relatively firmly.
  • the knob and the lever are fixed relatively firmly, the knob is provided with a release hole, so that the knob is relatively fixed from the lever (in other words, from the fixing member fixed to the lever). It can be easily removed. Therefore, even when the operation switch frequently used by the user is consumed, the parts can be easily replaced. In this way, the knob and lever can be fixed relatively firmly without deteriorating the usability of the operation switch.
  • the knob-side uneven portion includes a protrusion, and the first fixing member-side uneven portion can be curved at the other end with one end serving as a fulcrum. And a hook provided with a recess or a through hole near the other end.
  • the hook included in the first fixing member-side uneven portion is curved, for example, while the protrusion included in the knob-side uneven portion and the first The indentation or the through hole included in the fixing member side uneven portion is engaged.
  • the protrusion included in the knob-side uneven portion and the recess or the through hole included in the first fixing member-side uneven portion are suitably engaged, the bending of the hook is eliminated, and as a result, the knob and the fixing member are relatively moved. Firmly fixed.
  • the one end portion is located below the other end portion, and the protrusion is formed in a state where the protrusion and the recess or the through hole are engaged with each other.
  • You may comprise so that it may be located below a front-end
  • the knob and the lever can be relatively firmly fixed in the operation switch for inserting the knob into the lever.
  • the knob-side uneven portion includes a protrusion
  • the first fixing member-side uneven portion can be curved at the other end with one end serving as a fulcrum.
  • a hook having a protrusion that meshes with the protrusion.
  • the knob-side uneven portion and the protrusion included in the first fixing member-side uneven portion are engaged while the hook included in the member-side uneven portion is curved, for example. After that, the protrusions on the knob side uneven part and the first
  • the lever side uneven portion includes a recess or a through hole
  • the second fixing member side uneven portion includes a protrusion that engages with the recess or the through hole
  • the lever and the fixing member can be relatively firmly fixed.
  • the lever and the knob can be fixed relatively firmly.
  • the release hole includes a hole penetrating at least one side surface of the knob.
  • the engagement between the first fixing member-side uneven portion and the knob-side uneven portion can be relatively easily eliminated via the release hole including the hole penetrating the side surface of the knob.
  • the release hole includes a notch provided at an end of the knob.
  • the engagement between the first fixing member-side uneven portion and the knob-side uneven portion can be relatively easily eliminated via the release hole including the notch provided in the end portion of the knob.
  • the fixing member is integrally formed with one of the knob and the lever.
  • a second operation switch of the present invention includes a knob and a lever, and the knob engages with a lever-side uneven portion provided in the lever, and a knob-side uneven portion and A release hole is provided for pressing at least one of the lever side uneven portion and the knob side uneven portion from the outside of the knob.
  • either the knob or the lever is formed integrally with the above-described fixing member.
  • the knob in the second operation switch is configured by integrally forming the knob and the fixing member in the first operation switch.
  • the lever in the second operation switch is configured by integrally forming the lever and the fixing member in the first operation switch.
  • the second operation switch of the present invention can also adopt various aspects.
  • a first operation panel of the present invention includes a knob, a lever, and a fixing member fixed to each of the knob and the lever.
  • a knob-side concavo-convex portion that engages with the first fixing member-side concavo-convex portion provided in the fixing member, and a release hole for eliminating the engagement between the first fixing member-side concavo-convex portion and the knob-side concavo-convex portion from the outside of the knob.
  • the lever includes an operation switch (i.e., the first operation switch of the present invention) including a lever-side uneven portion that meshes with a second fixed member-side uneven portion included in the fixing member, and an operation signal corresponding to the operation of the operation switch.
  • the first operation panel of the present invention it is possible to generate an operation signal corresponding to the operation of the operation switch while enjoying the same effect as that of the first operation switch of the present invention described above. As a result, various operations can be performed using the operation switches.
  • the first operation panel of the present invention can also adopt various aspects.
  • the second operation panel of the present invention includes a knob and a lever, and the knob engages with a lever-side uneven portion provided in the lever.
  • An operation switch (that is, the second operation switch of the present invention described above) having a release hole for releasing the engagement between the lever side uneven portion and the knob side uneven portion from the outside of the knob, Signal generating means for generating an operation signal corresponding to the operation amount of the operation switch.
  • the second operation panel of the present invention it is possible to generate an operation signal corresponding to the operation of the operation switch while enjoying the same effect as that of the second operation switch of the present invention described above. So as a result, various operations using the operation switch can be performed.
  • the second operation panel of the present invention can also adopt various aspects.
  • a first information device includes a knob, a lever, and a fixing member fixed to each of the knob and the lever. Provided with a knob-side concavo-convex portion that engages with the first fixing member-side concavo-convex portion of the fixing member, and a release hole for eliminating the engagement between the first fixing member-side concavo-convex portion and the knob-side concavo-convex portion from the outside of the knob.
  • the lever includes an operation switch (that is, the first operation switch of the present invention) having a lever-side concavo-convex portion that meshes with a second fixing member-side concavo-convex portion included in the fixing member, and an operation corresponding to the operation amount of the operation switch.
  • Signal generating means for generating a signal and processing means for performing information processing according to the generated operation signal are provided.
  • an operation signal corresponding to the operation of the operation switch can be generated.
  • Information processing according to the generated operation signal is performed.
  • various operations using the operation switch can be performed while enjoying the same effects as those of the first operation switch of the present invention described above.
  • the first information device of the present invention can also adopt various aspects.
  • a second information device of the present invention includes a knob and a lever, and the knob engages with a knob-side uneven portion and a lever-side uneven portion included in the lever. And an operation switch having a release hole for releasing the engagement between the lever side uneven portion and the knob side uneven portion from the outside of the knob, and a signal for generating an operation signal corresponding to the operation amount of the operation switch A generating unit; and a processing unit that performs information processing according to the generated operation signal.
  • an operation signal corresponding to the operation of the operation switch can be generated.
  • Information processing according to the generated operation signal is performed.
  • various operations using the operation switch can be performed while enjoying the same effects as those of the second operation switch of the present invention described above.
  • the first of the present invention in response to various aspects of the second operation switch of the present invention described above, the first of the present invention.
  • Information devices can also take various forms.
  • the knob includes a knob, a lever, and a fixing member, and the knob includes a knob-side uneven portion engaging with the first fixing member-side uneven portion, and
  • the first fixing member includes a release hole for canceling the engagement between the material-side uneven portion and the knob-side uneven portion
  • the lever includes a lever-side uneven portion that engages with the second fixing member-side uneven portion.
  • the knob includes a knob and a lever, and the knob cancels the engagement of the knob side concave and convex portion and the lever side concave and convex portion and the knob side concave and convex portion which mesh with the lever side concave and convex portion.
  • the first operation panel of the present invention comprises the first operation switch of the present invention and a signal generation means.
  • the second operation panel of the present invention includes the second operation switch of the present invention and a signal generating means.
  • the first information device of the present invention includes the first operation switch of the present invention, a signal generating means, and a processing means.
  • the second information device of the present invention includes the second operation switch of the present invention, a signal generation means, and a processing means. Therefore, it is easy to remove the knob from the lever while the knob is fixed to the lever.
  • FIG. 1 is a block diagram conceptually showing the basic structure of an optical disc reproducing apparatus in an example.
  • FIG. 2 is a plan view conceptually showing the outer appearance of the operation unit, in particular, of the optical disk reproducing apparatus according to the embodiment.
  • FIG. 3 is a front view, a side view, a bottom view, a top view, and a sectional view showing a configuration of a knob of a slider button.
  • FIG. 4 is a front view, a side view, a bottom view, and a top view showing a configuration of a knob press of a slider button.
  • FIG. 5 is a perspective view showing a process of attaching a knob press to the lever of the slide button.
  • FIG. 6 is a perspective view showing a process of attaching a knob to a lever to which a knob presser is attached.
  • FIG. 7 is a perspective view showing the slider button 43 after the knob is attached.
  • FIG. 8 is a cross-sectional view showing a process of attaching a knob to a lever to which a knob presser is attached.
  • FIG. 9 is a cross-sectional view conceptually showing the state when the tip of the hook engages with the protrusion.
  • FIG. 10 is a front view showing a configuration of a knob press of a slider button.
  • FIG. 11 is a perspective view and a bottom view showing a configuration of a knob of a slider button.
  • FIG. 12 is a perspective view showing a process of attaching a knob press to the knob of the slide button.
  • FIG. 13 is a perspective view showing a process of inserting a knob with a knob press attached to the lever.
  • FIG. 14 is a perspective view showing the slider button after the knob with the knob press attached has been inserted into the lever.
  • FIG. 15 is a side view showing a configuration of a knob of a slider button according to a second modification.
  • FIG. 16 is a side view conceptually showing an aspect in which the knob according to the second modification is attached to the lever and then removed.
  • FIG. 17 is a side view conceptually showing an aspect in which the knob according to the third modification is attached to the lever and then removed.
  • the information device of the present invention is applied to an optical disc playback apparatus such as a CD player or a DVD player having various playback functions typified by playback speed control, tempo control, and rewind playback.
  • an optical disc playback apparatus such as a CD player or a DVD player having various playback functions typified by playback speed control, tempo control, and rewind playback.
  • the optical disk playback apparatus according to the present embodiment described below can be used for various special effects (effects) on ballrooms such as clubs and discos! ) Used as a DJ equipment for continuous playback while adding Note that “DJ” in the present embodiment is intended to indicate that content data in a broad sense including not only music but also video and the like is reproduced using a special technique.
  • FIG. 1 is a block diagram conceptually showing the basic configuration of the optical disk reproducing apparatus according to the present embodiment
  • FIG. 2 conceptually shows the appearance of the operation unit in the optical disk reproducing apparatus according to the present embodiment.
  • the optical disc playback apparatus 1 includes an optical pickup (PU: Pick Up) 10 and an RF
  • the optical pickup 10 is for reading content data and control data from the optical disc 100, and includes a semiconductor laser device, various lenses, an actuator and the like. More specifically, the optical pickup 10 irradiates the optical disc 100 with the laser beam LB with a predetermined power. Also receives the reflected light of laser beam LB from optical disc 100 PD (Photo Detector) sensor is provided, and the received reflected light is output to the RF amplifier 11 as a read signal.
  • PD Photo Detector
  • the optical pickup 10 is configured to be movable in the radial direction of the optical disc 100 or the like according to a tracking error signal by an actuator, a slider (not shown) driven by the control of the servo mechanism 13.
  • the focus is controlled by changing the focus of the laser beam LB in accordance with the focus error signal under the control of the servo mechanism 13.
  • the RF amplifier 11 generates an RF signal based on the read signal output from the optical pickup 10 and outputs the generated RF signal to each of the content data decoding unit 15 and the control data decoding unit 17. Further, the RF amplifier 11 has a focus error signal for controlling the focus when the optical pickup 10 irradiates the optical disk 100 with the laser beam LB based on the read signal output from the optical pickup 10 and the optical pickup 10 Generates an error signal such as a tracking error signal for controlling tracking when the optical disc 100 is irradiated with the laser beam LB. The generated error signal is output to the pickup servo circuit 14.
  • the spindle motor 12 is configured to rotate the optical disc 100 at a predetermined speed while receiving spindle servo from the spindle servo circuit 18.
  • the servo mechanism 13 moves the optical pickup 10 in the radial direction of the optical disc 100 based on the tracking servo control signal output from the pickup servo circuit 14. Further, based on the focus servo control signal output from the pickup servo circuit 14, the objective lens included in the optical pickup 10 is moved along the optical axis of the laser light LB.
  • the pickup servo circuit 14 generates a focus servo control signal and a tracking servo control signal for controlling the servo mechanism 13 based on the error signal output from the RF amplifier 11.
  • the generated focus servo control signal and tracking servo control signal are output to the servo mechanism 13.
  • the servo mechanism 13 is feedback-controlled based on the error signal output from the RF amplifier 11 that suppresses the occurrence of focus error and tracking error.
  • the content data decoding unit 15 decodes the RF signal output from the RF amplifier 11. Thus, a stream signal including a video stream and an audio stream is generated. The generated stream signal is output to the speed adjustment unit 19.
  • the decoding unit 16 decodes the stream signal and generates a reproduction signal.
  • the generated playback signal is output to an external output device such as a display or a speaker via the external output terminal 60, and a video corresponding to the content data recorded on the optical disc 100 at a specified playback speed. And played as audio.
  • the playback signal may be modulated with a sawtooth wave, the playback signal may be modulated with a rectangular wave, or the playback signal may be doppler effect, for example.
  • the playback signal may be modulated with a special waveform simulating jet sound, for example, the playback signal may be modulated with a special gun sound. Modulation by a waveform may be performed, or modulation by various special waveforms preset by the user or the like may be performed. These modulations are preferably performed by a user operating an operation key (not shown in the operation unit 40).
  • the control data decoding unit 17 decodes the RF signal output from the RF amplifier 11, thereby generating control data for controlling the reproduction of the content data.
  • the control data includes, for example, TOC data recorded in the lead-in area of the optical disc 100, synchronization data recorded in the stream signal, and time passage information when content data is played back.
  • One specific example is sub-code data.
  • the generated control data is output to the system controller 20 and used to control the reproduction of the content data.
  • the spindle servo circuit 18 detects an error in the synchronization data with respect to the rotation speed of the spindle motor 12 instructed by the system controller 20, and feedback-controls the rotation of the spindle motor 12 so as to suppress the occurrence of the error. .
  • the system controller 20 includes a microprocessor (MPU) and executes a system program (or firmware, etc.) that is set in advance to centrally control the operation of the entire optical disc reproducing apparatus 1.
  • MPU microprocessor
  • firmware firmware, etc.
  • the memory 21 includes a RAM area for temporarily storing various data necessary for the operation of the optical disc playback apparatus 1, a ROM area for storing a system program for defining the operation of the system controller 20, and the like. Prepare.
  • an operation unit 40 and a display unit 50 are connected to the system controller 20.
  • the instruction data from the various operation keys provided in the operation unit 40 is output to the system controller 20 constituting one specific example of the “processing means” in the present invention, and the system controller 20 responds to the instruction data. Control playback of content data. Further, the system controller 20 controls the display operation on the display unit 50.
  • the operation unit 40 constitutes one specific example of the "operation panel" in the present invention.
  • the jog dial 41 is a disk-shaped operation key that is rotatable in both directions.
  • forward playback and reverse playback can be set according to the rotation direction, and further, a speaker or the like can be set according to the rotation speed. Now you can change the tone of the music played on the headphones!
  • the content data on the optical disc 100 is reversed in the order in which they are recorded, as in the case of playing music or the like by rotating the analog record in the reverse direction.
  • music is recorded continuously in analog records ( Therefore, if the analog record is rotated in the reverse direction, the music will be played in the reverse direction, and the onomatopoeia different from the original music will be played.
  • the jog dial 41 is rotated counterclockwise, each content data digitally recorded on the optical disc 100 is played in the reverse order, so that the analog record is also rotated in the reverse direction for playback. It is designed to produce the same onomatopoeia as in the case of.
  • the pulse counter 42 detects the rotational speed (or angular velocity) of the jog dial 41 by counting the pulse width (or the number of pulses, etc.) of pulses generated as the jog dial 41 is rotated.
  • the direction of rotation of the jog dial 41 is detected based on the pulse generated by the rotation operation of the jog dial 41.
  • the detected rotation direction and rotation speed of the jog dial 41 are output to the system controller 20.
  • the system controller 20 recognizes the operation amount of the jog dial 41 operated by the user or the like, and performs an event processing or the like corresponding to the operation amount.
  • the slider button 43 constitutes a specific example of the "operation switch" in the present invention, and is configured to be slidable in the vertical direction, for example.
  • the user or the like can change the playback speed of the content data as appropriate by moving the slider button 43 up and down. For example, by moving the slider button 43 upward, the content data playback speed is relatively slow, or by moving the slider button 43 downward, the content data playback speed is relatively high. You can do it.
  • the movement amount of the slider button 43 is detected as an analog value corresponding to the movement amount and output to the AZD converter 45.
  • the rotary button 44 constitutes a specific example of the "operation switch" in the present invention.
  • it is configured to be rotatable.
  • the user or the like can appropriately change the volume at which the content data is reproduced.
  • the volume when reproducing the content data is relatively increased, or by rotating the rotary button 44 in the counterclockwise direction, the content data is The volume during playback can be relatively reduced.
  • the amount of rotation of the rotary button 44 is detected as an analog value corresponding to the amount of rotation, and is output to the AZD converter 45.
  • the AZD converter 45 constitutes one specific example of the "signal generating means" in the present invention, and the amount of movement of the slider button 43 detected as an analog value and the amount of rotation of the rotary button 44 are digital values. After being converted to, output to the system controller 20. As a result, the system controller 20 can make the reproduction speed of the content data relatively fast or relatively slow according to the movement amount of the slider button 43. Alternatively, depending on the amount of rotation of the rotary button 44, the volume when reproducing the content data can be relatively increased or decreased.
  • the display unit 50 displays various information associated with the reproduction of the content data.
  • the display unit 50 includes a display panel such as a liquid crystal display or a fluorescent tube, and displays various types of information under the control of the system controller 20.
  • the outer appearance of the operation unit 40 is provided with a jog dial 41, an operation button 402, a slider button 43, a rotary button 44, and a display unit 50.
  • the operation button 402 is a button that can be pressed by the user, and is configured such that the operation of the optical disc playback apparatus 1 can be changed when the user presses the operation button 402. Specifically, the user can instruct to play, fast forward, rewind, pause, start playback from a predetermined cue point, etc. by pressing the operation button 402.
  • Various information corresponding to the reproduction of the content data including the music is displayed on the display unit 50.
  • the track number of the currently reproduced content data, the elapsed time of the currently reproduced content data (that is, the current playback time), and the current optical disk playback device 1 are loaded.
  • Recorded on the optical disc 100 The total number of tracks of content data to be displayed is displayed.
  • the content data of track No. 3 is currently being played back, 1 minute and 15 seconds have passed since the start of playback, and further recorded on the optical disc 100 loaded on the optical disc playback apparatus 1. It can be recognized that the total number of tracks in the content data is “16”.
  • the beat density and the like of the content data along the reproduction time axis are wave-displayed.
  • the signal intensity for each frequency band of the content data currently being played may be displayed in waves.
  • the display content on the display unit 50 shown in FIG. 2 is a specific example, and it goes without saying that various other information may be displayed.
  • FIG. 3 is a front view, a side view, a bottom view, a top view, and a sectional view showing the configuration of the knob 431 of the slider button 43
  • FIG. 4 shows the configuration of the knob presser 4 32 of the slider button 43. It is a front view, a side view, a bottom view, and a top view.
  • FIG. 3 (a) shows a front view of the knob 431 that constitutes the slider button 43
  • FIG. 3 (a) shows a bottom view of the knob 431 that constitutes the slider button 43.
  • the knob 431 is a component of the slider button 43 that is directly touched and operated by the user.
  • the knob 431 is formed with a gap into which a knob press 432 and a lever 433 described later can be inserted.
  • the lever / knob press press-fitting portion 4311 provided on the left side of FIG. 3 (a) in the gap has a shape into which the lever 433 to which the knob press 432 is attached fits.
  • a projection 4312 on which a hook (see FIG. 4) provided in the knob press 432 is pulled is formed on the inner side surface of the knob 431.
  • the protrusion 4312 constitutes a specific example of the “knob side uneven portion” in the present invention. Note that the internal configuration of the knob 431 is described in detail in the cross-sectional view shown in FIG. 3 (b).
  • the knob 431 has a release hole 4313 penetrating through the inside of the knob 431. I have.
  • the top view of the knob press 432 constituting the slider button 43 is shown on the upper side of FIG. 4, the side view of the knob press 432 constituting the slider button 43 is shown on the left side of FIG. 4, and the middle side of FIG.
  • the front view of the knob holder 432 that constitutes the slider button 43 is shown, the rear view of the knob holder 432 that constitutes the slider button 43 is shown on the right side of FIG. 4, and the knob holder that constitutes the slider button 43 on the lower side of FIG.
  • the bottom view of is shown.
  • the knob presser 432 is a part of the slider button 43 for fixing the knob 431 and the lever 433.
  • the knob holder 432 is attached to the lever 433, and the knob 431 is attached to the knob holder 432 attached to the lever 433, so that the knob 431 is fixed to the lever 433. That is, the knob 431 and the lever 433 are fixed via the knob presser 432.
  • the knob press 432 constitutes one specific example of the “fixing member” in the present invention, and includes protrusions 4321 and 4322 used when the knob press 432 is attached to the lever 433.
  • Each of the protrusions 4321 and 4322 constitutes a specific example of the “second fixing member-side uneven portion” in the present invention, and has a shape that bites into the lever 433.
  • it is preferable that each of the protrusions 4321 and 4322 has a shape in which the tip thereof is directed inward so that the lever 433 is sandwiched and does not easily come off.
  • the knob presser 432 is provided with a hook 4323 used when the knob 431 is fixed.
  • the hook 4323 can be bent with the lower side as a fulcrum (more specifically, it can be bent in the left and right directions in the left side view of FIG. 4).
  • the hook 4323 has a gap 4324 that constitutes a specific example of the “first fixing member-side uneven portion” in the present invention in the central portion thereof excluding the upper tip portion.
  • FIG. 5 shows that the knob is pressed against the lever 433 of the slider button 43.
  • FIG. 6 is a perspective view showing a process of attaching the knob 431 to the lever 433 to which the knob presser 432 is attached
  • FIG. 7 is a perspective view showing the process after the knob 431 is attached.
  • 4 is a perspective view showing a slider button 43 of FIG.
  • the knob presser 432 is attached to the lever 433.
  • the lever 433 includes a notch 4331 constituting a specific example of the “lever-side concave and convex portion” in the present invention at a position corresponding to the protrusion 4321 of the knob presser 432. Therefore, when the knob holder 432 is attached to the lever 433, the projection 4321 bites into the notch 4331, so that the knob holder 432 is accidentally or counter-intentionally removed from the lever 433 as shown in FIG.
  • the knob holder 432 is fixed to the lever 433 so that it is not lost.
  • the protrusion 4322 bites into the reed 433 ⁇ J surface 4332! At this time, it may be configured such that a notch corresponding to the protrusion 4322 is provided even if!
  • the lever 433 has a shape protruding on the surface of the operation unit 40 so that the lever 433 can move in accordance with the movement of the slider button 43.
  • the end of the lever 433 opposite to the end where the knob 431 is inserted is connected to the AZD converter 45 described above via a predetermined electronic circuit or the like.
  • the knob 431 is inserted into the lever 433 to which the knob presser 432 is attached.
  • the slider button 43 is configured as shown in FIG.
  • FIG. 8 is a cross-sectional view showing a process of attaching the knob 431 to the lever 433 to which the knob presser 432 is attached.
  • the protrusion 4312 provided in the knob 431 and the hook provided in the knob press 432. 4323 or gap 4324 is engaged, and the notch 4331 provided in the lever 433 and the protrusion 4321 provided in the knob press 432 are engaged, so that the knob 431 and the reno 433 can be relatively firmly fixed. it can.
  • the knob 431 can be secured to the lever 433 so that the knob 431 does not accidentally or counter-intentionally disengage from the lever 433. For this reason, even if the slider button 43 is frequently used, the knob 431 and the lever 433 are relatively firmly fixed, and the knob 431 is unintentionally detached from the lever 43 3 during the operation. It is possible to avoid the inconvenience.
  • the knob 431 and the lever 433 are relatively firmly fixed, the knob 431 has the release hole 4313, so the lever 433 (in other words, the fixing attached to the lever 433).
  • the knob 431 can be removed relatively easily. Therefore, even when the slider button 43 frequently used by the user is consumed, the parts can be easily replaced.
  • the lever's knob pressing press-fit portion 4311 may be configured so that the lever 433 and a part of the knob pressing 432 adjacent to the lever 433 can be fixed by friction. In this case, it is preferable to set the size and shape of the gap of the lever / knob press-fitting portion 4311 according to the size of a part of the lever press 433 and the knob press 432 adjacent to the lever 433.
  • the release claw 4313 is not necessarily the release of the above-described shape as long as it can eliminate the engagement between the protrusion 4312 and the hook 4323 or the gap 4324 from the external force of the knob 431. Needless to say, it is not limited to holes.
  • a part for eliminating the force-engagement between the protrusion 4312 and the hook 4323 or! / Or the gap 4324 may be mounted on the release hook 4313. As a result, it is not necessary for the user to prepare parts for insertion into the release hole 4313, and the V and slider button 43 can be realized for ease of use.
  • knob 431, knob press 432, and lever 433 described with reference to FIGS. 3 to 8 are merely examples.
  • Knob 431 and knob holder 432 are relatively firmly fixed, knob holder 432 and lever 433 are relatively firmly fixed, and release hole 4313 for removing knob 43 1 from lever 433 is provided. Whatever the specific shape of these parts?
  • the knob 431 and the knob presser 432 may be integrally formed to form a single component.
  • the knob manufactured by integrally forming the knob 431 and the knob holder 432 has a shape when the knob holder 432 described above is inserted into the knob 431.
  • the knob presser 432 and the lever 433 may be integrally formed.
  • a lever manufactured by integrally forming the knob presser 432 and the lever 433 has a shape when the knob presser 432 is attached to the lever 433.
  • FIG. 9 is a cross-sectional view conceptually showing a state where the tip partial force projection 4312 of the hook 4323 is engaged.
  • FIG. 10 is a front view showing the configuration of the knob presser 432a of the slider button 43a
  • FIG. 11 is a perspective view and a bottom view showing the configuration of the knob 43la of the slider button 43a.
  • the knob press 432a includes a hook 4323a having a key-like shape used when the knob press 432a is attached to the lever 433a. Furthermore, the knob presser 432a has a hook-like shape that is used when attaching to the knob 431a. It has a hook 4323b having.
  • the hook 4323a constitutes a specific example of the “second fixing member side uneven portion” in the present invention
  • the hook 4323b constitutes a specific example of the “first fixing member side uneven portion” in the present invention. Yes.
  • the hook 4322a has a shape that engages with the notch 4331a provided in the lever 433a.
  • the hook 4322b has a shape that engages with the protrusion 4312a provided in the knob 431a.
  • the knob 431a according to the first modified example is provided with a groove 4314a for inserting the knob presser 432a in appearance, and is provided with a release hole 4313a in the lower part.
  • a gap in which the knob presser 432a and the lever 433a can be inserted is formed inside the knob 431a.
  • a protrusion 4312a is formed to which the hook 4323b included in the knob presser 432a is pulled.
  • FIG. 12 is a perspective view showing a process of attaching the knob holder 432a to the knob 431a of the slider button 43a
  • FIG. 13 shows a process of inserting the knob 43 la to which the knob holder 432a is attached into the lever 433a
  • FIG. 14 is a perspective view showing the slider button 43 after the knob 431a to which the knob presser 432a is attached is inserted into the lever 433a.
  • the knob presser 432a is inserted along the groove 4314a of the knob 431a.
  • the hook 4323b force of the knob presser 432a engages with the protrusion 4312a provided inside the knob 43la.
  • the knob presser 432a force S is fixed to the S knob 431a.
  • the knob holder 432 is fixed to the knob 431a so that the knob holder 432a does not accidentally or counter-disengage from the knob 431a.
  • the knob 431a into which the knob presser 432a is inserted is inserted into the lever 433a.
  • the hook 4323a force of the knob presser 432a engages with the notch 4331a of the lever 433a.
  • the knob 431a is fixed to the lever 433a so that the knob 431a is not accidentally or counter-intentionally detached from the lever 433a.
  • the slider button 43a is configured as shown in FIG.
  • the empty space inside the knob 431a is released from the release hole 4313a.
  • an elongated rod-like member is inserted into the gap, and the hook 4323a engaged with the notch 4331a is pushed and pressed in a direction in which the hook 4323a does not engage with the notch 4331a.
  • the hook 4323a is detached from the notch 4331a.
  • the knob 431a force reno 1 433a force fixed to the lever 433a is removed.
  • the slider button 43a according to the first modification can also receive the same benefits as the benefits that the slider button 43 described above enjoys.
  • knob 431a is made of black resin and knob retainer 432a is made of white resin, the trouble of drawing the indicator line on knob 431a can be saved or knob 431a can be made in two colors. This eliminates the need for manufacturing. For this reason, it is possible to enjoy the advantage of leading to simplification of the manufacturing process.
  • the slider button 43a according to the first modification may employ various configurations in the same manner as the slider button 43 described above.
  • FIG. 15 is a side view showing the configuration of the knob 431b of the slider button 43b
  • FIG. 16 is a side view conceptually showing an aspect in which the knob 431b is attached to the lever 433b and then removed.
  • the knob 43 lb of the slider button 43b includes two knob members 431 lb and 4312b having symmetrical shapes. These two knob members 4311b and 4312bi, as shown in FIG. 15 (b), are connected to one side force S by a hinge 4313b. Therefore, the hinge 4313b is used as a fulcrum, and the two knob members 43 l ib and 4312 b are opened in the left-right direction in FIG. 15 (b).
  • the two knob members 431 lb and 4312b sandwich the lever 433b, whereby the knob 43 lb and the lever 433b are fixed.
  • the knob 43 lb is removed with a force of 433b, a toe or a thin plate member is inserted at the boundary between the two knob members 431 lb and 4312b on the bottom surface of the knob 431b.
  • the two knob members 431 lb and 4312b are opened, so that the knob 43 lb can be removed by the force of the Reno 433b.
  • the knob 43b according to the second modification can also enjoy the various benefits described above.
  • a thin (! It may be configured so that a specific example) is provided.
  • the two knob members 431 lb and 4312b are fixed so that, for example, the knob member 431 lb includes a hook and the knob member 4312b includes a protrusion that pulls on the hook. You may comprise. In this case, it is preferable that a release hole for releasing the pulling force between the hook and the protrusion is provided on the bottom surface or side surface of the knob 431b.
  • FIG. 17 is a side view conceptually showing a state in which the knob 431c is attached to the lever 433c and then removed.
  • the knob 431c of the slider button 43c according to the third modification includes two knob rods 4311c and 4312c!
  • the knob rod material 431 Id is provided with a projection 4313c
  • the knob member 4312c is provided with a hole 4314c into which the projection 4313c is inserted.
  • the lever 433c is provided with a hole 4331c through which the protrusion 4313c passes.
  • knob 431c when the knob 431c is removed from the lever 433c, a toe or a thin plate-like member is inserted into the boundary between the two knob members 4311c and 4312c on the bottom surface of the knob 431c.
  • the knob 431c can be detached from the lever 433c by opening the two knob members 4311c and 4312c.
  • knob 43c according to the third modification can also enjoy the various benefits described above.
  • a thin groove is formed in the boundary ("release hole" in the present invention).
  • release hole in the present invention.
  • An operation switch, an operation panel, and an information device according to the present invention are provided in a DJ device or the like, and include an operation switch such as a V and a slider, an operation panel including such an operation switch, and such an operation switch. It can be used for information equipment such as DJ equipment equipped with an operation panel.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Rotary Switch, Piano Key Switch, And Lever Switch (AREA)

Abstract

La présente invention concerne un commutateur de commande (43) qui comprend un bouton (431), un levier (433) et un élément de fixation (432) fixé au bouton et au levier. Le bouton comprend une partie concavo-convexe côté bouton (4312) engagée dans la première partie concavo-convexe côté élément de fixation (4323) et un orifice de libération (4313) qui sert à libérer l'engagement de la première partie concavo-convexe côté élément de fixation avec la partie concavo-convexe côté bouton depuis l'extérieur du bouton. Le levier comprend une partie concavo-convexe côté levier (4331) engagée dans la seconde partie concavo-convexe côté élément de fixation (4321) de l'élément de fixation.
PCT/JP2007/053876 2006-03-01 2007-03-01 Commutateur de commande, panneau de commande et dispositif d'informations WO2007100030A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2006054688 2006-03-01
JP2006-054688 2006-03-01

Publications (1)

Publication Number Publication Date
WO2007100030A1 true WO2007100030A1 (fr) 2007-09-07

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ID=38459130

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Application Number Title Priority Date Filing Date
PCT/JP2007/053876 WO2007100030A1 (fr) 2006-03-01 2007-03-01 Commutateur de commande, panneau de commande et dispositif d'informations

Country Status (1)

Country Link
WO (1) WO2007100030A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4746160B1 (ja) * 2010-12-06 2011-08-10 パイオニア株式会社 スライド操作子

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4811636Y1 (fr) * 1968-08-15 1973-03-29
JPS6174118U (fr) * 1984-10-18 1986-05-20
JPS6392921U (fr) * 1986-12-01 1988-06-15

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4811636Y1 (fr) * 1968-08-15 1973-03-29
JPS6174118U (fr) * 1984-10-18 1986-05-20
JPS6392921U (fr) * 1986-12-01 1988-06-15

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4746160B1 (ja) * 2010-12-06 2011-08-10 パイオニア株式会社 スライド操作子
WO2012077154A1 (fr) * 2010-12-06 2012-06-14 パイオニア株式会社 Actionneur coulissant

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