JP2009262656A - Dial type control operation device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control operation device with a cylindrical operation knob reducing stroke loss and hysteresis of a control cable by backlash between gears as much as possible and improved in operability. <P>SOLUTION: This control operation device is provided with the operation knob 61 for adjusting a temperature provided with the operation knob 62 for adjusting air quantity in a cylindrical shape, a sun gear 65 interlocked with an interlocking gear 64 fixed to the operation knob 61, a planet gear 66 moved by being interlocked with the sun gear 65, a gear case 79 having an inscribed gear 82 for leading the planet gear 66 in a prescribed direction in cooperation with the sun gear 65, and a control cable 84 connected with a connection projecting part 66a of the planet gear 66 to operate an unit for air conditioning. The control operation device is provided with a click mechanism constituted of a small ball 88 provided in the connection projecting part 66a and imparted with energizing force by a spring 87 and a click part 89 provided on a bottom face of a recessed groove 85 provided in a rear base 77. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a dial type control operation device that transmits a driving force according to a turning operation of an operation knob to an external device via a control cable, and controls the operation of the external device.

There are various types of dial-type control operation devices. As an example, an air-conditioning control operation device installed in an automobile will be described.
17 and 18 show a widely known vehicle air-conditioning control operation device, FIG. 17 is a front view of the device, and FIG. 18 is a plan view of the device.

  As shown in the drawing, an operation knob 11 for adjusting the wind direction, an operation knob 12 for adjusting the air volume, and an operation knob 13 for adjusting the temperature are provided on the operation panel 10 as a dial type operation knob so as to be rotatable. Each switch button includes a rear differential switch 14 for energizing the heat wire, an air conditioner switch 15 for switching the air conditioner mode, and an inside / outside air changeover switch 16 for switching between the inside air circulation and the outside air introduction.

  The operation panel 10 is attached to a housing part 17a provided on the front side of the base 17, and further, the base 17 extended horizontally behind the housing part 17a has the operation knobs 11 and 13 described above. Bearing portions 19 and 25 for rotatably supporting the gear shafts 18 and 24 are provided.

That is, the operation knob 11 is mounted on one end side of the gear shaft 18, the bevel gear 18 a is provided on the gear shaft 18, and the other end is supported by the bearing portion 19 provided on the base 17. .
The bevel gear 18 a is engaged with the gear portion 20 a of the gear lever 20 to transmit the rotation of the operation knob 11 to the gear lever 20.

  The gear lever 20 is rotatably supported by a cylindrical support shaft portion 21 formed on the base 17, and the arm portion 20 b of the gear lever 20 is used to control the operation of an air conditioning unit (not shown). A control cable 22 is connected.

Therefore, by rotating the operation knob 11, the gear lever 20 interlocked with the bevel gear 18a is rotated, the inner cable 22a of the control cable 22 is pushed out, and pulled back to adjust the air direction of the air conditioning unit.
The control cable 22 has an outer cable 22b in which an inner cable 22a is slidably mounted. One end of the outer cable 22b is fixed to a clamp member 23 provided on the base 17.

  Similarly to the operation knob 13, the other end side of the gear shaft 24 having the operation knob 13 mounted on one end side thereof is rotatably supported by the bearing portion 25, and the bevel gear provided on the gear shaft 24 is also provided. 24 a meshes with a gear portion 27 a of a gear lever 27 supported by the support shaft portion 26, and a control cable 28 is connected to an arm portion 27 b of the gear lever 27.

Therefore, by rotating the operation knob 13, the inner cable 28a of the control cable 28 is pushed out and pulled back to adjust the temperature of the air conditioning unit.
As with the control cable 22, the control cable 28 includes an inner cable 28 a and an outer cable 28 b, and one end of the outer cable 28 b is fixed to a clamp member 29 disposed on the base 17.

Further, the above-described operation knobs 11, 12, and 13 are provided with a moderation mechanism that temporarily stops the rotation of the knob at a desired rotation operation position.
FIG. 19 is an enlarged partial cross-sectional view taken along the line AA in FIG. 17. As shown in this figure, the enlarged disk portion 18b provided on the gear shaft 18 includes a shaft rotation axis. A long hole 18c which is orthogonal to the hole 18c is provided, and a small ball 31 which receives a projecting output by the spring force of the spring 30 is accommodated in the long hole 18c.

Further, a moderation recess 32 into which the small sphere 31 is dropped is provided in the base portion 17b into which the above-described enlarged disk portion 18b is rotatably fitted, and the moderation degree is determined by the moderation recess 32 and the small sphere 31 described above. The mechanism is configured.
Specifically, the moderation recess 32 is a base around the enlarged disk portion corresponding to each symbol (see FIG. 17) 33a, 33b, 33c, 33d, and 33e that operates the operation knob 11 to adjust the operation position. It is provided in the part 17b.

Therefore, when the operation knob 11 is moved and operated so as to match the desired symbol, the small ball 31 falls into the moderation recess corresponding to the symbol, and a light stopping force (moderation feeling) is applied to the rotation operation of the operation knob 11. .
Then, if the operation knob 11 is rotated with an operation force that exceeds the stopping force, the small ball 31 escapes from the moderation recess and moves toward the next moderation recess.
The operation knobs 12 and 13 are also provided with a similar moderation mechanism.

On the other hand, since the above-described control operation device is operated by picking the convex knob portion protruding to the front side of the operation knob with a fingertip, the operation force is not easily transmitted, and the operability is not necessarily preferable.
For this reason, a control operation device in which an operation knob is formed in a cylindrical shape has been proposed.

FIG. 20 is a cross-sectional view of this type of control operation device.
In this control operation device, an operation knob for adjusting the wind direction, an operation knob for adjusting the air volume, and an operation knob for adjusting the temperature are rotatably provided as a cylindrical operation knob on the operation panel 40, and a rear differential switch, an air conditioner Each switch button of a switch and an inside / outside air changeover switch is provided.
The illustrated cross-sectional view shows the operation knob 41 for adjusting the wind direction and its driving force transmission system.

As shown in the figure, a cylindrical operation knob 41 is rotatably provided on the operation panel 40, and a cylindrical interlocking gear 42 is integrally provided on the outer peripheral surface of the operation knob 41.
Then, the internal gear 42a of the interlocking gear 42 meshes with two connecting gears 44 and 45 provided on the support shafts 43b and 43c protruding from the front portion 43a of the base 43, and further, these connecting gears 44 and 45 are connected to each other. Engaged with the output gear 46.

The output gear 46 is integrally connected to the gear shaft 47, and the bevel gear 47a is driven by the rotation of the output gear 46, and the gear lever 48 similar to the above is rotated.
Specifically, when the operation knob 41 is rotated, the gear lever 48 is pivoted through the interlocking gear 42, the connecting gears 44 and 45, the output gear 46, and the bevel gear 47a, and the inner cable of the control cable is pushed out. The air conditioning unit is pulled back to adjust the air direction.
A display member 50 that is illuminated by the bulb 49 is provided in the operation knob 41.

In this type of control operation device, a long hole perpendicular to the rotation center line of the interlocking gear 42 is provided in the outer peripheral portion of the interlocking gear 42 that rotates integrally with the operation knob 41, and the spring force of the spring is provided in this long hole. The base 43 is provided with a plurality of moderation recesses corresponding to the symbols for moving the operation knob 41, and the base 43 has the same configuration as described above. Has a moderation mechanism.
Similar moderation mechanisms are provided for the other operation knobs.

JP 2003-267034 A Japanese Patent Laid-Open No. 2004-210019

The control operation device equipped with a cylindrical operation knob has a moderation mechanism composed of a small ball provided in the interlocking gear and a moderation recess provided in the base, but the operation knob is easy to operate, The backlash between the gears is caused by backlash that occurs between the interlocking gear 42 and the connecting gears 44, 45, between the connecting gears 44, 45 and the output gear 46, and between the bevel gear 47 a and the gear lever 48. As a result, the stroke loss of the control cable and the hysteresis phenomenon occur, and the predetermined cable stroke may not be obtained.
In addition, when the cylinder diameter of the operation knob is increased, the interval between each moderation part becomes wider, so that the operation knob stops at an intermediate position between the positions determined by the moderation part, and it is difficult to adjust to each position. It was.

  In view of the above circumstances, the present invention provides a dial type control operation device that has a cylindrical operation knob and can reduce the influence of backlash between gears as much as possible, and is excellent in operability. With the goal.

  In order to achieve the above object, in the present invention, as a first invention, an operation knob formed in a cylindrical shape, an interlocking gear including a bevel gear integrally provided on the outer periphery of the operation knob, and the interlocking gear A sun gear that interlocks and transmits the driving force of the operation knob, and a planetary gear that moves in conjunction with the sun gear are provided on a base member that rotatably supports the operation knob, the interlock gear, and the sun gear. The base member includes an internal gear that guides the planetary gear in the movement direction in cooperation with the sun gear, and a control cable that is connected to the planetary gear and operates an external device. Proposed is a dial-type control operating device characterized in that the gear includes a moderation member that presses against a moderation portion provided on the base member.

  According to a second aspect of the present invention, an operation knob formed in a cylindrical shape, an interlocking gear including a bevel gear integrally provided on an outer periphery of the operation knob, a bevel gear and a spur gear interlocked with the interlocking gear are included. The sun gear that transmits the driving force of the operation knob and the planar portion formed on the base member that rotatably supports the operation knob, the interlock gear, and the sun gear are interlocked with the spur gear of the sun gear. And a planetary gear that is moved, and an internal gear that guides the planetary gear in the movement direction in cooperation with the sun gear, and a control that operates the external device by being connected to the planetary gear. And a long concave portion with an open end is formed in the planar portion of the base member, and the planetary gear is movably inserted into the concave portion. The control cable in the concave part A connecting projection for connecting the rods, and forming a moderation portion comprising a plurality of recesses on the bottom surface of the concave portion, and applying a biasing force to the connection projection to press-contact the moderation portion A dial-type control operating device characterized by providing a moderation member is proposed.

  According to a third aspect of the present invention, there are provided an operation knob formed in a cylindrical shape, an interlocking gear formed of a bevel gear integrally provided on the outer periphery of the operation knob, a bevel gear and a spur gear interlocked with the interlocking gear. A base member comprising: a sun gear that transmits the driving force of the operation knob; and a planetary gear that rotatably supports the operation knob, the interlocking gear, and the sun gear and that moves in conjunction with the spur gear of the sun gear. And the base member holds a control cable connected to the planetary gear to operate an external device, the sun gear and the planetary gear, and the planetary gear in cooperation with the sun gear. A gear case having an internal gear that guides in a predetermined direction, a moderation portion provided in the gear case, and a planetary gear provided with a moderation member that presses the moderation portion by applying a biasing force. The propose dial type control operating apparatus according to claim.

  According to a fourth aspect of the present invention, there is provided an operation knob formed in a cylindrical shape, an interlocking gear composed of a bevel gear integrally provided on the outer periphery of the operation knob, a bevel gear and a spur gear interlocked with the interlocking gear. A base member comprising: a sun gear that transmits the driving force of the operation knob; and a planetary gear that rotatably supports the operation knob, the interlocking gear, and the sun gear and that moves in conjunction with the spur gear of the sun gear. And the base member holds a control cable connected to the planetary gear to operate an external device, the sun gear and the planetary gear, and the planetary gear in cooperation with the sun gear. A gear case having an inscribed gear that guides in a predetermined direction, and further, a moderation portion is provided on one of the sun gear and the gear case, and a biasing force is applied to the other of them to press-contact the moderation portion. The Suggest dial type control operating apparatus characterized by comprising a detent member that.

  According to the first aspect of the invention, in addition to the dial type control operation device capable of operating the external device by controlling the control cable by rotating the cylindrical operation knob, the moderation member provided on the planetary gear, Since the moderation mechanism constituted by the moderation portion provided in the base member is provided, the stroke of the control cable is determined by the moving distance of the planetary gear.

Therefore, even if a backlash occurs between the gears, the control cable stroke has almost no influence of the backlash, so that the dial type control operation device can be controlled with high accuracy.
In addition, the planetary gear moves to another moderation with a small movement in response to the rotation between the large moderation portions of the operation knob, so that the operation knob may stop before rotating to the next moderation portion. The operability can be improved.

In the second invention, a moderation mechanism is constituted by a moderation member at the connecting projection of the planetary gear for connecting the control cable and a moderation recess provided at the bottom of the concave portion formed in the base member for pulling out the control cable. As a result, the control operation device is configured such that the stroke of the control cable matches the interval of the moderation portion.
Therefore, in addition to the effects of the first invention, the design according to the specifications of the external device is facilitated.

  In the third invention, since the gear case for holding the sun gear and the planetary gear is provided, and the moderation mechanism is configured by the moderation portion provided in the gear case and the moderation member provided in the planetary gear, the first invention In the same way as the control cable stroke, there is almost no influence of backlash, and the control knob does not stop before the control knob is rotated to the next moderation part. The member does not have to be provided with a moderation portion, which is advantageous for simplifying the base member having a complicated structure in order to concentrate each function.

According to the fourth aspect of the invention, the moderation mechanism of the operation knob is configured by the moderation portion provided on one of the sun gear and the gear case and the moderation member provided on the other of them.
Therefore, since it is affected by the backlash between the sun gear and the planetary gear, the error generated in the stroke of the control cable is somewhat larger than in the first, second, and third inventions, but compared with the conventional device. There will be far less stroke error.

Next, a first embodiment implemented as a vehicle air conditioning control operation device will be described with reference to the drawings.
1 is a front view of a control operation device having a dual operation knob structure, FIG. 2 is a bottom view of the control operation device, FIG. 3 is a cross-sectional view taken along line BB in FIG. 1, and FIG. FIG.

First, the operation knob 61 and its interlocking mechanism will be described.
The operation knob 61 is a temperature adjustment dial knob, and the knob knob operation knob 62 disposed in the cylindrical shape of the operation knob 61 is an air volume adjustment dial knob.
That is, the operation knob 61 is turned, and the index 61a is selectively adjusted to the symbol 63a to adjust the temperature.
Further, the operation knob 62 is rotated by picking the convex portion with a fingertip, and the air volume is adjusted by selectively matching the index 62a with the symbol 63b.

As shown in FIGS. 3 and 4, the operation knob 61 formed in a cylindrical shape is integrally fixed with an interlocking gear 64 made up of a bevel gear on the outer periphery of the rear portion, and the sun gear 65 is interlocked by the interlocking gear 64, and the planetary gear. 66 is configured to pivot.
The operation knob 61 is rotatably fitted on the outer periphery of a base cylinder 67a formed so as to protrude from the front base 67.

That is, the interlocking gear 64 integrated with the operation knob 61 is provided with a stepped portion 64a formed in a ring shape inside, and the stepped portion 64a is an engagement protrusion provided on the base cylindrical portion 67a. The operating knob 61 is prevented from coming off by engaging with 67b.
Note that the engagement protrusions 67b are provided at several locations on the outer periphery of the base cylindrical portion 67a.
In addition, the interlocking gear 64 is provided with locking projections 64b at several locations on the outer peripheral surface of the circular flange, and the locking projections 64b are locked in locking grooves provided on the inner peripheral surface of the operation knob 61, thereby enabling operation. The knob 61 is rotated integrally with the knob 61.

On the other hand, a front plate portion is integrally formed in the base cylindrical portion 67a, and a plurality of transmission holes 70 for illuminating the symbols 63a and 63b are provided along the circumference of the front plate portion.
In addition, a display plate 71 that blocks the transmission hole 70 is fixed to the front plate portion.

This display board 71 has symbols 63a and 63b made translucent and the others are formed as non-light-transmitting portions, and the symbols 63a and 63b are optically displayed by turning on a lamp 73 provided on the wiring board 72. It is supposed to let you.
A light guide member 74 (see FIG. 4) is fitted to the operation knob 61, and the indicator 61a is optically displayed by a light source such as an LED provided on the wiring board 72. The operation knob 62 includes a light guide member 75. The indicator 62a is optically displayed by a light source such as an LED provided on the wiring board 72.

An operation knob 62 is rotatably inserted into the opening provided in the central concave portion of the front plate portion.
An operation shaft 76a of the air volume adjustment switch 76 is fitted on the knob shaft 62b of the operation knob 62.
The wiring board 72 and the air volume adjustment switch 76 described above are disposed in the rear case 77.

  On the other hand, the sun gear 65 interlocked with the interlocking gear 64 provided on the operation knob 61 is formed by integrally forming a bevel gear portion 65a and a spur gear portion 65b having a smaller diameter than the bevel gear portion 65a. It is pivotally supported on a support shaft 78 formed upright on the rear base 77 with 65b as the lower side.

The planetary gear 66 is formed as a spur gear and meshed with the spur gear portion 65b of the sun gear 65 described above.
That is, as shown in FIG. 3, the planetary gear 66 is linked to the sun gear 65 and is configured to revolve around a planar portion 77 a that forms a part of the rear base 77.
Further, as shown in FIG. 3, the planar portion 77 a is disposed at a position eccentric from the rotation center of the operation knob 61 and the operation knob 62.

Therefore, a space can be provided in the central portion behind the control operation device, and an electric switch such as an air volume adjusting switch 76 can be provided in this space.
Further, since the arrangement space of the wiring board 72 can be increased, there are advantages that many electronic components can be mounted on the wiring board 72 and various functions can be processed by the wiring board 72.
The planar portion 77a is provided with a sliding contact projection 77c on which the lower surface of the planetary gear 66 slides to reduce the sliding resistance of the planetary gear 66.

In the present embodiment, a gear case 79 that is screwed to the rear base 77 is provided.
That is, as shown in FIG. 5, the gear case 79 is fixed to the rear base 77 by screws 80 and screwed in the middle is screwed into the support shaft 78, so that the sun gear 65 and the planetary gear 66 fall off. Is preventing.
In addition, the inner surface rib 79 a of the high surface portion of the gear case 79 is in contact with the sun gear 65, and the inner surface rib 79 b of the lower surface portion is in contact with the planetary gear 66.

Further, the gear case 79 is provided with an internal gear 82 that guides the turning movement of the planetary gear 66 in cooperation with the sun gear 65.
That is, as shown in an enlarged view in FIG. 7, the gear case 79 is provided with an inscribed gear 82 formed in an arc shape. Between the inscribed gear 82 and the sun gear 65, the planetary gear 66 is a sun gear. It receives a driving force from 65 and moves while rotating.
FIG. 7 is a rear view of the gear case 79.

The above-described gear case 79 is fitted with screws 80 and 81 after the tongue 83 provided in the periphery is fitted into the positioning groove 77b provided in the rear base 77 to determine the mounting position.
The inscribed gear 82 is not provided in the gear case 79, and the planetary gear 66 can be similarly guided even if it is provided as an arcuate gear in the rear base 77.

On the other hand, the planetary gear 66 is provided with a connecting protrusion 66a, and the inner cable 84a of the control cable 84 is connected to the connecting protrusion 66a.
As shown in FIGS. 3, 5, etc., the connecting protrusion 66 a protrudes downward at an eccentric position away from the rotation center of the planetary gear 66, and the connecting protrusion 66 a is a surface of the rear base 77. It slidably enters a concave groove 85 formed in the shaped portion 77a.

As shown in FIGS. 5 and 6, the concave groove 85 is a linear elongated groove having a length corresponding to the distance to which the connecting protrusion 66 a moves when the operation knob 61 is operated in the entire rotation range. is there.
In other words, the sun gear 65 and the planetary gear 66 are appropriately designed, and the planetary gear 66 moves around the sun gear 65 by providing the connecting projection 66a at the eccentric part of the planetary gear 66 as described above. The connecting protrusion 66a can be moved substantially linearly.

Further, an opening 85a is provided at one end of the concave groove 85, and the inner cable 84a having one end connected to the connecting projection 66a is pulled out from the opening 85a, and the outer cable 84b of the inner cable 84a is shown in FIG. As shown, it is held by a cable holding portion (clamp member) 86 provided on the back side of the rear base 77.
5 is a partial view showing the plane of the interlocking mechanism of the operation knob 61, and FIG. 6 is a plan view of the interlocking mechanism showing the internal configuration with the gear case 79 removed.

On the other hand, in the first embodiment, as shown in FIG. 3, FIG. 4, FIG. 6 and the like, a long hole 66b is provided in the connecting protrusion 66a of the planetary gear 66, and a projecting force is exerted in the long hole 66b by a spring 87. 6 and 8, as shown in FIGS. 6 and 8, the bottom of the concave groove 85 into which the connecting projection 66a is inserted is provided with the small ball 88. A moderation portion 89 composed of a plurality of concave portions (moderation concave portions) to be pressed is formed, and the moderation mechanism for giving moderation to the turning operation of the operation knob 61 is constituted by the small balls 88 and the moderation portion 89.
Accordingly, the interval between the concave portions of the moderation portion 89 corresponds to the interval between the symbols 63 a for rotating the operation knob 61.
8 is a cross-sectional view taken along the line CC in FIG.

In the control operation device of the first embodiment described above, when the operation knob 61 is rotated and its index 61a is set to the desired symbol 63a, the sun gear interlocked with the interlocking gear 64 that rotates integrally with the operation knob 61. 65 rotates around the support shaft 78 as a rotation axis.
Accordingly, the planetary gear 66 meshed with the spur gear portion 65b of the sun gear 65 is driven by the sun gear 65 and guided by the sun gear 65 and the inscribed gear 82 to move while rotating.

As a result, the connecting protrusion 66a moves according to the rotation of the operation knob 61, and the small ball 88 of the moderation portion 89 corresponding to the rotation position of the operation knob 61 (the position of the symbol 63a with the index 61a). Since it falls into the recess, a light rotation stop force (moderation feeling) is applied to the operation knob 61 by the action of the moderation mechanism.
As a result, the inner cable 84a of the control cable 84 is pushed out and pulled back, and the temperature adjustment operation of the air conditioning unit is performed.

Further, the operation knob 62 is rotated by picking up the convex portion and aligns the index 62a with the desired symbol 63b.
By this operation, the air volume adjustment switch 76 is switched, and the fan motor for air volume adjustment is controlled.

The operation knob 61, the operation knob 62, and the interlocking mechanism thereof have been described above. The other operation knob 91 is an operation knob for adjusting the wind direction, and the interlocking mechanism of the operation knob 91 is the above-described operation knob. The configuration is the same as 61 of the interlocking mechanism.
That is, if the operation knob 91 is rotated so that the index 91a of the operation knob 91 is aligned with the symbol 92a, the interlocking gear 93, the sun gear 94, and the planetary gear 95 are interlocked, and the connecting projection 95a of the planetary gear 95 moves. Then, the inner cable 96a of the control cable 96 is pushed out and pulled back.
Thus, the air direction of the air conditioning unit is switched.

Further, the interlocking mechanism of the operation knob 91 is provided with a moderation mechanism similar to the moderation mechanism composed of the small ball 88 and the moderation portion 89 described above, and the operation is performed according to the rotation position of the operation knob 91 in accordance with each symbol 92a. The knob 91 is given a light stopping force (moderation feeling).
The control cable 96 includes an outer cable 96b that allows the inner cable 96a to slide.

Further, in the cylindrical shape of the operation knob 91, push buttons 97, 98, and 99 for a rear differential switch, an air conditioner switch, and an inside / outside air changeover switch are provided.
These push buttons 97, 98, and 99 move the sliders 100a, 100b, and 100c shown in FIG. 4 by the push operation, and operate the push switches 101a, 101b, and 101c provided on the wiring board 72.

In addition, reference numerals 102, 103, and 104 shown in FIG. 4 are light guide members, 105 is a lamp for night illumination, 106 is a display panel for a symbol 92a, and 107 is a gear case.
The front base 67 and the rear base 77 are screwed, and a panel member 108 is screwed to the front surface of the front base 67.

As described above, in the control cable 84, the stroke of the inner cable 84a is determined by the movement position (moderation position) of the connecting projection 66a of the planetary gear 66. It is not affected by backlash between the gear 65 and the planetary gear 66.
Accordingly, since no stroke loss or hysteresis phenomenon occurs in the inner cable 84a, the air conditioning can be controlled with high accuracy.

Even if the operation knob 61 is rotated over a wide range, the rotation range is reduced and transmitted to the planetary gear 66, so that the movement range of the connecting projection 66a is reduced.
As a result, the small ball 88 provided on the connecting projection 66a is reliably moved and switched between the recesses of each moderation portion 89 in accordance with the turning operation of the operation knob 61, so that the operation knob 61 moves to the next moderation portion. There is no problem that stops in between.

FIG. 9 is a cross-sectional view of the vehicle air-conditioning control operating device similar to FIG. 3 shown as the second embodiment.
In the present embodiment, a long hole 66c is formed in the center of the planetary gear 66, and a small ball 88 imparted with a projecting force by a spring 87 is provided in the long hole 66c. As shown in FIG. 4, the present invention is characterized by including a moderation mechanism configured by providing a moderation portion 89 for press-contacting the small sphere 88, and the other configuration is the same as that of the first embodiment.
FIG. 10 is a rear view of the gear case shown in the same manner as FIG.

In the control operation device of the second embodiment, the planetary gear 66 rotates while rotating around the sun gear 65 in accordance with the rotation operation of the operation knob 61, so that the small sphere 88 moves between the concave portions of the moderation portion 89. It moves and acts moderately, giving the operation knob 61 a sense of moderation.
In the present embodiment, the stroke of the inner cable 84a of the control cable 84 becomes the moving distance of the connecting projection 66a according to the turning movement of the planetary gear 66. Therefore, the influence of backlash between the gears is the same as in the first embodiment. Not receive.

FIG. 11 is a cross-sectional view of the vehicle air-conditioning control operation device similar to FIG. 3 showing the third embodiment.
In the present embodiment, a long hole 65c that is vertically long is formed in the sun gear 65, and a small ball 88 that is provided with a projecting force by a spring 87 is provided in the long hole 65c, and the inner surface of the gear case 79 is shown in FIG. As shown, a moderation mechanism comprising a moderation portion 89 that presses the small sphere 88 is provided, and the other configuration is the same as that of the first embodiment.
FIG. 12 is a rear view of the gear case shown in the same manner as FIG.

In the control operation device according to the third embodiment, the sun gear 65 rotates according to the rotation operation of the operation knob 61, and the small sphere 88 moves between the concave portions of the moderation portion 89 to act moderately. Give a sense of moderation.
In the present embodiment, the stroke of the inner cable 84a included in the control cable 84 is affected by the backlash between the sun gear 65 and the planetary gear 66, but the stroke loss due to the effect is not a problem in practice.

FIG. 13 is a cross-sectional view of a vehicle air-conditioning control operating device similar to FIG. 11 showing a modification of the third embodiment.
In this modification, a laterally elongated hole 65d is formed in the sun gear 65, and a small ball 88 provided with a projecting force by a spring 87 is provided in the elongated hole 65d, and the inner surface of the gear case 79 is shown in FIG. As shown, a moderation portion 89 that press-contacts the small sphere 88.
The moderation mechanism is configured to be provided with the other, and the other configuration is the same as that of the third embodiment.
This modification is affected by the backlash between the sun gear 65 and the planetary gear 66, but the stroke loss due to the influence is not a problem in practice.
14 is a rear view of the gear case shown in the same manner as FIG.

FIG. 15 is a cross-sectional view of a vehicle air-conditioning control operating device similar to FIG. 11 showing another modification of the third embodiment.
In this modification, the gear case 79 is provided with a storage portion 79c for storing a spring 87 and a small ball 88, and a small ball 88 imparted with a projecting force by the spring 87 from the storage portion 79c, and a sun gear as shown in FIG. A moderation mechanism comprising a moderation portion 89 that presses a small ball 88 provided on the side surface of 65 is provided, and the other configuration is the same as that of the third embodiment.
Even in this modification, the backlash between the sun gear 65 and the planetary gear 66 is affected, but the stroke loss due to the influence is not a problem in practice.
16 is a rear view of the gear case shown in the same manner as FIG.

  The second and third embodiments and the modifications described above can be similarly provided not only in the interlocking mechanism of the operation knob 61 but also in the interlocking mechanism of the operation knob 91.

  The present invention can be applied to a control operation device that controls the operation of an external device by rotating a dial type operation knob such as an air conditioning control operation device provided in an automobile.

It is a front view of the control operation apparatus for vehicle air conditioning of 1st Embodiment. It is a bottom view of the control operation device. It is the BB sectional view taken on the line in FIG. It is a disassembled perspective view of the said control operation apparatus. It is a partial top view of the said control operation apparatus. It is the partial top view which removed the gear case with which the said control operation apparatus is shown, and showed the internal structure. It is a reverse view of the said gear case. It is the fragmentary sectional view which showed the moderation mechanism with which the said control operation apparatus is provided. It is sectional drawing of the control operation apparatus for vehicle air conditioning similar to FIG. 3 shown as 2nd Embodiment. It is a reverse view of the gear case of 2nd Embodiment. It is sectional drawing of the control operation apparatus for vehicle air conditioning similar to FIG. 3 shown as 3rd Embodiment. It is a reverse view of the gear case of 3rd Embodiment. It is sectional drawing of the control operation apparatus for vehicle air conditioning similar to FIG. 11 shown as a modification of 3rd Embodiment. It is a reverse view of the gear case of the modification of 3rd Embodiment. It is sectional drawing of the control operation apparatus for vehicle air conditioning similar to FIG. 11 shown as another modification of 3rd Embodiment. It is a reverse view of the gear case of the other modification of 3rd Embodiment. It is a front view of the control operation apparatus shown as a prior art example. It is a top view of the control operation apparatus shown in FIG. It is a fragmentary sectional view of the control operation apparatus shown in FIG. It is sectional drawing of the control operation apparatus which shows another prior art example.

Explanation of symbols

61 Operation knob for temperature adjustment 62 Operation knob for air volume adjustment 64 Interlocking gear 65 Sun gear 66 Planetary gear 66a Interlocking protrusion 66b Long hole 79 Gear case 82 Inscribed gear 84 Control cable 85 Concave groove 87 Spring 88 Small ball 89 Moderation part

Claims (4)

An operation knob formed in a cylindrical shape;
An interlocking gear comprising a bevel gear integrally provided on the outer periphery of the operation knob;
A sun gear that is linked to the interlocking gear and transmits the driving force of the operation knob;
To the base member that rotatably supports the operation knob, the interlocking gear, and the sun gear,
And a planetary gear that moves in conjunction with the sun gear,
The base member includes an internal gear that guides the planetary gear in the movement direction in cooperation with the sun gear, and a control cable that is connected to the planetary gear and operates an external device.
Further, the planetary gear includes a moderation member that presses against a moderation portion provided on the base member. An operation knob formed in a cylindrical shape;
An interlocking gear comprising a bevel gear integrally provided on the outer periphery of the operation knob;
A sun gear that consists of a bevel gear and a spur gear that are linked to the linkage gear, and that transmits the driving force of the operation knob;
A planetary gear that moves in conjunction with a spur gear of the sun gear on a planar portion formed on a base member that rotatably supports the operation knob, the interlocking gear, and the sun gear;
The base member includes an internal gear that guides the planetary gear in the movement direction in cooperation with the sun gear, and a control cable that is connected to the planetary gear and operates an external device.
The planar portion of the base member is formed with an elongated concave portion having an open end, and the planetary gear is movably inserted into the concave portion, and within the concave portion, the Provide a connecting projection to connect the control cable,
In addition, a moderation portion comprising a plurality of recesses is formed on the bottom surface of the concave portion, and a moderation member is provided on the connection projection to apply a biasing force to the moderation portion. Dial-type control operation device. An operation knob formed in a cylindrical shape;
An interlocking gear comprising a bevel gear integrally provided on the outer periphery of the operation knob;
A sun gear that consists of a bevel gear and a spur gear that are linked to the linkage gear, and that transmits the driving force of the operation knob;
The operation knob, the interlocking gear, and the sun gear are rotatably supported, and a planetary gear that moves in conjunction with the sun gear spur gear is provided.
The base member holds a control cable that is connected to the planetary gear to operate an external device, the sun gear and the planetary gear, and cooperates with the sun gear to guide the planetary gear in a predetermined direction. A gear case having an inscribed gear,
Further, the gear case is provided with a moderation portion, and the planetary gear is provided with a moderation member that applies an urging force to press-contact the moderation portion. An operation knob formed in a cylindrical shape;
An interlocking gear comprising a bevel gear integrally provided on the outer periphery of the operation knob;
A sun gear that consists of a bevel gear and a spur gear that are linked to the linkage gear, and that transmits the driving force of the operation knob;
The operation knob, the interlocking gear, and the sun gear are rotatably supported, and includes a base member that includes a planetary gear that moves in conjunction with the spur gear of the sun gear,
The base member holds a control cable that is connected to the planetary gear to operate an external device, the sun gear and the planetary gear, and cooperates with the sun gear to guide the planetary gear in a predetermined direction. A gear case having an inscribed gear,
Further, one of the sun gear and the gear case is provided with a moderation portion, and the other of them is provided with a moderation member that presses against the moderation portion by applying a biasing force. apparatus.

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