JP4186612B2 - Composite operation type electronic parts - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a composite operation type electronic component that is used in an input operation unit of various electronic devices and is operated by rotating, tilting, and pressing an operation shaft.
[0002]
[Prior art]
This type of conventional composite operation type electronic component will be described with reference to FIGS.
[0003]
FIG. 10 is a front sectional view of a conventional composite operation type electronic component, and FIG. 11 is an exploded perspective view.
[0004]
In the figure, reference numeral 1 denotes a U-shaped cover made of a metal plate having a circular opening 1A at the center of the upper bottom surface, and a spherical concave body 1B arranged on the inner side of the upper bottom surface so as to cover the lower surface around the opening 1A. In addition, a box-shaped case is formed by holding the resin-made square frame 2 and the first contact board 3 disposed so as to close the lower surface thereof.
[0005]
A central hole 4A and four through holes 4B to 4E are provided in the intermediate wall portion of the frame body 2. On the first contact substrate 3, the central fixed contact 3A and the center fixed contact 3A and the positions corresponding to the holes 4A to 4E are provided. Peripheral fixed contacts 3B to 3E are provided at an equal distance from the center and at an angular interval of 90 °.
[0006]
A rubber sheet 5 and a second contact board 6 are sandwiched between the frame 2 and the first contact board 3, and the rubber sheet 5 has movable contacts 5F and 5G to 5J (5H, Domes 5A and 5B to 5E having 5J (not shown) are provided at positions corresponding to the fixed contacts 3A and 3B to 3E, and the central pressing switch 7A and the peripheral pressing switches 7B to 7E (7C and 7E are (Not shown).
[0007]
In addition, the second contact board 6 is configured to fit the dome-shaped portions 5B to 5E in the corresponding four through holes to sandwich the rubber sheet 5 between the first contact board 3 and an elastic metal thin plate. It has contacts 8A and 8B.
[0008]
Further, 9 is a resin-made rotating body having a regular hexagonal through hole 9A in the center, and a signal contact plate 10 fixed to the lower surface by insert molding, and the through hole 4A in the intermediate wall portion of the frame 2 The elastic contact points 8A and 8B are elastically held by the central hole 6A of the second contact board 6 and elastically contact the signal contact plate 10 to form a rotating part.
[0009]
Reference numeral 11 denotes a rod-like operation shaft, and the lower end thereof is a polygonal sphere 11A having a regular hexagonal horizontal cross section at the center, and can be moved up and down and tilted into a regular hexagonal through hole 9A at the center of the rotating body 9. Are engaged with each other and are in contact with the upper surface of the dome-shaped portion 5A of the central pressing switch 7A, while the circular shaft portion 11B extending upward penetrates through the central hole 12A of the driving body 12. Projecting upward from the opening 1 </ b> A of the cover 1.
[0010]
Further, the drive body 12 has a spherical protrusion 12B having the same center as the polygonal sphere 11A at the lower end of the operation shaft 11 at the center of the upper surface of the flat plate portion, and the spherical protrusion 12B is the opening 1A of the cover 1. It is supported by a flange portion 11C in the middle of the shaft portion 11B of the operation shaft 11 that penetrates the central hole 12A so as to come into contact with the spherical concave portion of the spherical concave portion 1B located on the lower peripheral surface so as to be capable of rotating and tilting.
[0011]
Further, four protrusions 13A to 13D (13D not shown) are provided below the flat plate portion of the driving body 12, and lower ends thereof are upper surfaces of the dome-shaped portions 5B to 5E of the peripheral press switches 7B to 7E, respectively. The driving body 12 and the operation shaft 11 are kept in the neutral position.
[0012]
Next, the operation of the composite operation type electronic component configured as described above will be described.
[0013]
First, when the shaft portion 11B of the operation shaft 11 is horizontally rotated in the neutral position shown in FIG. 10, the rotating body 9 engaged so as to rotate together with the polygonal sphere 11A at the lower end is rotated, and the lower surface thereof. The elastic contacts 8A and 8B slide elastically on the signal contact plate 10 to generate an electrical signal as a rotating part.
[0014]
Then, when a lateral pressing force is applied to the shaft portion 11B of the operation shaft 11 and tilted in the direction indicated by the arrow X in FIG. 12, the operation shaft 11 rotates rightward around the polygonal sphere 11A at the lower end. Accordingly, the driving body 12 engaged in the middle of the shaft portion 11B rotates and tilts in the Z direction, and the lower protrusion 13A pushes the dome-shaped portion 5B of the peripheral pressing switch 7B downward to be elastic. The movable contact 5G comes into contact with the fixed contact 3B to turn on the peripheral pressing switch 7B.
[0015]
Thereafter, when the pressing force applied to the shaft portion 11B is removed, the dome-shaped portion 5B is restored to its original shape by the elastic restoring force, and the projection 13A is pushed back to move the operation shaft 11 back to the original neutral position in FIG. Return to.
[0016]
Further, when a downward pressing force is applied to the shaft portion 11B and pressed downward as indicated by an arrow V in FIG. 13, the lower surface of the polygonal sphere 11A at the lower end of the operation shaft 11 pushes the dome-shaped portion 5A of the central pressing switch 7A. When it is pushed downward and elastically deformed, the movable contact 5F comes into contact with the fixed contact 3A to turn on the central pressing switch 7A, and when the pressing force applied to the shaft portion 11B is removed, it returns to the original neutral position in FIG. there were.
[0017]
As prior art document information related to the invention of this application, for example, Patent Document 1 and Patent Document 2 are known.
[0018]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-241501
[Patent Document 2]
JP 2000-48681 A
[0019]
[Problems to be solved by the invention]
However, in the conventional composite operation type electronic component, when the operation shaft 11 is rotated, the drive body 12 is rotated in the rotation direction by the gap between the protrusions 13A to 13D of the drive body 12 and the through holes 4B to 4E of the frame body 2. The rotating hand 9 feels uneven rotation in the hand of the person who moves and operates, and the polygonal sphere 11A of the operation shaft 11 engages with the polygonal through hole 9A of the rotating body 9 that can be moved up and down and tilted. Although a slight gap is provided, there is a problem in that the gap causes a play angle when the operation shaft 11 is rotated, which may cause a rattle in the hand of the operator.
[0020]
The present invention solves such a conventional problem, and provides a composite operation type electronic component in which it is difficult to feel uncomfortable feelings such as uneven rotation and rattling in the hand of an operator when rotating an operation shaft. With the goal.
[0021]
[Means for Solving the Problems]
In order to achieve the above object, the present invention has the following configuration.
[0022]
The invention according to claim 1 of the present invention has a circular opening whose peripheral lower surface is a spherical recess at the center of the upper bottom surface, has a rotating part portion and a central pressing switch at the center of the lower bottom surface, Four peripheral press switches at an angular interval of 90 ° from the center of the center, and projecting downward from the upper bottom surface along one of the center lines connecting the two peripheral press switches facing each other outside the spherical recess A box-shaped case having two bosses and a spherical protrusion at the center of the top surface having a circular through hole at the center is a circular opening of the box-shaped case Abutting so as to be able to rotate and tilt against the spherical recess on the lower surface In addition to engaging, there are two elongated holes on the outside of this spherical protrusion, each engaging two bosses, and four protrusions on the lower surface of the outer periphery, each abutting against the pressing part of the peripheral pressing switch. In addition, the periphery of the circular through hole on the lower surface of the spherical protrusion is tilted and moved up and down to the polygonal through hole of the rotating body of the rotating body part and the polygonal flat part whose outer periphery is a wall part. Although it is possible to engage with each other, the lower surface abuts against the pressing part of the central pressing switch, the lower end has a polygonal sphere with a polygonal horizontal section, and a circle extending upward from this sphere The shaft part of the shaft is engaged with the circular through-hole of the drive body so as to rotate and move up and down and protrude upward, and the upper surface of the flange part provided in the middle of the shaft part is attached upward by the central pressing switch. Due to the force, the outer shape is the same shape as the flat part of the drive body. A composite operation type electronic component composed of an operation shaft that is in elastic contact with the flat portion of the drive body with a friction plate sandwiched between the two bosses of the drive body. Since it is engaged with the long hole, the drive body is less likely to move in the rotational direction when the operation shaft is rotated, and the upper surface of the flange portion and the polygonal flat surface portion of the drive body are flexible during the rotation operation. The friction plate is in contact with the same shape of the friction plate, and the friction plate is fitted in the wall portion on the outer periphery of the flat portion so that it does not rotate. The rotary part can be operated without feeling uncomfortable, making it difficult for the person who operates the rattle due to the gap between the engaging part and the polygonal through-hole of the rotating body to operate, and to operate the operating shaft. Tilt up and press the peripheral press switch It has the effect that the composite operation type electronic component can be operated smoothly, respectively can be realized a central push switch to work.
[0023]
According to a second aspect of the present invention, in the first aspect of the present invention, the engaging portions of the two bosses protruding from the upper bottom surface of the box-shaped case and the two long holes of the driving body are in a direction along the center line. There is a large gap on both sides of the boss, and in the direction perpendicular to the center line, there is a slight gap on the base side of the boss and a gradually larger gap toward the tip side. When the driver is restricted from moving in the rotational direction at the slight gap on the boss root side, and the operation shaft is tilted in the direction of the center line connecting the two bosses, the direction of the large gap on both sides of the boss When the boss moves in the long hole and tilts the drive body and tilts in the direction perpendicular to the center line connecting the two bosses, the tip side where the gap gradually increases with the base side of the boss as a fulcrum The effect of being able to move and tilt the driver Having.
[0024]
According to a third aspect of the present invention, in the first aspect of the present invention, the flange portion is arranged together with the central pressing switch so that the upper surface of the flange portion of the operating shaft sandwiches the friction plate and elastically contacts the flat portion of the driving body. The spring body biased upward is disposed around the operation shaft below the flange portion, and in addition to the action of the invention according to claim 1, the vertical position of the scanning shaft at the neutral position is stabilized. At the same time, the frictional force of the friction plate at the time of rotating the operation shaft is increased, and there is an effect that the rotational torque and the rotation feeling can be made more stable.
[0025]
According to a fourth aspect of the present invention, in the first aspect of the present invention, the rotating component portion and the central pressing switch are integrated and formed in advance as individual electronic components. Since the most complicated portion of each functional component to be constructed can be assembled and inspected in advance, it has the effect of facilitating the assembly of the composite operation type electronic component as a whole.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0027]
In addition, the same code | symbol is attached | subjected to the part of the structure same as the structure demonstrated in the term of the prior art, and detailed description is abbreviate | omitted.
[0028]
(Embodiment 1)
The invention according to the first to third aspects of the present invention will be described using the first embodiment.
[0029]
FIG. 1 is a front sectional view of a composite operation type electronic component according to a first embodiment of the present invention, FIG. 2 is an exploded perspective view, and as shown in FIG. Same as described.
[0030]
That is, 1 is a U-shaped cover made of a metal plate having a circular opening 1A at the center of the upper bottom, and a spherical recess 21 covering the lower surface around the opening 1A on the inner side of the upper bottom is resin between both sides. A box-shaped case is formed by holding a rectangular frame body 2 made of metal and a first contact board 3 arranged so as to close the lower surface thereof.
[0031]
A central hole 4A and four through holes 4B to 4E are provided in the intermediate wall portion of the frame body 2, and the central fixed contact 3A and the corresponding holes 4A to 4E are provided on the first contact board 3 in correspondence with the holes 4A to 4E. Peripheral fixed contacts 3B to 3E (3C and 3E are not shown) are provided at an equal distance of 90 ° from the center, and a rubber sheet 5 is provided between the frame 2 and the first contact board 3. And the second contact substrate 6 are sandwiched, and the rubber sheet 5 has dome-shaped portions 5A and 5B-5E (5C, 5E is provided at a position corresponding to the central fixed contact 3A and the peripheral fixed contacts 3B to 3E to form the central press switch 7A and the peripheral press switches 7B to 7E (7C and 7E are not shown). is doing.
[0032]
The second contact board 6 is fitted into the four through holes corresponding to the dome-shaped parts 5B to 5E, and the rubber sheet 5 is sandwiched between the second contact board 3 and the elastic contact made of an elastic metal thin plate. It has contacts 8A and 8B, and is insert-molded and fixed to the lower surface of the resin-made rotating body 9 rotatably held by the center hole 4A of the intermediate wall portion of the frame body 2 and the center hole 6A of the second contact board 6. The elastic contact points 8A and 8B are elastically contacted with the signal contact plate 10 thus formed to form a rotating part.
[0033]
The second contact board 6, the rubber sheet 5, the first contact board 3 and the rotating body 9, and the pressing switch constituted by these members and the rotating component unit disposed below the frame body 2 are the conventional ones. Since it is exactly the same as in the case of the technology, in FIG. 2, these members are shown in a combined state.
[0034]
Reference numeral 22 denotes a rod-shaped operation shaft, and a lower end thereof is a polygonal sphere 22A having a horizontal section at the center which is a regular hexagon, and can move up and down and tilt in a regular hexagonal through hole 9A at the center of the rotating body 9. Are engaged so as to rotate together, and the upper surface of the dome-shaped portion 5A of the central pressing switch 7A is in contact with the upper surface of the dome-shaped portion 5A to be biased upward. It passes through the central hole 23A and protrudes upward from the opening 1A of the cover 1.
[0035]
Further, the drive body 23 has a spherical protrusion 23B having the same center as the polygonal sphere 22A at the lower end of the operation shaft 22 at the center of the upper surface of the flat plate portion 23C, and this spherical protrusion 23B is an opening of the cover 1. 1A is urged and supported upward by a large-diameter flange portion 22C in the middle of the shaft portion 22B penetrating the central hole 23A so as to be able to rotate and tilt against the spherical concave portion of the spherical concave portion 21 on the lower surface around 1A. Further, four protrusions 24A to 24D (24D not shown) are provided below the flat plate portion 23C of the driving body 23, and the lower ends thereof are dome-shaped portions 5B to 5E of the peripheral pressure switches 7B to 7E, respectively. As in the case of the prior art, the driving body 23 and the operation shaft 22 are kept in a neutral position by abutting on the upper surface of the actuator.
[0036]
However, the flat plate portion 23C outside the spherical protrusion 23B of the driving body 23 has two elongated holes along the center line connecting the two protrusions 24A and 24C opposed to the center, that is, the two peripheral pressing switches 7B and 7D. 25A and 25B are provided, and the two bosses 26A and 26B projecting downward from the flat surface portion of the spherical recess 21 forming the upper bottom surface of the box-type case are engaged with each other, and the middle of the shaft portion 22B of the operation shaft 22 is engaged. A flat plate ring-shaped friction plate 27 is sandwiched between the upper surface of the flange portion 22C and the flat surface portion 23D of the lower surface of the spherical protrusion 23B of the driving body 23.
[0037]
FIG. 3, which is a cross-sectional view taken along the line P-P in FIG. 1, shows a state where the two elongated holes 25 </ b> A, 25 </ b> B and the two bosses 26 </ b> A, 26 </ b> B are engaged and the friction plate 27 is attached.
[0038]
As shown in the figure, the two bosses 26A and 26B are rods having a circular cross section, and are engaged with the substantially central portions in the longitudinal direction of the long holes 25A and 25B, and connect the two peripheral pressing switches 7B and 7D. There is a large margin on both sides in the direction along the center line, and there is a slight gap in the direction perpendicular to the center line.
[0039]
As shown in FIG. 1, the diameters of the two bosses 26A and 26B have a constant size from the portion engaging with the upper ends of the long holes 25A and 25B, and gradually become narrower from here to the tip side. It has become.
[0040]
The flat ring-shaped friction plate 27 is formed of a flexible material such as a rubber plate, a felt, or an elastic resin plate, and the hexagonal outer diameter is a flat portion 23D of the driver 23 as shown in FIG. The shaft portion 22B of the operation shaft 22 passes through the center circular hole while being fitted into the surrounding hexagonal wall portion.
[0041]
The composite operation type electronic component according to the present embodiment is configured as described above. Next, the operation thereof will be described.
[0042]
First, in the neutral position shown in FIG. 1, when the shaft portion 22B of the operation shaft 22 is horizontally rotated, the rotating body 9 engaged so as to rotate together with the polygonal sphere 22A at the lower end is rotated, and the lower surface thereof The elastic contacts 8A and 8B slide elastically on the signal contact plate 10 to generate an electrical signal as a rotating part.
[0043]
At this time, since the operating shaft 22 is urged upward by the dome-shaped portion 5A of the central pressing switch 7A, the upper surface of the large-diameter flange portion 22C is connected to the flat portion 23D of the driver 23 via the friction plate 27. The friction plate 27 does not rotate because the outer diameter of the friction plate 27 is fitted in the wall portion around the flat portion 23D, and is stable by sliding between the upper surface of the flange portion 22C and the friction plate 27. It rotates smoothly with the generated torque.
[0044]
This makes it difficult for the operating person to feel the backlash due to the gap between the engaging portions of the polygonal sphere 22A of the operating shaft 22 and the through hole 9A of the rotating body 9.
[0045]
Further, the driving body 23 also tries to rotate by the frictional force between the upper surface of the flange portion 22C of the operation shaft 22 and the friction plate 27, but the two projecting from the spherical recess body 21 into the two long holes 25A and 25B of the flat plate portion 23C. Since the two bosses 26A and 26B are engaged with each other with a slight gap, the driving body 23 does not move in the rotational direction.
[0046]
Therefore, the rotating component part can be operated without feeling uncomfortable in the hand of the person who operates the composite operation type electronic component.
[0047]
Next, when a lateral pressing force is applied to the shaft portion 22B of the operating shaft 22 and the tilting operation is performed in the direction indicated by the arrow X in FIG. 4, the operating shaft 22 rotates clockwise about the polygonal sphere 22A at the lower end. Accordingly, the driving body 23 engaged in the middle of the shaft portion 22B rotates and tilts in the Z direction, so that the lower protrusion 24A moves the dome-shaped portion 5B of the peripheral pressing switch 7B downward. The movable contact 5G comes into contact with the peripheral fixed contact 3B to turn on the peripheral pressing switch 7B.
[0048]
Thereafter, when the pressing force applied to the shaft portion 22B is removed, the dome-shaped portion 5B is restored to its original shape by its elastic restoring force, and the protrusion 24A is pushed back, so that the driving body 23 and the operating shaft 22 are restored. 1 Return to the neutral position.
[0049]
At this time, the two bosses 26A and 26B engaged with the long holes 25A and 25B of the flat plate portion 23C of the driving body 23 are positioned in the direction where there is a large margin in the long holes 25A and 25B. 26A guides the boss 26B to the tip side, and the protrusion 24A of the driving body 23 guides the upper surface of the dome-shaped portion 5B of the peripheral pressing switch 7B to be accurately pushed while moving to the base side.
[0050]
When the tilting operation is performed by applying a pressing force to the shaft portion 22B in a lateral direction perpendicular to the X direction, the long holes 25A and 25B and the bosses 26A and 26B are engaged in the neutral position shown in FIG. In this state, as shown in the side partial sectional view of FIG. 5, the driving body 23, that is, the long holes 25A and 25B is inclined to turn on the peripheral pressing switch 7C or 7E (not shown).
[0051]
In this case, since the tip ends of the two bosses 26A and 26B are narrowed, the long holes 25A and 25B of the drive body 23 can be inclined without difficulty, and the protrusion 24B of the drive body 23 can be tilted in this direction. Alternatively, 24D can accurately press the upper surface of the dome-shaped portion 5C or 5E of the peripheral pressing switch 7C or 7E.
[0052]
Further, when a downward pressing force is applied to the shaft portion 22B of the operating shaft 22 and a downward pressing operation is performed as indicated by an arrow V in FIG. 6, the lower surface of the polygonal sphere 22A at the lower end of the operating shaft 22 is moved to the center pressing switch 7A. When the dome-shaped portion 5A is pushed downward and elastically deformed, the movable contact 5F comes into contact with the central fixed contact 3A to turn on the central pressing switch 7A, and when the pressing force applied to the shaft portion 22B is removed, the dome-shaped portion 5A becomes While returning to the original shape by the elastic restoring force, the operating shaft 22 is pushed back upward to return to the original neutral position in FIG.
[0053]
During the pressing operation of the operating shaft 22, the driving body 23 has the lower four protrusions 24A to 24D in contact with and supported by the upper surfaces of the dome-shaped portions 5B to 5E of the peripheral pressing switches 7B to 7E, and moves downward. Absent.
[0054]
FIG. 7 is a front sectional view showing another configuration of the composite operation type electronic component described above.
[0055]
That is, in contrast to what is shown in the front sectional view of FIG. 1, this is a coil spring 29 as a spring body that biases the flange portion 28A upward around the shaft portion 28B below the flange portion 28A of the operation shaft 28. Is arranged.
[0056]
This coil spring 29 is inserted between the lower surface of the flange portion 28A and the intermediate wall 30A of the frame body 30 so that the upper surface of the flange portion 28A sandwiches the friction plate 27 and elastically contacts the flat portion 31A of the drive body 31. With such a configuration, the vertical position of the operation shaft 28, that is, the shaft portion 28B, in the neutral position is more stable than that shown in FIG. The frictional force of the friction plate 27 at the time increases, and the rotational torque and the rotational feel can be made more stable.
[0057]
As described above, according to the present embodiment, since the bosses 26A and 26B protruding from the upper bottom surface of the box-type case are engaged with the two long holes 25A and 25B of the drive body 23, the operation shaft 22 is rotated. During the operation, the drive body 23 rarely moves in the rotation direction. During this rotation operation, the upper surface of the flange portion 22C and the drive body 23 Polygonal The flat portion 23D has flexibility. Same shape Bullet contact through the friction plate 27, And since the friction plate 27 is fitted so as not to rotate on the outer peripheral wall portion of the flat portion 23D, Smooth rotation with stable rotational torque Shi The ratchet due to the gap between the engaging part of the polygonal sphere 22A of the operating shaft 22 and the polygonal through hole 9A of the rotating body 9 becomes difficult to feel to the hand of the manipulating person, and the rotating part part without feeling uncomfortable Further, it is possible to realize a composite operation type electronic component that can smoothly operate the peripheral pressing switches 7B to 7E by tilting the operating shaft 22 and smoothly operating the central pressing switch 7A by pressing the operating shaft 22. Is.
[0058]
(Embodiment 2)
A second embodiment of the present invention, particularly the invention described in claim 4, will be described.
[0059]
In addition, the same code | symbol is attached | subjected to the part of the same structure as Embodiment 1, and detailed description is abbreviate | omitted.
[0060]
FIG. 8 is a front sectional view of a composite operation type electronic component according to the second embodiment of the present invention. As shown in FIG. 8, the composite operation type electronic component according to this embodiment is the same as that of the first embodiment. The difference is that what is formed in advance as individual electronic components is used as each functional component portion.
[0061]
That is, in Embodiment 1, the shaft 22B, that is, the rotating part directly operated by the operation shaft 22 and the central pressing switch are shown in FIG. 9 disclosed in Japanese Patent Laid-Open No. 2000-48681 proposed by the present applicant. As shown in the cross-sectional view, the operation shaft 32 having the flange portion 32B in the middle is moved up and down a polygonal sphere 32A having a regular hexagonal cross section into a hexagonal through hole 33A in the center of the rotating body 33 holding the signal contact plate. Individual rotation with a push switch, which can be tilted but is inserted so as to rotate together, with its lower end abutting against the upper surface of the drive plate 35 of the pressure switch 34 disposed below the rotating body 33. The mold electronic component 36 is formed in advance and a performance inspection is also performed.
[0062]
Then, as shown in FIG. 8, the individual rotary electronic components 36 are arranged at predetermined positions on the printed wiring board 38 together with the four individual pressing switches 37, and the peripheral lower surface becomes a spherical concave portion at the upper part thereof. It is covered with a case 39 having a circular opening 39A and two bosses 39B projecting downward, and a drive body 40 and a friction plate 27 similar to those in the first embodiment are disposed inside.
[0063]
The composite operation type electronic component according to the present embodiment formed in this way is assembled and inspected in advance by combining the rotating component portion, which is the most complex among the functional component portions, which are constituent elements, with the central push switch. Therefore, it is possible to easily assemble the composite operation type electronic component as a whole and to perform the same operation as that according to the first embodiment.
[0064]
In the above description of the first and second embodiments, the cross-sectional shape of the polygonal sphere 22A of the operation shaft 22 or the polygonal sphere 32A of the operation shaft 32 and the through-hole 9A or rotation of the rotating body 9 with which these engage. Although the through holes 33A of the body 33 are all regular hexagons, they may be regular octagons or the like.
[0065]
【The invention's effect】
As described above, according to the present invention, the boss protruding from the upper bottom surface of the box-type case is engaged with the two long holes of the drive body, and the drive body can move in the rotation direction when the operation shaft is rotated. And when rotating, the upper surface of the flange and the drive body Polygonal The flat part has flexibility Same shape Bullet contact through the friction plate, And since the friction plate is inserted into the wall portion on the outer periphery of the flat portion so as not to rotate, Smooth rotation with stable rotational torque Shi The backlash caused by the gap between the engagement part between the polygonal sphere of the operating shaft and the through hole of the rotating body is less likely to be felt by the hand of the operator, and the rotating part is operated without feeling uncomfortable, and the operating shaft An advantageous effect is obtained in that a composite operation type electronic component can be realized in which the peripheral press switch is smoothly operated by tilting and the central press switch is smoothly operated by pressing.
[Brief description of the drawings]
FIG. 1 is a front sectional view of a composite operation type electronic component according to a first embodiment of the present invention.
FIG. 2 is an exploded perspective view of the same.
3 is a cross-sectional view taken along line P-P in FIG.
FIG. 4 is a front sectional view of the tilting operation.
5 is a partial cross-sectional side view of the boss center line when tilting in a direction perpendicular to the case of FIG. 4;
FIG. 6 is a front sectional view at the time of the pressing operation.
FIG. 7 is a front sectional view of a composite operation type electronic component having the other configuration.
FIG. 8 is a front sectional view of a composite operation type electronic component according to a second embodiment of the present invention.
FIG. 9 is a front sectional view of the individual rotary electronic component.
FIG. 10 is a front sectional view of a conventional composite operation type electronic component.
FIG. 11 is an exploded perspective view of the same.
FIG. 12 is a front sectional view of the tilting operation.
FIG. 13 is a front sectional view of the same pressing operation.
[Explanation of symbols]
1 Cover
1A opening
2,30 frame
3 First contact board
3A Center fixed contact
3B-3E Peripheral fixed contact
4A, 6A, 23A Center hole
4B-4E, 9A, 33A Through hole
5 Rubber sheet
5A-5E Dome-shaped part
5F-5J movable contact
6 Second contact board
7A Center push switch
7B-7E Peripheral pressing switch
8A, 8B elastic contact
9,33 Rotating body
10 Signal contact plate
21 Spherical recess
22, 28, 32 Operation axis
22A, 32A polygonal sphere
22B, 28B Shaft
22C, 28A, 32B Flange
23, 31, 40 Driver
23B Spherical protrusion
23C flat plate
23D, 31A Plane section
24A-24D Protrusion
25A, 25B long hole
26A, 26B, 39B Boss
27 Friction plate
29 Coil spring
30A Intermediate wall
34 Press switch
35 Drive plate
36 Rotating electronic components
37 Individual push switch
38 Printed circuit board
39 cases
39A Circular opening

Claims (4)

A circular opening having a spherical recess on the lower surface is provided at the center of the upper bottom surface, and a rotating component portion and a central pressing switch are provided at the center of the lower bottom surface. A box shape having a peripheral press switch and two bosses projecting downward from the upper bottom surface along either one of the center lines connecting the two peripheral press switches facing each other outside the spherical recess A spherical protrusion at the center of the upper surface having a circular through-hole at the center is in contact with and engages with a spherical recess on the lower surface around the circular opening of the box-type case so as to be rotatable and tiltable. On the outer side, the two bosses have two long holes to be engaged with each other, and further have four protrusions on the lower surface of the outer periphery, which respectively contact the pressing parts of the four peripheral pressing switches, and the spherical protrusions. The above circular penetration on the bottom The periphery of the hole can be tilted and moved up and down in the polygonal through-hole of the rotating part of the rotating part part and the driving body which is a polygonal flat part whose outer periphery is a wall part. The lower surface has a polygonal sphere with a horizontal cross section that is in contact with the pressing portion of the central pressing switch at the lower end, and the circular shaft portion extending upward from the sphere has the driving shaft. The upper surface of the flange portion provided in the middle of the shaft portion is projected upward by engaging with the circular through hole of the shaft, and the outer shape of the upper surface of the flange portion provided by the central pressing switch is increased. It comprises an operating shaft that is elastically in contact with the flat surface portion of the drive body with a flexible friction plate having the same shape as the flat surface portion of the drive body interposed therebetween, so that the friction plate does not rotate into the wall portion. Composite operation type electronic component characterized by being embedded .   There are large gaps on both sides of the boss in the direction along the center line between the two bosses protruding from the top bottom surface of the box-type case and the two long holes of the drive body, and in the direction perpendicular to the center line 2. The composite operation type electronic component according to claim 1, wherein a small gap is formed on the base side of the boss, and the gap is gradually increased toward the tip side of the boss.   A spring body that urges the flange portion upward together with a central pressing switch so that the upper surface of the flange portion of the operation shaft sandwiches the friction plate and elastically contacts the flat portion of the drive body. The composite operation type electronic component according to claim 1, which is disposed around.   The composite operation type electronic component according to claim 1, wherein the rotary component portion and the central pressing switch are integrated and formed in advance as individual electronic components.

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