JP3791562B2 - Operating device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operation device, and more particularly to an operation device in which an operation knob is rotated with a finger.
[0002]
[Prior art]
For example, as a tuning display device for a radio receiver, a display device in which a tuning frequency is directly digitally displayed as a number is used instead of a display device using a dial pointer. When tuning is performed by a tuning device including such a display device, the tuning frequency increases slowly when the addition switch is pressed. On the other hand, when the subtraction switch is pressed, the tuning frequency is slowly reduced.
[0003]
When the tuning frequency is significantly changed, it takes time according to such a normal operation. Therefore, a fast-forward addition switch and a fast-forward subtraction switch are added so that when the fast-forward addition switch is pressed, the tuning frequency is increased quickly, and when the fast-forward subtraction switch is pressed, the tuning frequency is quickly reduced. A tuning device is used.
[0004]
According to such a tuning device, four operation buttons for performing four operations and four electrical switches corresponding to these operation buttons are required. In addition, the above four switches are connected to the four ports of the microcomputer of the tuning device, respectively, which occupies the four ports of the microcomputer.
[0005]
[Problems to be solved by the invention]
Therefore, in order to reduce the number of such switches, in addition to the addition switch and the subtraction switch, a high-speed feed switch is provided, and when only the addition switch is pressed, the tuning frequency is slowly increased. When only the subtraction switch is pressed, the tuning frequency is slowly reduced. On the other hand, when the addition switch and fast-forward switch are pressed, the tuning frequency is added at high speed. When the subtraction switch and fast-forward switch are pressed, the tuning frequency is subtracted at high speed. I try to do it.
[0006]
The disadvantage of the operation device in such a tuned display device is that when the tuned frequency is increased or decreased by fast-forwarding, it is necessary to keep pressing both buttons at the same time. .
[0007]
The present invention has been made in view of such problems, and can perform a slow speed addition operation, a subtraction operation, a high speed addition operation, and a subtraction operation by only one-hand operation. In addition, an object of the present invention is to provide an operating device that can achieve such an operation with three switches.
[0008]
[Means for Solving the Problems]
The present invention comprises an operation knob adapted to be rotated with a finger;
A first lever that is rotated in the forward or reverse direction according to the direction of rotation when the operation knob is rotated;
A second lever that rotates in one direction when the operation knob is rotated more than a predetermined angle in the forward or reverse direction;
An addition switch that is pressed when the first lever is rotated in the forward direction;
A subtraction switch that is pressed when the first lever is rotated in the opposite direction;
A mode switch that is pressed when the second lever is rotated;
The first lever has a fulcrum pin and an engaged portion on opposite sides with respect to the rotation center of the operation knob, and the engaged portion engages with the engagement portion of the operation knob. And having a pair of pressing portions so as to protrude to the opposite side portions with respect to the fulcrum pin, the pair of pressing portions pressing the addition switch and the subtraction switch, respectively. It is related with the operating device to perform.
[0010]
The pressed portion of the second lever is pressed by the pressing portion of the operation knob when the operation knob is rotated by a predetermined angle in the forward direction or the reverse direction. The lever may be rotated to press the mode switch.
[0011]
The operation knob may be biased to a neutral position with respect to rotation in the forward direction and the reverse direction by a return spring wound around the bearing of the operation knob.
[0012]
When the addition switch is pressed, the tuning frequency is increased, when the subtraction switch is pressed, the tuning frequency is decreased, and when the mode switch is pressed, the increase or decrease operation is performed quickly.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2 show a radio receiver including an operation device according to an embodiment of the present invention. This radio receiver has a housing composed of a front cabinet 11 and a rear cabinet 12, which are joined together to form a flat rectangular housing. A sound hole 13 made up of numerous small holes is formed on the front side of the front cabinet 11 and on the left side thereof. Further, a display portion 14 is formed horizontally on the right side of the region where the sound hole 13 is provided, and the tuning frequency is displayed by the display portion 14. In addition, push buttons 15, 16, and 17 are arranged below the display unit 14. The particularly small push button 17 is composed of a clock button.
[0014]
A tuning device for performing tuning display by the display unit 14 includes an operation knob 20. As shown in FIG. 3, the tuning device having the operation knob 20 includes a first lever 21, a second lever 22, an addition switch 23, a subtraction switch 24, and a mode switch 25. The addition switch 23, the subtraction switch 24, and the mode switch 25 are mounted on the circuit board 26 (see FIGS. 7 and 8).
[0015]
A cylindrical bearing 30 as shown in FIG. 3 is connected to the side wall 29 of the cabinet 11 which is a molded body such as ABS resin or AS resin. A laterally long opening 31 is formed in the side wall 29 on the base side of the cylindrical bearing 30.
[0016]
On the other hand, the operation knob 20 rotatably supported by the cylindrical bearing 30 on the side wall 29 is formed of synthetic resin, and a shaft portion 34 formed of a cylindrical body is formed at the center thereof. As shown in FIGS. 5 and 6, the portion 34 is inserted into the cylindrical bearing 30 of the side wall 29 and is rotatably supported. Further, a locking claw 35 is integrally connected to the shaft portion 34 of the operation knob 20, and such a locking claw 35 is engaged with an edge portion of the cylindrical bearing 30.
[0017]
As shown in FIGS. 3 and 5, the operation knob 20 is provided with an engaging portion 36 composed of a protruding portion, and the protruding portion 36 rotates the first lever 21. Further, a pressing portion 37 composed of another pin-shaped protrusion is formed on the lower end side of the operation knob 20, and the second lever 22 is rotated by such a pressing portion 37.
[0018]
A return spring 40 is attached to the outer periphery of the cylindrical bearing 30 on the side wall 29 as shown in FIGS. The return spring 40 is wound around the outer periphery of the cylindrical bearing 30 a plurality of times, and is composed of locking pieces 41 and 42 whose ends are bent in an L shape. As shown in FIG. 4, one locking piece 41 is locked to a locking rib 43 on the knob 20 side and a locking rib 44 on the cabinet 11 side. On the other hand, the locking piece 42 on the opposite side is locked to the locking rib 45 on the knob 20 side and the locking rib 46 on the cabinet 11 side.
[0019]
Next, the first lever 21 will be described. The first lever 21 is made of a synthetic resin having elasticity, for example, polyoxymethylene, and includes a fulcrum pin 50. The fulcrum pin 50 is a pair formed on the cabinet 11. Is held by a presser 51 (see FIG. 6), and is supported rotatably with respect to the cabinet 11. Further, an oval engaged portion 52 is continuously provided on the upper end side of the first lever 21, and the engaging portion 36 of the operation knob 20 is received in the engaged portion 52. Yes. The first lever 21 includes U-shaped bent portions 53 and 54 on both sides of the fulcrum pin 50, and press portions 55 and 56 are connected to the distal ends of the bent portions 53 and 54, respectively. . These pressing portions 55 and 56 press the addition switch 23 and the subtraction switch 24, respectively.
[0020]
Next, the second lever 22 will be described. The second lever 22 is, for example, a synthetic resin molded body such as AS resin or ABS resin, and is connected to the pair of push buttons 61 and 62 via the connecting portion 60. The connection portion 60 is attached to the inside of the cabinet 11. The second lever 22 is formed with a pressed portion 63 bent in a U-shape as shown in FIG. When the operation knob 20 is greatly rotated in the forward direction or the reverse direction, the pressed portion 63 is pressed by the pressing portion 37 including the pin-shaped protrusion and deformed thereby. And the tip part 64 presses the mode switch 25 by the deformation | transformation of the 2nd lever 22 like this.
[0021]
As described above, in the operating device according to the present embodiment, the locking claw 35 of the shaft portion 34 formed of the cylindrical body of the operating knob 20 is arranged at the edge portion of the cylindrical bearing 30 on the side wall 29 of the cabinet 11 as shown in FIG. Accordingly, the operation knob 20 is rotatably supported around the axis of the cylindrical bearing 30.
[0022]
Further, the first lever 21 is configured to hold the fulcrum pin 50 by a presser 51 provided integrally with the cabinet 11 as shown in FIGS. 6 and 7, whereby the first lever 21 is centered on the axis of the fulcrum pin 50. The lever 21 is rotatably supported.
[0023]
On the other hand, the second lever 22 is fixed with the connecting portion 60 sandwiched between the front cabinet 11 and the circuit board 26. On the circuit board 26, an addition switch 23, a subtraction switch 24, and a mode switch 25 are mounted. As shown in FIG. 4, the operation knob 20 is urged so as to be returned to the neutral position by a return spring 40 wound around the cylindrical bearing 30.
[0024]
Next, the operation of such an operating device will be described. First, when the frequency is lowered, as shown in FIG. 7, the operation knob 20 is rotated leftward about the axis of the cylindrical bearing 30, that is, counterclockwise. Then, the engaging portion 36 connected to the operation knob 20 moves to the left and presses the engaged portion 52 of the first lever 21 to the left, thereby causing the first lever 21 to move to the fulcrum pin. Rotate counterclockwise about 50. Then, the pressing portion 56 connected to the right side of the fulcrum pin 50 of the first lever 21 via the U-shaped bent portion 54 presses the right subtracting switch 24, thereby synchronizing the display portion 14. The frequency will decrease.
[0025]
When the operation knob 20 is further rotated counterclockwise, the pressing portion 37 formed of a pin-shaped protrusion connected to the operation knob 20 is rotated counterclockwise as shown in FIG. The right portion of the pressed portion 63 of the lever 22 is pushed up. For this reason, the second lever 22 is deformed around the connecting portion 60, and the tip end portion 64 presses the mode switch 25.
[0026]
At this time, the operation knob 20 is in a state where the subtraction switch 24 is pressed through the pressing portion 56 of the first lever 21. That is, both the subtraction switch 24 and the mode switch 25 are pressed simultaneously. Accordingly, the subtraction operation is performed at a high speed, and the speed at which the tuning frequency of the display unit 14 is lowered is increased.
[0027]
On the other hand, when it is desired to increase the frequency of the display unit 14, the operation knob 20 shown in FIG. 7 is rotated clockwise. Then, the engaging portion 36 formed of the protruding portion of the operation knob 20 presses the engaged portion 52 of the first lever 21 to the right side, thereby rotating the first lever 21 clockwise about the fulcrum pin 50. Let Therefore, the pressing portion 55 of the first lever 21 presses the left addition switch 23, and thereby the tuning frequency displayed by the display portion 14 is added.
[0028]
When the operation knob 20 is further rotated to the right, the pressing portion 37 provided on the operation knob 20 is rotated in the direction opposite to the direction shown in FIG. The left portion of the pressed portion 63 is pressed, and the lever 22 is rotated counterclockwise about the connecting portion 60. Therefore, also in this case, the distal end portion 64 of the second lever 22 pushes the mode switch 25. That is, in this case, the addition switch 23 and the mode switch 25 are pressed, and the tuning frequency of the display unit 14 is increased at a high speed.
[0029]
In the first lever 21 provided with pressing portions 55 and 56 for selectively pressing the addition switch 23 and the subtraction switch 24 on both sides, a U-shaped bent portion 53 and a root portion of the pressing portions 55 and 56, respectively. 54 is formed, and the U-shaped bent portions 53 and 54 are deformed at the time of the first operation, and an overload to the addition switch 23 or the subtraction switch 24 is prevented. Accordingly, the switches 23 and 24 are prevented from being damaged by being strongly pressed.
[0030]
A return spring 40 as shown in FIG. 4 is wound around the outer peripheral side of the cylindrical bearing 30 that rotatably supports the shaft portion 34 of the operation knob 20. The L-shaped locking pieces 41 and 42 on both sides of the return spring 40 are locked to locking ribs 43 and 44 and 45 and 46, respectively.
[0031]
If the operation knob 20 is rotated clockwise in FIG. 4, the locking ribs 43 and 45 integrated with the knob 20 are moved in the clockwise direction. As a result, the second locking piece 42 of the spring 40 is moved clockwise. On the other hand, since the movement of the first locking piece 41 is restricted by the rib 44 on the cabinet 11 side, the return spring 40 is swung so that the distance between the pair of locking pieces 41 and 42 is shortened. And elastically deformed. Therefore, when the hand is released from the operation knob 20, the knob 20 rotates in the direction opposite to the clockwise direction indicated by the arrow, that is, the counterclockwise direction to return to the original state.
[0032]
When the operation knob 20 is rotated in the direction opposite to the arrow in FIG. 4, that is, counterclockwise, the locking ribs 43 and 45 are moved in the same direction. The first locking piece 41 is moved in the clockwise direction by the movement of the locking rib 43. On the other hand, since the second locking piece 42 remains in its position by the rib 46 on the cabinet side, in this case as well, the return spring 40 is deformed in a squeezing direction. Then, due to such elastic restoring force of the spring 40, when the hand is released from the knob 20, it is rotated back in the clockwise direction and returned to the neutral position.
[0033]
As described above, the operating device according to the present embodiment includes a mode in which the tuning frequency is slowly increased, a mode in which the tuning frequency is slowly decreased, and a mode in which the tuning frequency is increased quickly by an operation with a finger of only the knob 20. The four modes of reducing the tuning frequency quickly are achieved. In addition, as is apparent from FIGS. 3 and 6, the switch incorporated inside is constituted by three switches 23, 24 and 25.
[0034]
Thus, by performing the four modes with the three switches 23, 24, and 25, it is possible to reduce the cost of the tuning device and to effectively use the switch port of the microcomputer incorporated in the tuning device. It becomes possible to plan. Moreover, it is not necessary to perform double pressing, and operability is improved. In addition, since the first mode is achieved only by increasing the rotation angle of the operation knob 20, the effect is great when switching is frequently used.
[0035]
The operation device according to the present embodiment is applied not only to the tuning frequency displayed by the display unit 14 but also to the time display up and down operations. In this operation, the power switch of the radio receiver is turned OFF, and the operation knob 20 is operated in the same manner as the operation of the tuning frequency with the clock button 17 provided on the front cabinet 11 being operated. To be achieved.
[0036]
Therefore, when the power switch is turned off and the operation button 20 is rotated leftward with the clock button 17 being operated, the time display is subtracted, and when the operation knob 20 is rotated greatly, the speed is increased. When the operation knob 20 is rotated to the right, the time display is slowly increased. When the rotation is further increased, the time display is added at a high speed.
[0037]
【The invention's effect】
As described above, the present invention provides an operation knob that is configured to be rotated with a finger, a first lever that is rotated in the forward or reverse direction according to the rotation direction when the operation knob is rotated, A second lever that rotates in one direction when the operation knob is rotated in the forward or reverse direction by a predetermined angle or more, an addition switch that is pressed when the first lever is rotated in the forward direction, and a first switch A subtracting switch that is pressed when the lever is rotated in the opposite direction; and a mode switch that is pressed when the second lever is rotated . The first lever is mutually connected with respect to the rotation center of the operation knob. A pair of presses having a fulcrum pin and an engaged part on the opposite side, the engaged part being engaged with the engaging part of the operation knob, and projecting to the opposite side with respect to the fulcrum pin And the pair of pressing parts is an addition switch and a subtraction switch. Preparative is obtained so as to press respectively.
[0038]
Therefore, when the operation knob is rotated in the forward or reverse direction, the addition switch or the subtraction switch is pressed by the first lever, and when the operation knob is rotated more than a predetermined angle, the mode switch is pressed via the second lever. Thus, the mode of addition or subtraction operation is changed.
[0039]
Moreover, the first lever has a fulcrum pin and an engaged portion on opposite sides with respect to the rotation center of the operation knob, and the engaged portion is engaged with the engagement portion of the operation knob, and further, a pair of pressing portions so as to protrude opposite side each other Te, to the pair of the pressing portion is a subtraction switch and an addition switch to press respectively, according to the rotational direction of the operation knob Thus, the addition switch and the subtraction switch can be selectively pressed via the first lever.
[0040]
The pressed portion of the second lever is pressed by the pressing portion of the operation knob when the operation knob is rotated by a predetermined angle or more in the forward direction or the reverse direction, whereby the second lever is rotated. According to the configuration in which the mode switch is pressed by moving, the mode switch is pressed by the second lever when the operation knob is rotated by a predetermined angle or more.
[0041]
According to the configuration in which the operation knob is biased to the neutral position with respect to the rotation in the forward direction and the reverse direction by the return spring wound around the bearing of the operation knob, it is rotated in the forward direction or the reverse direction. The operation knob is returned to the neutral position by the return spring.
[0042]
When the addition switch is pressed, the tuning frequency is increased, when the subtraction switch is pressed, the tuning frequency is decreased, and when the mode switch is pressed, the increase or decrease operation is performed quickly. Only by rotating the operation knob, the slow addition and subtraction of the tuning frequency and the fast-forward addition and subtraction are respectively performed by three switches.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a radio receiver including an operation device according to an embodiment of the present invention.
FIG. 2 is a front view of the same.
FIG. 3 is an exploded perspective view of the main part.
FIG. 4 is a front sectional view for illustrating a return operation of an operation knob by a return spring.
FIG. 5 is a longitudinal sectional view showing an operation knob and a mechanism related to the operation knob.
FIG. 6 is a bottom view of the same.
FIG. 7 is a front view showing a state where the operation knob is omitted.
FIG. 8 is a front view showing the second lever with the operation knob omitted.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Front cabinet, 12 ... Rear cabinet, 13 ... Sound hole (numerous small holes), 14 ... Display, 15, 16 ... Push button, 17 ... Push button (clock button), 20 ... Operation Knob, 21 ... 1st lever, 22 ... 2nd lever, 23 ... Addition switch, 24 ... Subtraction switch, 25 ... Mode switch, 26 ... Circuit board, 29 ... Side wall, 30 ... Cylindrical bearing, 31 ... Horizontally open, 34 ... Shaft (cylinder), 35 ... Locking claw, 36 ... Engaging part (protruding part), 37 ... Pressing part (pin-like protruding part), 40 ... return spring, 41, 42 ... locking piece, 42 ... locking rib (knob side), 43 ... locking rib (cabinet side), 44 ... locking rib (knob side) , 45 ... Locking rib (cabinet side), 50 ... supporting pin, 51 ... presser, 52 ... engaged Parts, 53, 54 ‥‥ U-shaped bent portion, 55, 56 ‥‥ pressing portion, 60 ‥‥ connecting portion, 61, 62 ‥‥ push button, 63 ‥‥ pressed portion, 64 ‥‥ tip

Claims (4)

An operation knob that can be rotated with your finger,
A first lever that is rotated in the forward or reverse direction according to the direction of rotation when the operation knob is rotated;
A second lever that rotates in one direction when the operation knob is rotated more than a predetermined angle in the forward or reverse direction;
An addition switch that is pressed when the first lever is rotated in the forward direction;
A subtraction switch that is pressed when the first lever is rotated in the opposite direction;
A mode switch that is pressed when the second lever is rotated;
The first lever has a fulcrum pin and an engaged portion on opposite sides with respect to the rotation center of the operation knob, and the engaged portion engages with the engagement portion of the operation knob. And having a pair of pressing portions so as to protrude to the opposite side portions with respect to the fulcrum pin, the pair of pressing portions pressing the addition switch and the subtraction switch, respectively. Operating device to do.   The pressed portion of the second lever is pressed by the pressing portion of the operation knob when the operation knob is rotated by a predetermined angle in the forward or reverse direction. The operating device according to claim 1, wherein a lever rotates to press the mode switch.   2. The operating device according to claim 1, wherein the operating knob is biased to a neutral position with respect to rotation in the forward direction and the reverse direction by a return spring wound around a bearing of the operating knob.   The tuning frequency is increased when the addition switch is pressed, the tuning frequency is decreased when the subtraction switch is pressed, and the increase or decrease operation is performed quickly when the mode switch is pressed. The operating device according to claim 1.

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