JP2004090830A - Resistor with operation switch - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a resistor with an operation switch which is disposed in a space-saving manner and improves operability and design property. <P>SOLUTION: The resistor with the operation switch comprises a resistor part having a cylindrical base body and a fin member to constitute a flow passage for air-conditioning air and an outlet opening, a turnable bezel part which is concentrically disposed on the outer circumferential side of the cylindrical base body, and has a ring-shaped expression part expressed to the outer circumference of the cylindrical base body while the expression part is turned around the cylindrical base body, and a switch part connected to a separate function device, and switches the switch part by the displacement caused by the turn of the turnable bezel part of a displacement part provided on the turning bezel part. The turnable bezel part and the resistor are apparently integrated with each other, the parting line on an instrument panel can be reduced, the arrangement space on the instrument panel is reduced, and the design property is improved thereby. The resistor is operated and the switch is switched at the positions close to each other, and the operability is excellent. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a register which is disposed in a vehicle cabin and constitutes a flow path of air-conditioning air. The present invention relates to a register with an operation switch provided with an operation switch capable of operating a functional device for adjusting ventilation conditions.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, various registers are arranged in a vehicle interior. This register is normally buried in the instrument panel so that the blow-out opening is exposed in the vehicle interior, and vents the air for air conditioning into the vehicle interior through the blow-out opening. On the other hand, an air conditioner provided in the vehicle is also communicated with the register, and cool air and warm air supplied from the air conditioner are also supplied from the register into the vehicle interior. Conventionally, an operation switch for selecting the air volume and temperature of the air conditioner or opening / closing of the register is conventionally provided separately from the register on the instrument panel.
[0003]
Here, the space inside the vehicle compartment is limited, and the instrument panel also has a limited exposed surface. In recent years, since various devices such as a monitor of a navigation system are provided on the instrument panel, it is difficult to suitably provide the instrument panel with a limited surface. The demand for conversion is increasing. Further, when many devices are separately provided on the instrument panel, a parting line of each device is generated on the instrument panel, and there is a problem that the design in the vehicle interior is spoiled.
[0004]
Further, in some conventional registers, a damper is provided on a cylindrical panel having an air outlet, and the damper adjusts the wind direction in a ventilation state and closes the ventilation port in a shut state (for example, See Patent Document 1.). However, only the wind direction and air volume can be adjusted with such a register, and it is necessary to separately provide an operation switch for adjusting the temperature, selecting the connected register, and the like. In this case, there is a problem that an installation space is required on the instrument panel as described above.
[0005]
In addition, the wind direction adjustment of the register is usually performed by manually operating a wind direction adjusting blade provided on the register.However, when an operation switch is provided separately from the register, a ventilation device, that is, a register or an air conditioner is used. In order to operate, it is necessary to perform two types of operations, that is, an operation using an operation switch and a manual operation of a register, at separate positions, and there is a problem that operability is poor.
[0006]
[Patent Document 1]
JP-B-63-343789
[0007]
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and has as its object to provide a register with an operation switch that can be arranged in a small space and that has improved operability and design.
[0008]
[Means for Solving the Problems]
A register with an operation switch according to the present invention for solving the above-mentioned problems is provided with a cylindrical base constituting an air-conditioning air flow path and a blowout opening, and disposed inside the cylindrical base and rotatable with respect to the cylindrical base. A register portion having a fin member pivotally supported, and a ring-shaped exposed portion disposed on the outer peripheral side of the cylindrical base on the same axis as the cylindrical base, and at least the exposed portion has the ring-shaped exposed portion. A rotating bezel portion that rotates around the cylindrical base, and a switch portion that is electrically or mechanically connected to a separately provided functional device, and a non-exposed portion of the rotating bezel portion. Has a displacement portion that is displaced with the rotation of the rotating bezel portion, and the switch portion is switched and driven by the displacement of the displacement portion.
[0009]
According to the register with the operation switch of the present invention, the switching drive of the switch section can be performed by the rotation of the rotating bezel section, and the rotating bezel section is arranged on the outer periphery of the register. Therefore, the rotating bezel portion and the register are apparently integrally disposed, and the parting line on the instrument panel is reduced. Further, since the rotating bezel portion and the register are apparently integrally arranged, the arrangement space on the instrument panel is smaller than when the operation switch and the register are separately arranged. Further, by disposing the rotating bezel on the outer periphery of the register, the operation of the register and the operation of switching the switch can be performed at close positions, and the operability is improved.
[0010]
In the register with an operation switch according to the present invention, the displacement portion is a rack provided circumferentially on the back side of the rotating bezel portion, and the switch portion is a pinion that meshes directly or indirectly with the rack. It may be configured to have a portion.
[0011]
The displacement portion may be a protrusion protruding from the back side of the rotating bezel portion, and the switch portion may be configured to engage with the protrusion.
[0012]
The rotating bezel portion has a tubular portion projecting to the back side of the exposed portion, the displacement portion is a guide rail spirally provided on the outer periphery of the tubular portion, and the switch portion is engaged with the guide rail. A slide switch having an operating end that reciprocates together may be employed.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
A register with an operation switch according to the present invention includes a register unit, a rotating bezel unit, and a switch unit.
[0014]
The register section has a cylindrical base that constitutes a flow path and a blowing opening for air-conditioning air, and a fin member that is disposed inside the cylindrical base and pivotally supported on the cylindrical base.
[0015]
The cylindrical substrate only needs to have a substantially arc-shaped outer peripheral portion, and for example, an ordinary substantially cylindrical retainer can be used. The fin member is a member for adjusting the wind direction of the air-conditioning air, and is generally composed of a plurality of horizontal wind direction deflectors arranged in a freely swingable manner in a cylindrical base, and is generally manually operated. By adjusting the angle, the blowing direction can be adjusted. Further, such a fin member may be further provided with an air damper. The air damper is a member that is generally manually driven to open and close the air flow path in the cylindrical base body. By further providing an air damper, the air blower and the blower from the register according to individual differences in comfort can be controlled by the individual register. It can be controlled every time. The structures of these fin members and air dampers can be appropriately selected and used from known ones.
[0016]
The rotating bezel portion is disposed on the outer peripheral side of the cylindrical portion of the register portion on the same axis as the cylindrical portion, and has a ring-shaped exposed portion exposed on the outer periphery of the cylindrical substrate, and at least the exposed portion extends around the cylindrical substrate. Rotate.
[0017]
The exposed part of the rotating bezel is a part of the rotating bezel that is exposed in the vehicle interior. The cylindrical base is buried in the instrument panel and a part of the cylindrical base is exposed to the inside of the vehicle as an opening, and the rotating bezel disposed on the outer peripheral side on the same axis as the cylindrical base is also an instrument. It is embedded in the panel, and a part thereof, that is, a ring-shaped exposed portion is exposed on the outer peripheral portion of the cylindrical substrate. Hereinafter, a portion of the rotating bezel other than the exposed portion is referred to as a non-exposed portion.
[0018]
The rotating bezel may be disposed on the outer peripheral side of the entire cylindrical base, or may be disposed only near the exposed portion of the cylindrical base and partially exposed. You may.
[0019]
And, as described later, since the rotating bezel is an operation unit that performs switching drive of a switch unit that is electrically or mechanically connected to the functional device, in order to make the operation of switching drive favorable, It is preferable to provide a desired display portion on the ring-shaped outer peripheral portion. In this case, it is preferable that a scale indicating the degree of rotation of the rotating bezel and the degree of switching of the switch is displayed on the outer peripheral side of the rotating bezel in the instrument panel in which the rotating bezel is embedded. . In this case, the rotation of the rotating bezel causes the display unit to move in the circumferential direction of the rotating bezel and point to a scale corresponding to the magnitude of the rotation, so that the degree of the switching drive of the switch can be easily visually determined. Can be grasped. Further, in order to perform a switching drive operation under a condition where there is not enough light amount such as at night, a display using a fluorescent paint can be given to this display unit, and this display unit can be illuminated by an illumination means such as an LED lamp. It can also be configured. Further, the rotating bezel portion may have a structure having desired irregularities. With the structure having the irregularities, it is possible to improve the gripping property when rotating the rotating bezel portion and to improve the design.
[0020]
The switch unit is electrically or mechanically connected to a separately provided functional device. Here, the functional device refers to various devices having various functions, such as an air conditioner and a device for selecting the opening and closing of a register. Further, the invention is not limited thereto, and functional devices such as a car stereo and a light source can be connected to the switch unit. The connection between the switch unit and the functional device can be performed by a known method.
[0021]
The register with an operation switch according to the present invention has a displacement portion that is displaced in accordance with the rotation of the rotating bezel portion at a non-exposed portion of the rotating bezel portion. The displacement portion is provided at a non-exposed portion of the rotating bezel portion, that is, a portion outside the exposed portion. For example, the outer peripheral surface and the inner peripheral surface of the rotating bezel portion, or the end portion on the back surface side are suitable portions for disposing the displacement portion. This displacement section can be formed in various ways in combination with a switch section described later.
[0022]
In the register with the operation switch of the present invention, the switch section is switched and driven by the displacement of the displacement section. Here, the displacement of the displacement portion is a mechanical displacement performed with the rotation of the rotating bezel portion, and the displacement motion is the same rotating motion as the rotation of the rotating bezel portion. For this reason, the switch unit is switched and driven by this rotational motion, is switched and driven by the converted motion by converting the rotary motion into a linear motion or the like, or is electrically operated by detecting the rotary motion by a sensor or the like. A signal which is converted into a signal and which is switched and driven by the electric signal can be used. Such a displacement part and a switch part can be arranged in contact, can be arranged in a non-contact manner, or can be arranged to be in contact only at a specific position. Further, the displacement portion can be provided intermittently over the entire circumference in the circumferential direction of the rotating bezel portion, or can be provided only in a part thereof.
[0023]
In the register with the operation switch of the present invention, the displacement portion may be a rack provided circumferentially on the back side of the rotating bezel portion, and the switch portion may be provided with a pinion that meshes directly or indirectly with the rack. it can.
[0024]
The rack can be provided on the entire circumference in the circumferential direction of the rotating bezel portion, or can be provided only on a part thereof. Further, the rack can be provided so as to protrude in the circumferential direction of the rotating bezel portion, or can be provided so as to protrude in the back surface direction of the rotating bezel portion.
[0025]
The pinion may be of any shape as long as it can be engaged with the rack, and the position of the pinion is not particularly limited. However, it is preferable that the pinion be disposed on the outer periphery of the rotating bezel in order not to interfere with ventilation of the register. Such a pinion can be arranged in parallel with the rack arrangement direction, or can be arranged at a predetermined angle in the rack arrangement direction. It is preferable to arrange them in the direction in which the substrate extends.
[0026]
In the case where a pinion is provided in the switch part with the displacement part as a rack, a plurality of teeth constituting the rack as the displacement part are rotated and displaced with the rotation of the rotating bezel part. When the pinion meshes, the displacement of the rack generated by the rotation of the rotating bezel portion is transmitted to the pinion, and the pinion rotates, and the rotation of the pinion causes the switching of the switch portion to be performed. The rack and the pinion may directly mesh with each other, or may indirectly mesh with each other via a transmission gear or the like. Through the transmission gear, for example, even when the rotation of the rotating bezel portion is large, the rotation of the pinion can be reduced. In this case, even when a switch unit having a configuration in which the switching drive is performed by a small rotation of the pinion is used, a delicate operation is not required for the switching drive, and the usability is further improved.
[0027]
A known switch can be used as a switch that can be switched by such a rotary motion. For example, a rotary switch is preferably used.
[0028]
Further, it is also possible to provide an engagement hole at a predetermined position of the pinion, lock the slide end of the slider in the engagement hole, and further attach the operation end of the slide switch to the slider. In this case, the rotational motion of the pinion is converted into a reciprocating motion by the slider, and the switching of the slide switch is performed. In this case, since the rotary motion is converted to the linear motion, it is easy to mechanically connect the switch unit to the functional device.
[0029]
As the slide switch, a switch that converts position information into electric information, such as a potentiometer, can be used in addition to a normal slide switch. In this case, the switching can be performed in a stepless manner, and for example, adjustment of the temperature of the air conditioner, adjustment of the air volume, and the like can be performed as desired.
[0030]
In the register with the operation switch according to the present invention, the displacement portion may be a projection protruding from the back side of the rotating bezel portion, and the switch portion may be engaged with the projection. In this case, the projection is displaced by the rotation of the rotating bezel portion, thereby engaging with the switch portion, and the driving operation of the switch portion is performed. As the switch unit used here, for example, the engagement unit engaged with the projection is rotated with the rotation of the rotating bezel unit, and the detection unit provided separately from the engagement unit is a detection unit of this engagement unit. Anything that can detect rotational movement can also be used. As such a switch section, for example, a switch such as a rotary encoder that detects a rotational movement and converts it into electrical information can be preferably used.
[0031]
Further, for example, when the switch is fixed, the protrusion engages with the switch only when the protrusion is displaced and is disposed at a predetermined position, and when the protrusion is further displaced from the predetermined position. As a configuration in which the engagement is released, a configuration in which the switching drive of the switch unit is performed only at the time of the engagement may be used. As such a switch unit, it is preferable to use a push switch in which one or a plurality of switches are arranged in the displacement direction of the protrusion, a detection switch arranged at one predetermined position in the displacement direction of the protrusion, and the like. it can.
[0032]
In the register with an operation switch according to the present invention, the rotating bezel portion has a cylindrical portion protruding to the back surface side of the exposed portion, and the displacement portion is a guide rail spirally provided on the outer periphery of the cylindrical portion. Can be a slide switch having an operation end that reciprocates by engaging with the guide rail. In this case, the operation end of the slide switch is slidably engaged with the guide rail, and furthermore, the main body of the slide switch is fixedly arranged, so that the slide switch is spirally provided on the outer periphery of the cylindrical portion with the rotation of the rotating bezel portion. When the guide rail is displaced, the operating end slidably engaged with the guide rail reciprocates to perform the switching drive of the changeover switch. As the slide switch used here, a normal slide switch, a potentiometer, or the like is suitably used as described above.
[0033]
Further, in the register with the operation switch of the present invention, the various configurations described above can be appropriately combined and used.
[0034]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0035]
(Example 1)
The register with an operation switch according to the first embodiment of the present invention is a pinion in which the displacement portion is a rack provided circumferentially on the back side of the rotating bezel portion, and the switch portion indirectly meshes with the rack via a transmission gear. It has the structure which has. In the first embodiment, a rotary switch is used as the switch unit. FIG. 1 schematically shows an instrument panel in which a register with an operation switch according to the first embodiment is embedded, and FIG. 1 is an enlarged schematic perspective view of a main part of the instrument panel in which the register with an operation switch in FIG. 1 is embedded. FIG. 3 is a schematic side view of the register with the operation switch according to the first embodiment shown in FIG.
[0036]
The register 1 with an operation switch according to the first embodiment includes a register portion 2 and a rotating bezel portion 4 arranged on the outer peripheral side of the cylindrical base 3 of the register portion 2 on the same axis. The register section 2 has a substantially cylindrical cylindrical base 3. The inside of the opening of the cylindrical substrate 3 serves as a flow path for air-conditioning air, and the inside of the opening 6 is connected to a blower of an air conditioner not shown. The cylindrical substrate 3 is buried in an instrument panel 7 of an automobile, and communicates with the interior of the vehicle through an open end 8. The opening end 8 serves as a blowing opening 9 for air for air conditioning. A pivotal support (not shown) is provided inside the opening 6 of the cylindrical base 3, and the cylindrical base 3 pivotally supports the fin member 12 in the opening 6 biaxially by this pivotal support. The rotation of the fin member 12 guides the flow path of the air conditioning air, and adjusts the wind direction of the air conditioning air. The fin member 12 is pivotally supported biaxially so as to rotate to an angle substantially parallel to the opening end 8. When the fin member 12 rotates to an angle substantially parallel to the opening end 8, the opening end 8 is closed by the fin member 12. That is, in the present embodiment, the fin member 12 also has a damper-like function, and adjusts the wind direction and opens and closes the blowout opening 9.
[0037]
A rotating bezel part 4 is arranged on the coaxial outer peripheral side of the cylindrical base 3 of the register part 2. The rotating bezel portion 4 is formed in a substantially cylindrical shape, a ring-shaped exposed portion 14 is exposed on the outer periphery of the cylindrical base 3, and the other portions are rotatably embedded in the instrument panel 7. . The ring-shaped outer peripheral side of the exposed portion 14 of the rotating bezel portion 4 is formed with irregularities 16 at predetermined intervals, and the irregularities 16 constitute a grip portion 17 of the rotating bezel portion 4. Further, an LED 19 is embedded at a predetermined position of the exposed part 14 of the rotating bezel part 4 to form a display part 21. The display unit 21 is connected to a power source (not shown).
[0038]
A scale 22 is displayed on the outer peripheral side of the rotating bezel portion 4 of the instrument panel 7. The scale 22 is displayed according to a functional device to which a switch unit 23 described later is connected, and visually assists switch switching.
[0039]
A rack 26 is circumferentially provided on the rear side 24 of the rotating bezel part 4 so as to protrude in the rear direction. In the present embodiment, the rack 26 serves as the displacement unit 27. Further, a transmission gear 29 is disposed on an outer peripheral side surface 28 of the cylindrical substrate 3 embedded in the instrument panel 7. The transmission gear 29 is composed of a large-diameter pinion portion 31 arranged to mesh with the rack 26 and a small-diameter pinion portion 32 coaxial with the large-diameter pinion portion 31 and arranged in parallel to the large-diameter pinion portion 31. A pinion 33 having a larger diameter than the small-diameter pinion portion 32 is meshed with the small-diameter pinion portion 32. A rotary switch 36 is provided on the rotation shaft 34 of the pinion 33. In the rotary switch 36, a rotating part 37 is connected to a rotating shaft 34 of the pinion 33, and a main body 39 is fixed to a fixed frame (not shown). The rotary switch 36 is electrically connected to a functional device (not shown). In the first embodiment, the switch unit 23 includes the transmission gear 29, the pinion 33, and the rotary switch 36.
[0040]
The operation of the register 1 with the operation switch according to the first embodiment is performed as follows.
[0041]
First, when the rotating bezel part 4 is manually rotated, the rack 26 provided on the back side 24 of the rotating bezel part 4 rotates in the circumferential direction with the rotation of the rotating bezel part 4. . By this rotation, the large-diameter pinion 31 of the transmission gear 29 meshing with the rack 26 rotates, and with this rotation, the small-diameter pinion 32 arranged coaxially with the large-diameter pinion 31 rotates. When the small diameter pinion 32 rotates, the pinion 33 meshing with the small diameter pinion 32 rotates. The rotation of the pinion 33 is detected by a detection unit (not shown) of a rotary switch 36 provided on a rotation shaft 34 of the pinion 33, and a signal unit (not shown) provided on a rotary switch 36 main body 39 is switched and driven. An electric signal corresponding to the rotation of the pinion 33 is sent from this signal unit to a functional device (not shown) to control the functional device.
[0042]
According to the register 1 with the operation switch of the first embodiment, the rotating bezel 4 rotates around the register 2, and the switching drives the switch 23 by this rotation. Therefore, the rotating bezel part 4 and the register part 2 are apparently arranged integrally, and the parting line on the instrument panel 7 is reduced as compared with a case where an operation switch is separately provided. The arrangement space on the instrument panel 7 is small. Further, since the rotating bezel portion 4 is disposed on the outer periphery of the register, the operation of the register and the operation of switching the switch are performed at close positions, so that the operability is improved.
[0043]
In the first embodiment, since the rack 26 and the pinion 33 mesh with each other via the transmission gear 29, even if the rotation of the pinion 33 required for the switching drive of the switch unit 23 is small, the rotation The rotation of the bezel portion 4 can be made large, and the operability of the switching drive of the switch portion 23 can be improved.
[0044]
(Example 2)
The register with the operation switch according to the second embodiment of the present invention is configured such that the displacement portion is a rack provided circumferentially on the back side of the rotating bezel portion, and the switch portion has a pinion that directly meshes with the rack, The operation end of the slide switch is attached to this pinion via a slider. In the register with an operation switch according to the second embodiment, the register unit and the rotating bezel unit are the same as those in the first embodiment. FIG. 4 is a schematic side view of a register with an operation switch according to the second embodiment.
[0045]
In the register 41 with the operation switch according to the second embodiment, the rack 43 of the rotating bezel portion 42 and the pinion 44 are directly engaged. An engagement hole 46 is formed at a predetermined position on the outer peripheral side of the pinion 44. The slide end 48 of the slider 47 is engaged with the engagement hole 46. At the end of the slider 47 in the sliding direction A, an engagement hole 49 for the slider is formed. The operation end 52 of the slide switch 51 is engaged with the engagement hole 49 of the slider. The slide switch 51 is fixed to a fixed frame (not shown) and is electrically connected to a functional device (not shown). In the second embodiment, a switch unit 45 is configured by the pinion 44, the slider 47, and the slide switch 51.
[0046]
The operation of the register 41 with the operation switch according to the second embodiment is performed as follows. First, similarly to the register with the operation switch according to the first embodiment, when the rotation of the rotation bezel portion 42 is manually performed, the rack 43 is displaced with this rotation. The displacement of the rack 43 causes the pinion 44 meshing with the rack 43 to rotate, and further, the rotation of the pinion 44 causes the engagement hole 46 provided in the pinion 44 to be displaced. Since the slide end 48 of the slider 47 is engaged with the engagement hole 46, the rotation of the pinion 44 is transmitted to the slider 47 through the engagement hole 46. The position of the slider before the pinion 44 rotates is shown by a solid line in FIG.
[0047]
Here, since the slider 47 is engaged with the slide switch 51 through the engagement hole 49 of the slider and the slide switch 51 is fixed, the rotation of the pinion 44 and the slide of the slide end portion 48 of the slider 47 are performed. It is converted into a displacement in the linear direction of the slider. As a result of this conversion, the operation end 52 of the slide switch 51 is slid along with the linear displacement of the slider 47 as shown by the broken line in FIG. 4, and the switching of the slide switch 51 is performed. The switching drive of the slide switch 51 is converted into an electric signal and sent to a functional device (not shown) electrically connected to the slide switch 51 to control the functional device.
[0048]
According to the register 41 with the operation switch of the second embodiment, in addition to the effect resulting from the configuration in which the switching operation of the changeover switch is performed by the rotation of the rotating bezel portion 42, the rotational movement of the pinion 44 is linearly moved by the slider 47. With this conversion, it is possible to support switches that are switched by a slide operation such as the slide switch 51.
[0049]
(Example 3)
The register with an operation switch according to the third embodiment of the present invention is configured such that the displacement portion is a rack provided circumferentially on the back side of the rotating bezel portion, and the switch portion has a pinion portion that directly meshes with the rack. At a predetermined position of the pinion portion, a lever portion protruding in the circumferential direction of the pinion portion is provided, a groove portion is provided in a longitudinal direction of the lever portion, and an operation end of the potentiometer is attached to this groove portion. is there. In the third embodiment, the same register and rotating bezel as those in the first embodiment are used. FIG. 5 is a schematic side view of a register with an operation switch according to the third embodiment.
[0050]
In the register 56 with the operation switch according to the third embodiment, the rack 58 of the rotating bezel portion 57 and the pinion 59 directly mesh. The pinion 59 has a tooth portion 61 formed only in a part in the circumferential direction, and a long arm portion 62 extending in the outer peripheral direction is formed at a predetermined position in a portion where the tooth portion 61 is not formed. An elongated hole 63 extending in the longitudinal direction is formed in the arm portion 62. An operating end 66 of a slide switch 64 is slidably engaged with the elongated hole 63 of the arm 62. In the third embodiment, a piston 67 is provided which is pressed by sliding the operation end 66 in parallel with the sliding direction B of the operation end 66 of the slide switch 64. The piston 67 is connected to a functional device (not shown). The slide switch 64 is fixed to a fixed frame (not shown). In the third embodiment, a switch section 65 is configured by the pinion 59 and the slide switch 64.
[0051]
The operation of the register with operation switch 56 of the third embodiment is performed as follows. First, similarly to the register with the operation switch according to the first embodiment, when the rotation of the rotation bezel portion 57 is manually performed, the rack 58 is displaced with the rotation. The displacement of the rack 58 rotates the pinion 59 meshing with the rack 58, and the arm 62 provided on the pinion 59 is displaced with the rotation of the pinion 59. Since the operation end 66 of the slide switch 64 is engaged with the arm 62, the rotation of the pinion 59 is transmitted from the arm 62 to the slide switch 64. Here, since the slide switch 64 is slidably engaged with the elongated hole 63 of the arm 62, the rotation of the pinion 59 depends on the displacement of the operation end 66 of the slide switch 64 in the elongated hole 63 and the operation of the slide switch 64. This is converted into a displacement of the end 66 in the linear direction. As a result of this conversion, the operation end 66 of the slide switch 64 is slid as indicated by the broken line in FIG. 5, and the switching of the slide switch 64 is performed. In the third embodiment, the piston 67 is pressed and driven by the slide of the operation end 66 of the slide switch 64. The driving of the piston portion 67 controls a functional device (not shown).
[0052]
According to the register with operation switch 56 of the third embodiment, in addition to the effect of the second embodiment, it becomes possible to mechanically control the functional device.
[0053]
(Example 4)
In the register with the operation switch according to the fourth embodiment of the present invention, the displacement portion is formed as a protrusion protruding from the back side of the rotating bezel portion, and the switch portion engages with the protrusion and rotates with the rotation of the rotating bezel portion. In this configuration, a moving engaging portion and a detecting portion for detecting rotation of the engaging portion are provided. In the register with the operation switch according to the fourth embodiment, a rotary encoder is used as a switch unit. In the fourth embodiment, the same register unit as that of the first embodiment is used. FIG. 6 is a schematic perspective view of the rotating bezel portion and the switch portion of the register with the operation switch according to the fourth embodiment.
[0054]
In the register with the operation switch according to the fourth embodiment, the rotating bezel portion 69 has the same exposed portion 71 as the rotating bezel portion of the first embodiment, and the rotating bezel portion 69 has a cylindrical portion 72 protruding to the back side. Is formed. A projection 74 protrudes at a predetermined position on an outer peripheral surface 73 of the cylindrical portion 72.
[0055]
The switch portion 76 has a substantially cylindrical inner cylindrical portion 77 having an inner circumferential surface substantially along the outer circumferential surface of the cylindrical portion 72 of the rotating bezel portion 69 and a shape substantially along the outer circumferential surface of the inner cylindrical portion 77. An outer cylinder portion 78 having an inner peripheral surface, and the inner cylinder portion 77 is pivotally supported on the outer cylinder portion 78 so as to be rotatable. An engagement portion 79 that engages with the projection 74 is provided on the inner cylinder portion 77 of the switch portion 76 at a position facing the projection 74 of the rotating bezel portion 69. Further, a detection unit (not shown) for detecting rotation of the inner cylinder 77 is formed in the outer cylinder 78. This detection unit is electrically connected to a functional device (not shown).
[0056]
The operation of the register with the operation switch according to the fourth embodiment is performed as follows. First, similarly to the register with the operation switch of the first embodiment, when the rotation of the rotation bezel portion 69 is manually performed, the projection 74 is displaced with this rotation, and the engagement with the projection 74 is performed. The joint 79 rotates. This rotation is detected by a detection unit (not shown), and an electrical signal is sent to a functional device (not shown) in accordance with the magnitude of the detected rotation to control the functional device. In the fourth embodiment, the detection by the detection unit and the transmission of the electric signal are switching driving of the switch unit 76.
[0057]
According to the register with the operation switch of the fourth embodiment, there is an effect resulting from the configuration in which the switching drive operation of the changeover switch is performed by the rotation of the rotating bezel portion 69 as in the first to third embodiments.
[0058]
(Example 5)
In the register with the operation switch according to the fifth embodiment of the present invention, the displacement portion is a protrusion protruding from the back side of the rotating bezel portion, and the switch portion is a plurality of fixed push switches. The configuration is such that they engage with each other. In the fifth embodiment, the same register unit as that of the first embodiment is used. FIG. 7 is a schematic perspective view of the rotating bezel portion and the switch portion of the register with the operation switch according to the fifth embodiment.
[0059]
In the register with the operation switch according to the fifth embodiment, the rotating bezel portion 82 has the same exposed portion 83 as the rotating bezel portion of the first embodiment, and the rotating bezel portion 82 has a cylindrical portion 84 protruding to the back side. Is formed. In addition, a portion of the cylindrical portion 84 on the side of the exposed portion 83 is formed to be thick to form a large-diameter portion 86. At a predetermined position of the large-diameter portion 86, a projection 87 projects in the rear direction.
[0060]
The switch portion 88 includes a substantially cylindrical switch holding portion 89 having an inner peripheral surface substantially along the outer peripheral surface of a portion other than the large-diameter portion 86 of the cylindrical portion 84 of the rotating bezel portion 82; And a cover portion 91 formed in a cylindrical shape capable of storing 89. The switch holding portion 89 is inserted through the cylindrical portion 84 of the rotating bezel, and is arranged near the large diameter portion 86. The projection 87 of the large diameter portion 86 is in contact with the switch holding portion 89. A plurality of push switches 92 are arranged in a row along the displacement direction C of the protrusion 87 on the surface of the switch holding portion 89 which is in contact with the protrusion 87. Each push switch 92 is electrically connected to a functional device (not shown).
[0061]
The operation of the register with the operation switch according to the fifth embodiment is performed as follows. First, similarly to the register with the operation switch according to the first embodiment, when the turning of the turning bezel portion 82 is manually performed, the projection 87 is displaced with this turning. In the register with the operation switch according to the fifth embodiment, since the push switches 92 that can be engaged with the projections 87 are arranged along the displacement direction C of the projections 87, the projections 87 are displaced and the respective push switches 92 are arranged. When the projection 87 is disposed at a position opposite to the position, the projection 87 engages with and pushes the push switch 92 at that position, thereby switching and driving the push switch 92. When the rotating bezel portion 82 is further rotated, the projection 87 is further displaced, and the engagement between the push switch 92 and the projection 87 is released. Then, when the rotating bezel portion 82 is further rotated, the projection 87 is engaged with the next push switch 92. The switching of the switches is performed by the engagement and the disengagement.
[0062]
According to the register with the operation switch of the fifth embodiment, there is an effect resulting from the configuration in which the switching drive operation of the changeover switch is performed by the rotation of the rotating bezel portion as in the fourth embodiment.
[0063]
(Example 6)
In the register with the operation switch according to the sixth embodiment of the present invention, similarly to the fifth embodiment, the displacement portion is formed as a protrusion protruding from the back side of the rotating bezel portion, and the switch portion is formed as a plurality of fixed push switches. And a push switch are engaged at a predetermined position. In the sixth embodiment, the same register unit as that of the first embodiment is used. FIG. 8 is a schematic perspective view of the rotating bezel portion and the switch portion of the register with the operation switch according to the sixth embodiment.
[0064]
In the register with an operation switch according to the sixth embodiment, the rotating bezel portion 94 is formed in the same shape as the fifth embodiment except that the protrusion 102 is provided so as to protrude in the outer peripheral direction.
[0065]
The switch portion 96 has a switch holding portion 98 having a substantially arc-shaped cross section that curves substantially along the outer peripheral surface of the large diameter portion 97 of the cylindrical portion 101 of the rotating bezel portion 94, and a substantially arc-shaped cross section that can accommodate the switch holding portion 98. And a cover portion 99 formed on the cover. The switch holding portion 98 is disposed near the large diameter portion 97 of the cylindrical portion 101 of the rotating bezel portion 94. The projection 102 of the large diameter portion 97 is in contact with the switch holding portion 98. A plurality of push switches 103 are arranged in a row along the displacement direction D of the protrusion 102 on the curved inner peripheral surface of the switch holding portion 98 that contacts the protrusion 102. Each push switch 103 is electrically connected to a functional device (not shown).
[0066]
The operation of the register with the operation switch according to the sixth embodiment is performed in the same manner as in the fifth embodiment. Further, according to the register with operation switch of the sixth embodiment, in addition to the effect of the fifth embodiment, the space required for disposing the register with operation switch can be further reduced.
[0067]
(Example 7)
The register with an operation switch according to the seventh embodiment of the present invention uses a detection switch in place of the push switches in the register with the changeover switch according to the sixth embodiment. The register with an operation switch according to the seventh embodiment is formed in the same shape as the sixth embodiment except that a detection switch is used. FIG. 9 is a schematic perspective view of the rotating bezel portion and the switch portion of the register with the operation switch according to the seventh embodiment.
[0068]
The register with an operation switch according to the seventh embodiment has the same rotating bezel 106 as the sixth embodiment. At the predetermined position of the large diameter portion 107 of the rotating bezel portion 106, the same projection 108 as in the sixth embodiment is provided so as to protrude in the outer peripheral direction.
[0069]
The switch holding part 111 and the cover part 112 of the switch part 109 are formed in the same shape as the switch holding part and the cover part of the sixth embodiment, and the switch holding part 111 is the large diameter part 107 of the cylindrical part 113 of the rotating bezel part 106. It is arranged close to. The projection 108 of the large diameter portion 107 is in contact with the switch holding portion 111. One detection switch 114 is provided on the curved inner peripheral surface of the switch holding portion 111 that contacts the projection 108. The detection switch 114 is a limit switch 117 that includes a switching unit (not shown) fixed to the switch holding unit 111 and an engaging unit 116 that extends from the switching unit in the direction of the large-diameter part 107 while extending. Not functionally connected to equipment. The detection switch 114 is switched by the engagement portion 116 engaging with the projection 108 and coming into contact with the switching portion.
[0070]
The register with the operation switch according to the seventh embodiment has the same effect as the sixth embodiment.
[0071]
(Example 8)
The register with the operation switch according to the eighth embodiment of the present invention has a guide rail in which the rotating bezel portion has a cylindrical portion protruding to the back side of the exposed portion, and the displacement portion is spirally provided on the outer periphery of the cylindrical portion. The switch is configured to use a potentiometer having an operating end that engages with the guide rail and moves linearly. FIG. 10 is a schematic perspective view of a rotating bezel portion and a switch portion of the register with operation switches according to the eighth embodiment.
[0072]
In the register with an operation switch according to the eighth embodiment, the rotating bezel portion 119 has the same exposed portion 121 as the rotating bezel portion of the first embodiment, and the rotating bezel portion 119 has a cylindrical portion 122 protruding to the back side. Is formed. A spiral groove 123 is formed on the outer peripheral side of the cylindrical portion 122, and the groove 123 forms a guide rail 124. The switch unit 126 is constituted by a potentiometer 129 in which an operation end 128 slides linearly in a long slide groove (not shown). The operation end 128 of the potentiometer 129 slides on a guide rail 124. Have been combined. The potentiometer 129 is fixed by a fixed frame (not shown) and is electrically connected to a functional device (not shown).
[0073]
The operation of the register with the operation switch according to the eighth embodiment is performed as follows. First, similarly to the register with the operation switch according to the first embodiment, when the turning of the turning bezel portion 119 is manually performed, the guide rail 124 is displaced with the turning. The displacement of the guide rail 124 is transmitted to a potentiometer 129 which is slidably engaged with the guide rail 124. Since the potentiometer 129 is fixed by a fixed frame, the displacement of the potentiometer 129 is caused by this displacement. Only the operation end 128 of the guide rail 129 is driven, and the rotational movement of the guide rail 124 is converted into a linear movement, and the operation end 128 slides in the slide groove. By the sliding movement, the driving of the potentiometer 129 is performed, and the magnitude of the displacement of the guide rail 124 is converted into an electric signal and sent to a functional device (not shown) to control the functional device.
[0074]
According to the operation switch of the eighth embodiment, in addition to the effect of the configuration in which the switching operation of the changeover switch is performed by the rotation of the rotating bezel portion 119 of the fourth embodiment, the stepless operation of the functional device is performed by the potentiometer 129. Can be controlled, and the functional devices can be more finely controlled.
[0075]
【The invention's effect】
As described above, according to the register with the changeover switch of the present invention, the switching drive of the switch portion can be performed by the rotation of the rotating bezel portion, and the rotating bezel portion is arranged on the outer periphery of the register. The rotating bezel portion and the register are apparently integrally arranged, and the parting line on the instrument panel can be reduced. Further, since the rotating bezel and the register are apparently arranged integrally, it is possible to reduce the arrangement space on the instrument panel as compared with a case where the operation switch and the register are separately arranged. . Further, by disposing the rotating bezel on the outer periphery of the register, the operation of the register and the operation of switching the switch can be performed at close positions, and the operability is improved.
[Brief description of the drawings]
FIG. 1 is a diagram schematically illustrating an instrument panel in which a register with an operation switch according to a first embodiment of the present invention is embedded.
FIG. 2 is an enlarged schematic perspective view of a main part of an instrument panel in which the register with an operation switch of FIG. 1 is embedded.
FIG. 3 is a schematic side view of a register with an operation switch according to the first embodiment of the present invention.
FIG. 4 is a schematic side view of a register with an operation switch according to a second embodiment of the present invention.
FIG. 5 is a schematic side view of a register with an operation switch according to a third embodiment of the present invention.
FIG. 6 is a schematic perspective view of a rotating bezel portion and a switch portion of a register with an operation switch according to a fourth embodiment of the present invention.
FIG. 7 is a schematic perspective view of a rotating bezel portion and a switch portion of a register with an operation switch according to a fifth embodiment of the present invention.
FIG. 8 is a schematic perspective view of a rotating bezel portion and a switch portion of a register with an operation switch according to a sixth embodiment of the present invention.
FIG. 9 is a schematic perspective view of a rotating bezel portion and a switch portion of a register with an operation switch according to a seventh embodiment of the present invention.
FIG. 10 is a schematic perspective view of a rotating bezel portion and a switch portion of a register with an operation switch according to an eighth embodiment of the present invention.
[Explanation of symbols]
1: register with operation switch 2: register section 3: cylindrical base 4: rotating bezel section 7: instrument panel 9: blowout opening 12: fin member 14: exposed section 21: display section 22: scale 23: switch section 26: Rack 27: Displacement part 29: Transmission gear 33: Pinion 36: Rotary switch
41: Register with operation switch 42: Rotating bezel 43: Rack 45: Switch 44: Pinion 46: Engagement hole 47: Slider 51: Slide switch
56: Register with operation switch 57: Rotating bezel part 58: Rack 59: Pinion 64: Slide switch 65: Switch part
69: rotating bezel part 71: exposed part 72: cylindrical part 74: projection 76: switch part
82: rotating bezel part 83: exposed part 84: cylindrical part 86: large diameter part 87: projection 88: switch part 92: push switch
94: rotating bezel part 96: switch part 97: large diameter part 101: cylindrical part 102: projection 103: push switch
106: Rotating bezel part 107: Large diameter part 108: Projection 109: Switch part 113: Cylindrical part 114: Detection switch 117: Limit switch
119: rotating bezel part 121: exposed part 122: cylindrical part 123: groove 124: guide rail 126: switch part 129: potentiometer

Claims (4)

A register portion having a cylindrical base constituting a flow path and a blow-out opening of air-conditioning air, and a fin member disposed inside the cylindrical base and rotatably supported on the cylindrical base; A rotating bezel portion having a ring-shaped exposed portion disposed on the outer periphery of the cylindrical substrate on the same axis as the cylindrical substrate and exposed on the outer periphery of the cylindrical substrate, at least the exposed portion rotating around the cylindrical substrate; A switch unit electrically or mechanically connected to a separately provided functional device,
The non-exposed portion of the rotating bezel portion has a displacement portion that is displaced in accordance with the rotation of the rotating bezel portion, and the switch portion is switched and driven by the displacement of the displacement portion. Register with switch. 2. The operation switch according to claim 1, wherein the displacement portion is a rack provided circumferentially on a back side of the rotating bezel portion, and the switch portion has a pinion portion that meshes directly or indirectly with the rack. Attached register. The register with an operation switch according to claim 1, wherein the displacement portion is a protrusion protruding on a rear surface side of the rotating bezel portion, and the switch portion is engaged with the protrusion. The rotating bezel portion has a tubular portion projecting to the back side of the exposed portion, the displacement portion is a guide rail spirally provided on the outer periphery of the tubular portion, and the switch portion is associated with the guide rail. The register with an operation switch according to claim 1, wherein the register is an slide switch having an operation end that reciprocates.

Images