KR102483176B1 - Rotary detent device for rotary knob and vehicular rotary switch unit having the same - Google Patents

Abstract

The rotary detent mechanism of the rotary knob according to the present invention is a rotary detent mechanism of the rotary knob for generating a feeling of operation according to the rotation of the rotary knob rotatably disposed in the housing, wherein any one of the housing and the rotary knob and a rotary detent disposed on the rotary detent, and a detent stopper disposed on the other one of the housing part and the rotary knob so as to come into contact with the rotary detent. The rotary detent includes a detent convex and convex portion in which detent convex and concave portions are alternately disposed in the direction of rotation of the rotary knob, and a buffer convex and convex portion that can be elastically deformed by the pressing force of the detent stopper. and buffer concavo-convex portions in which the concave portions of the buffer convex-convex portion are alternately arranged in the direction of rotation of the rotary knob. The detent stopper includes a detent stopper protrusion protruding toward the rotary detent and a detent stopper body supporting the detent stopper protrusion.

Description

Rotary detent mechanism of rotary knob and rotary switch unit for vehicle having same

The present invention relates to a rotary detent mechanism of a rotary knob, and more particularly, to a rotary detent mechanism of a rotary knob capable of generating a feeling of operation according to rotational manipulation of the rotary knob and a rotary switch unit for a vehicle having the same.

Switches are widely used as parts for selection and operation in a wide variety of devices such as vehicles, machine tools, terminals, multimedia devices, and game machines.

A wide variety of switches are developed and used depending on the type of device to be applied, and continuous research and development is being conducted to enable various functional selection of the device. Representative switches include a push switch capable of simple pressing operation, a rotary switch capable of axial rotation operation, and a lever-type switch.

For example, a multifunction switch is installed in vehicles produced recently. The multi-function switch may be used to control operations of light and fog lamps, wipers, various audio devices, vehicle windows, and the like. Such a multi-function switch increases the operability of various devices so that the driver does not lose his or her attention to the front even when operating various devices while driving. This multi-function switch adopts a rotary knob or a knob capable of complex movements.

In the case of a switch in which a knob rotates, it has a detent function capable of giving a user a sense of operation. In order to generate a feeling of operation according to the rotation of the knob, it is common to provide a concave-convex part on one side of a rotating component and a stationary component, and to install an elastic member in contact with the concave-convex part on the other side. However, in this method, when the knob rotates, a hitting sound is generated due to a collision between the concave-convex portion and the elastic member. Such unintentional hitting sound may be perceived as noise by users and may decrease the value of the product. In addition, it takes a lot of money and time to reduce the unintentional hitting sound.

Publication No. 2017-0051704 (2017. 05. 12)

The present invention has been made in view of the above points, and an object of the present invention is a rotary detent mechanism of a rotary knob capable of minimizing operation noise and wear of parts through improving the shape and structure of component parts and a rotary detent mechanism for vehicles having the same It is to provide a switch unit.

The rotary detent mechanism of the rotary knob according to the present invention for solving the above object is a rotary detent mechanism of the rotary knob for generating a feeling of operation according to the rotation of the rotary knob rotatably disposed in the housing. , a rotary detent disposed on any one of the housing part and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion, in which convex portions of the detent convex-convex portion and concave portions of the detent concave-convex portion are alternately disposed in the direction of rotation of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave-convex portions and concave portions are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion of the detent stopper can be inserted into the concave portion of the detent concave-convex portion. A tent stopper protrusion and a detent stopper body supporting the detent stopper protrusion are included.

The convex portion of the buffer concavo-convex portion may protrude more toward the detent stopper than the convex portion of the detent concave-convex portion, and the concave portion of the buffer concave portion may protrude toward the detent stopper than the concave portion of the detent concavo-convex portion.

A plurality of detent convex-convex parts may be disposed concentrically around a rotational central axis of the rotary knob, and the buffer convex-convex part may be disposed between the plurality of detent concave-convex parts.

A plurality of the buffer convex-convex parts may be disposed concentrically around a rotational central axis of the rotary knob, and the detent concave-convex part may be disposed between the plurality of buffer convex-convex parts.

The detent concavo-convex part and the buffer convex-convex part may be disposed concentrically around a central axis of rotation of the rotary knob, and the detent concave-convex part may be disposed outside the buffer concavo-convex part.

The detent convex-convex part and the buffer convex-convex part may be disposed concentrically around a central axis of rotation of the rotary knob, and the buffer convex-convex part may be disposed outside the detent concave-convex part.

The buffer concavo-convex part may be disposed to cover a surface of the detent concave-convex part.

The rotary detent may be connected to the housing, and the detent stopper may be disposed to be connected to the rotary knob so as to rotate together with the rotary knob.

The rotary detent may be connected to the rotary knob and may be disposed to rotate together with the rotary knob, and the detent stopper may be connected to the housing part.

On the other hand, the rotary detent mechanism of the rotary knob according to another aspect of the present invention for solving the above object is a rotary knob of the rotary knob for generating a feeling of operation according to the rotation of the rotary knob rotatably disposed in the housing. A detent mechanism comprising: a rotary detent disposed on one of the housing part and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A buffer concavo-convex portion having a plurality of buffer concavo-convex portion concave portions that can be elastically deformed by a pressing force of the rotary knob and disposed spaced apart from each other in the rotational direction of the rotary knob, and between the plurality of buffer concave-convex portion concave portions, the buffer concavo-convex portion is larger than the concave portion. A detent convex portion having convex portions of a plurality of detent concavo-convex portions disposed to protrude toward the detent stopper, wherein the detent stopper protrudes toward the rotary detent so that at least a portion of the detent stopper can be inserted into the concave portion of the buffer concavo-convex portion and a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion.

A surface of each of the plurality of convex portions of the detent concavo-convex portion and a surface of each of the concave portion of the plurality of buffer concavo-convex portions may be formed in a wave shape.

On the other hand, a vehicle rotary switch unit according to the present invention for solving the above object is a housing portion; a rotary knob rotatably disposed on the housing portion such that at least a portion thereof is exposed to the outside of the housing portion; a rotary switch unit disposed in the housing unit to generate an output signal according to rotation of the rotary knob; and a rotary detent disposed on one of the housing part and the rotary knob, and disposed on the other one of the housing part and the rotary knob to contact the rotary detent to generate a feeling of operation according to rotation of the rotary knob. and a rotary detent mechanism including a detent stopper, wherein the rotary detent has a convex portion of the detent convex portion and a concave portion of the detent concave convex portion to which the detent stopper can contact in a direction of rotation of the rotary knob. Detent concavo-convex portions alternately disposed, and buffer concavo-convex portions in which a convex portion of the buffer convex portion and a concave portion of the buffer concave portion elastically deformable by a pressing force of the detent stopper are alternately disposed in a rotational direction of the rotary knob, the detent The stopper includes a detent stopper protrusion protruding toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concavo-convex part, and a detent stopper body supporting the detent stopper protrusion.

The rotary switch unit is connected to the rotary knob so as to rotate together with the rotary knob, is rotatably disposed inside the housing unit, and has an encoder rotor provided with a plurality of encoder rotor slits spaced apart from each other in the direction of rotation of the rotary knob. and a rotary switch disposed inside the housing to detect movement of the encoder rotor slit when the encoder rotor rotates, wherein the rotary detent rotates together with the encoder rotor. and the detent stopper may be connected to the housing part.

On the other hand, a rotary switch unit for a vehicle according to another aspect of the present invention for solving the above object is a housing portion; a rotary knob rotatably disposed on the housing portion such that at least a portion thereof is exposed to the outside of the housing portion; a rotary switch unit disposed in the housing unit to generate an output signal according to rotation of the rotary knob; and a rotary detent disposed on one of the housing part and the rotary knob, and disposed on the other one of the housing part and the rotary knob to contact the rotary detent to generate a feeling of operation according to rotation of the rotary knob. A rotary detent mechanism including a detent stopper, wherein the rotary detent is elastically deformable by a pressing force of the detent stopper, and a plurality of concavo-convex concave portions spaced apart from each other in a rotational direction of the rotary knob. a buffer concavo-convex portion having a portion, and a detent concavo-convex portion having a plurality of detent convex-convex convex portions disposed between the plurality of buffer concavo-convex portion concave portions to protrude toward the detent stopper from the buffer concavo-convex portion concave portion, wherein the The detent stopper includes a detent stopper protrusion protruding toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the buffer concavo-convex part, and a detent stopper body supporting the detent stopper protrusion.

In the rotary switch unit for a vehicle according to the present invention, the rotary detent mechanism smoothly detents the rotation of the rotary knob, thereby providing a stable feeling of operation during rotation of the rotary knob.

In addition, in the rotary detent mechanism according to the present invention, when the rotary knob rotates, the detent stopper protrusion contacts the buffer convex portion and the shock is buffered, thereby preventing or minimizing the impact sound caused by the collision between the detent concave convex portion and the detent stopper protrusion. there is. And by minimizing operating noise, product quality and reliability can be improved. In addition, it is possible to minimize wear of parts due to collision between parts.

1 is an exploded perspective view showing a rotary switch unit for a vehicle according to an embodiment of the present invention.
2 is a cross-sectional view showing a rotary switch unit for a vehicle according to an embodiment of the present invention.
3 illustrates a housing holder and a rotary detent mechanism of a rotary switch unit for a vehicle according to an embodiment of the present invention.
4 is a bottom perspective view showing a housing holder of a rotary switch unit for a vehicle according to an embodiment of the present invention.
5 is a bottom view showing a housing holder of a rotary switch unit for a vehicle according to an embodiment of the present invention.
6 illustrates a rotary block and a detent stopper of a rotary switch unit for a vehicle according to an embodiment of the present invention.
7 is for explaining the operation of the rotary detent mechanism of the rotary switch unit for a vehicle according to an embodiment of the present invention.
8 to 12 show various modified examples of the rotary detent of the rotary detent mechanism.
13 is an exploded perspective view illustrating a rotary switch unit for a vehicle according to another embodiment of the present invention.
14 illustrates an encoder rotor and a rotary detent mechanism of a rotary switch unit for a vehicle according to another embodiment of the present invention.

Hereinafter, a detent mechanism of a rotary knob according to the present invention and a rotary switch unit for a vehicle having the same will be described in detail.

1 is an exploded perspective view showing a rotary switch unit for a vehicle according to an embodiment of the present invention, FIG. 2 is a cross-sectional view showing a rotary switch unit for a vehicle according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. It shows the housing holder and the rotary detent mechanism of the rotary switch unit for a vehicle according to

As shown in the drawing, the vehicle rotary switch unit 100 according to an embodiment of the present invention includes a housing part 110, a substrate 134, a rotary knob 136, a rotary switch part 140, It includes a rotary detent mechanism 150, a press switch unit 165, a touch module 170, and a vibration actuator 172. The vehicle rotary switch unit 100 of the present invention is a switch unit used in a vehicle, and is used to adjust and control various functions of the vehicle, for example, operating states of various vehicle electric devices such as audio, navigation, and air conditioner provided in the vehicle. can be used

The housing part 110 includes a housing base 111, a housing cover 114, a housing middle frame 117, and a housing holder 125. The housing middle frame 117 is coupled to the housing base 111 and the housing cover 114 is coupled to the housing middle frame 117 to cover the top of the housing middle frame 117 . A space for accommodating the substrate 134 is provided between the housing base 111 and the housing middle frame 117, and a touch module 170 is placed between the housing middle frame 117 and the housing cover 114. An accommodating space is provided. The housing holder 125 is disposed in a space partitioned by the housing base 111, the housing cover 114, and the housing middle frame 117.

The housing base 111 includes a housing base fixing protrusion 112 for supporting the housing holder 125 . The housing base fixing protrusion 112 protrudes toward the housing holder 125 . In the middle of the housing base 111, a plurality of housing base pillars 113 protrude toward the housing cover 114. The plurality of housing base pillars 113 support the substrate 134 and are spaced apart from each other on the outside of the housing base fixing protrusion 112 . Each housing base pillar 113 is disposed at a position corresponding to each of the plurality of press switches 166 disposed on the substrate 134 . The housing base pillar 113 supports the substrate 134 at a position corresponding to the press switch 166 when the press switch 166 is pressed toward the housing base 111, thereby deforming or damaging the substrate 134. can prevent

The housing cover 114 has a housing cover through hole 115 . The rotary knob 136 is exposed to the outside of the housing part 110 in the housing cover through-hole 115 .

The housing middle frame 117 includes a middle frame body 118 coupled to the housing base 111 and a middle frame guide 120 disposed in the middle of the middle frame body 118 . The middle frame guide 120 is for movably guiding the switch plunger 167 to be described later toward the press switch 166 on the substrate 134.

The middle frame guide 120 includes a middle frame support plate 121 disposed in the middle of the middle frame body 118 and a middle frame guide cap 122 elastically supported by the middle frame support plate 121. A middle frame through-hole 123 is provided in the middle of the middle frame support plate 121 . The middle frame guide cap 122 may contact the lower surface of the rotary block 141 while covering the upper end of the switch plunger 167 . The middle frame guide cap 122 protrudes integrally with the middle frame support plate 121 . The middle frame guide cap 122 may guide the switch plunger 167 while elastically deforming a portion interposed between the rotation block 141 and the switch plunger 167 .

An upper side of the housing middle frame 117 is disposed with a manipulation unit 130 for user manipulation. The control unit 130 may be used to operate various electronic devices of the vehicle.

The housing holder 125 includes a housing holder body 126 and a housing holder coupling part 127 protruding downward from the housing holder body 126 and coupled to the housing base 111 . The housing holder body 126 is disposed on the middle frame guide 120 of the housing middle frame 117 to support the touch module 170 and the vibration actuator 172 . On one side of the housing holder body 126, a housing holder communication hole 128 is formed through in the vertical direction.

A rotary detent 151 of a rotary detent mechanism 150 to be described later is disposed on the bottom surface of the housing holder body 126 . The housing holder coupling portion 127 is coupled to the housing base fixing protrusion 112 of the housing base 111 through the middle frame through-hole 123 of the housing middle frame 117 . A bearing 132 rotatably supporting the rotary block 141 of the rotary switch unit 140 is disposed outside the housing holder coupling part 127 .

The structure of the housing unit 110 is not limited to that shown and may be variously changed. In the drawing, the housing base 111 is coupled to the housing middle frame 117 and the housing middle frame 117 is coupled to the housing cover 114, so that the housing base 111 and the housing cover 114 are combined with the housing middle frame 117. ), but the housing base 111 and the housing cover 114 may be directly coupled. In addition, a structure in which the housing middle frame 117 is disposed inside the housing base 111 and the housing cover 114 is also possible.

The substrate 134 is disposed inside the housing part 110 . The substrate 134 is supported by a plurality of housing base pillars 113 provided on the housing base 111 . A substrate through-hole 135 is formed in the middle of the substrate 134 . The housing base fixing protrusion 112 may protrude upward from the substrate 134 through the substrate through-hole 135 . The board 134 may be electrically connected to an external electrical device through a connector or power line. Various electrical devices may be disposed on the substrate 134 . In particular, a plurality of press switches 166 are disposed on the upper surface of the substrate 134 . Electrical elements such as the press switch 166 may be connected through wiring formed on the board 134 or electrically connected through a flexible board or a separate part such as a cable.

The rotary knob 136 is disposed in the housing cover through-hole 115 of the housing cover 114 such that at least a portion of the rotary knob 136 is exposed to the outside of the housing unit 110 . The rotary knob 136 has a circular profile and can be operated both rotationally and directionally. A knob through hole 137 is provided in the middle of the rotary knob 136 . A specific structure of the rotary knob 136 is not limited to the one shown and may be variously changed.

The rotary switch unit 140 is disposed inside the housing unit 110 to generate a signal by detecting a rotational motion of the rotary knob 136 . The rotary switch unit 140 includes a rotation block 141 rotatably disposed inside the housing unit 110, and an encoder rotor 146 coupled to the rotation block 141 and capable of rotating together with the rotation block 141. ) and a rotary switch 149 supported by the housing holder 125 to detect rotation of the encoder rotor 146.

The rotation block 141 is disposed between the rotary knob 136 and the substrate 134 to support the encoder rotor 146 and transmit the pressing force of the rotary knob 136 to the press switch 166 on the substrate 134. can The rotation block 141 includes a rotation block body 142 coupled to the rotary knob 136 and movable together with the rotary knob 136 . The rotation block body 142 may rotate about an axis perpendicular to the upper surface of the substrate 134 on which the press switch 166 is disposed so as to rotate together with the rotary knob 136 . A rotation block through-hole 143 is provided in the middle of the rotation block body 142 . The rotary block body 142 is coupled to the housing holder 125 in such a way that the housing holder coupling part 127 of the housing holder 125 is inserted into the rotary block through-hole 143 . A bearing 132 is disposed between the rotary block body 142 and the housing holder coupling part 127 to rotatably support the rotary block body 142 . A rotation block fixing part 144 for supporting the detent stopper 160 of the rotary detent mechanism 150 is provided on the upper surface of the rotation block body 142 .

The encoder rotor 146 is disposed outside the rotation block through-hole 143 on the upper surface of the rotation block body 142 . The encoder rotor 146 is provided with a plurality of encoder rotor slits 147 arranged in the direction of rotation of the rotation block 141 .

The rotary switch 149 detects movement of the encoder rotor slit 147 when the encoder rotor 146 rotates and generates a signal. The rotary switch 149 is coupled to the lower surface of the touch module 170 and supported by the housing holder 125 through the touch module 170 . When the touch module 170 is coupled to the upper surface of the housing holder 125, the rotary switch 149 is exposed to the lower side of the housing holder 125 through the housing holder communication hole 128 of the housing holder 125, and the encoder rotor The movement of (146) can be detected. The rotary switch 149 may be directly or indirectly supported by the housing unit 110 in various other ways, in addition to being supported by the housing holder 125 through the touch module 170 .

Referring to FIGS. 4 to 6 , the rotary detent mechanism 150 generates a manipulation feeling according to rotation of the rotary knob 136 . The rotary detent mechanism 150 includes a rotary detent 151 and a detent stopper 160 .

The rotary detent 151 is disposed on the housing part 110 . Specifically, the rotary detent 151 is disposed in the housing holder 125 of the housing unit 110 . The rotary detent 151 includes a detent concave-convex portion 152 and a buffer concavo-convex portion 156 . The detent concavo-convex part 152 and the buffer concavo-convex part 156 are disposed concentrically about the rotational axis of the rotary knob 136 in a ring shape. The detent concavo-convex parts 152 are disposed concentrically around the central axis of rotation of the rotary knob 136 so that the pair are spaced apart from each other, and the buffer concavo-convex part 156 is disposed between the pair of detent concavo-convex parts 152 .

The detent concavo-convex portion 152 includes a plurality of detent concavo-convex convex portions 153 and a plurality of detent concavo-convex concave portions 154 disposed between the plurality of detent concavo-convex convex portions 153. . The plurality of detent convex convex portions 153 and the plurality of detent concave concave portions 154 are alternately disposed in the direction of rotation of the rotary knob 136 . The convex portion 153 of the detent concave-convex portion is formed in an arcuate protrusion shape gently curved toward the detent stopper 160, and the concave portion 154 of the detent concave-convex portion is gently curved from the convex portion 153 of the detent concave-convex portion. It is made in an arched, sunken shape. Accordingly, the surface of each of the plurality of convex portions 153 of the detent concavo-convex portion and the surface of each of the plurality of concave portions 154 of the plurality of detent concavo-convex portions are formed in a wave shape.

The buffer concavo-convex part 156 is disposed to protrude toward the detent stopper 160 more than the detent convex part 152, and is elastically deformed by the pressing force of the detent stopper 160 when the detent stopper 160 is in close contact with the detent stopper 160. can The buffer concavo-convex portion 156 may be made of a material having elasticity. In addition, the buffer concavo-convex portion 156 may be made of a material different from that of the detent concavo-convex portion 152, for example, a material softer than the detent concavo-convex portion 152.

The buffer concavo-convex portion 156 includes a plurality of buffer concavo-convex portion convex portions 157 and a plurality of buffer concave-convex portion concave portions 158 disposed between the plurality of buffer concavo-convex portion convex portions 157. The buffer convex convex portion 157 protrudes more toward the detent stopper 160 than the detent concave convex portion 153, and the buffer concave concave portion 158 is more detent than the detent concave concave portion 154. It protrudes toward the stopper 160. The plurality of convex portions 157 of the buffer concavo-convex portion and the plurality of concave portions 158 of the buffer concave-convex portion are alternately arranged in the direction of rotation of the rotary knob 136 . The convex portion 157 of the buffer concave-convex portion is formed in an arched protrusion shape gently curved toward the detent stopper 160, and the concave portion 158 of the concave-convex portion is gently arched from the convex portion 157 of the buffer concave-convex portion. It is made in a depressed form. Accordingly, the surface of each of the plurality of convex portions 157 of the buffer concavo-convex portion and the surface of each of the concave portion 158 of the plurality of concavo-convex portions are formed in a wavy shape.

The detent stopper 160 is disposed to be connected to the rotary knob 136 so as to rotate together with the rotary knob 136 . Specifically, the detent stopper 160 is coupled to the rotation block 141 and connected to the rotary knob 136 through the rotation block 141 . When the rotary knob 136 rotates, the detent stopper 160 slides relative to the rotary detent 151 in a state of contact with the rotary knob 136, thereby generating a feeling of manipulation according to the rotation of the rotary knob 136.

The detent stopper 160 protrudes from the detent stopper body 161 toward the rotary detent 151 so that at least a portion thereof can be inserted into the detent stopper body 161 and the detent concave concave portion 154. A detent stopper protrusion 162 is included. The detent stopper body 161 has a leaf spring structure. The detent stopper body 161 is formed of an elastic piece having a predetermined elastic force such as, for example, a metal plate, and the detent stopper protrusion 162 protrudes from the center of the detent stopper body 161 and is bent to form a detent. It may be integrally formed with the stopper body 161.

The detent stopper protrusion 162 has an arcuate protrusion shape that is gently curved toward the rotary detent 151, and at least a portion of the detent stopper protrusion 162 enters between two detent convex convex portions 153 disposed adjacent to each other to form a detent concavo-convex protrusion 162. It can be partially inserted into the sub-concave portion 154.

The detent stopper body 161 includes a stopper body bracket 163 supporting the detent stopper body 161 . The stopper body bracket 163 is coupled to the rotation block fixing part 144 of the rotation block 141 to stably support the detent stopper body 161 .

The detent stopper 160 includes a plurality of detent stopper protrusions 162 as a rotary knob to stably support the rotation block 141 without tilting to one side during rotation of the rotation block 141 in addition to a smooth detenting operation. (136) has a structure that is evenly divided and arranged along the circumference of the central axis of rotation. Although it is shown that two detent stopper protrusions 162 are disposed at an interval of 180 degrees in the drawing, the number of detent stopper protrusions 162 or the arrangement interval may be variously changed.

In this way, the rotary detent mechanism 150 includes a rotary detent 151 in which the detent stopper protrusion 162 is disposed on the housing holder 125 in a state in which the detent stopper 160 is supported by the rotation block 141 By elastically contacting the rotary knob 136, a rotational motion of the rotary knob 136 may be detented to provide a user with a feeling of operation.

A more detailed operation of the rotary detent mechanism 150 will be described with reference to FIG. 7 . In a normal state in which no external force is applied to the rotary knob 136, the detent stopper protrusion 162 of the detent stopper 160 is partially inserted into the concave portion 154 of the detent concave-convex portion of the rotary detent 151, thereby The rotary knob 136 can stably maintain a stopped state. At this time, the convex portion 157 of the shock-absorbing convex part to which the detent stopper protrusion 162 is in close contact is elastically deformed by the pressing force of the detent stopper protrusion 162, and both sides of the detent stopper protrusion 162 have detent concavo-convex portions. Each of the pair of detent concave-convex convex portions 153 located on both sides of the sub-concave portion 154 may come into contact with each other.

In this state, when the user rotates the rotary knob 136, the detent stopper 160 slides relative to the rotary detent 151 in a state of being in contact with the rotary detent 151. At this time, the detent stopper protrusion 162 escapes from the concave portion 154 of the detent concave-convex portion and comes into close contact with the ends of the convex portion 153 of the detent concave-convex portion and the convex portion 157 of the buffer concave-convex portion 157 to form a rotary detent ( 151) is pushed away from it. As the rotary knob 136 further rotates, the detent stopper protrusion 162 escapes from the ends of each of the convex portion 153 of the detent concave-convex portion and the convex portion 157 of the buffer concave-convex portion 157, and then the concave portion 154 of the next detent concave-convex portion. ) enter into

In this way, in the course of relative movement of the detent stopper protrusion 162 with respect to the rotary detent 151, the detent stopper protrusion 162 is a shock-absorbing convex convex portion protruding more than the convex portion 153 of the detent concave-convex portion ( 157) to elastically deform the convex portion 157 of the shock absorber concave-convex portion and come into contact with the convex portion 153 of the detent concave-convex portion. In addition, the detent stopper protrusion 162 contacts the buffer concave-convex concave portion 158 that protrudes more than the detent concave-convex concave portion 154 and elastically deforms the buffer concave-convex concave portion 158 while detent concave-convex portion It comes into contact with part 154. Therefore, the buffer convex portion 156 absorbs the impact of the detent stopper protrusion 162, and when the rotary knob 136 rotates, the impact sound caused by the collision between the detent stopper protrusion 162 and the detent concave convex portion 152 is reduced. occurrence can be prevented or minimized.

Referring back to FIG. 1 , the press switch unit 165 includes a plurality of press switches 166 disposed on a substrate 134 and a plurality of press switches disposed between the rotation block 141 and the plurality of press switches 166. A switch plunger 167 is included.

The plurality of press switches 166 are spaced apart from each other on the substrate 134 so as to be eccentric from the center of the rotary knob 136 . More specifically, the plurality of press switches 166 are evenly divided and disposed along the circumference of the central axis of rotation of the rotary knob 136 . The plurality of press switches 166 are disposed at positions corresponding to each of the plurality of housing base pillars 113 of the housing base 111 . In the drawing, four press switches 166 are shown to be disposed at intervals of 90 degrees along the circumferential direction of the rotary knob 136, but the number or arrangement interval of the press switches 166 may be variously changed. The press switch 166 may have a variety of structures that generate a signal when a pressure greater than a preset magnitude is applied, such as a pressure sensor whose resistance value is changed according to the applied pressure.

The switch plunger 167 is disposed between the rotation block 141 and the press switch 166 to transmit the pressing force applied to the rotation block 141 to the press switch 166 . By using the switch plunger 167, when the rotary knob 136 is directionally operated, the pressing force applied through the rotation block 141 can be concentrated on the press switch 166, so that the pressing force of the rotary knob 136 can be applied to the press switch ( 166) can be transmitted more smoothly. The switch plunger 167 is supported by the middle frame guide 120 of the housing middle frame 117 to stably maintain a vertical position with respect to the press switch 166 .

The press switch unit 165 transmits the pressing force applied to the rotary knob 136 to the press switch 166 through the rotary block 141 and the switch plunger 167, and the press switch 166 generates a pressing force equal to or greater than a preset size. When this is applied, an output signal may be generated by detecting an eccentric press operation or a directional operation of the rotary knob 136 in a manner of generating a signal.

The touch module 170 is disposed inside the rotary knob 136 so that at least a portion of the touch module 170 is exposed to the outside through the knob through-hole 137 of the rotary knob 136 . The touch module 170 is coupled to the upper surface of the housing holder 125 . The touch module 170 may be implemented in various forms, such as a structure capable of recognizing handwriting or touch, or a structure having a display function.

The vibration actuator 172 is disposed inside the housing 110 to generate vibration according to a press operation of the rotary knob 136 . The vibration actuator 172 may be coupled to the housing holder 125 to transfer vibration to the rotary knob 136 . When a user presses the rotary knob 136, the vibration actuator 172 generates vibration and transmits it to the rotary knob 136, thereby providing a user with a feeling of operation. The vibration actuator 172 may be controlled to generate various vibrations according to a press position of the rotary knob 136 and the like. Therefore, the vibration actuator 172 can generate vibrations of various patterns according to a pre-designed program, and can provide various manipulation sensations to the user.

As described above, in the vehicle rotary switch unit 100 according to an embodiment of the present invention, the rotary detent mechanism 150 smoothly detents the rotation of the rotary knob 136, so that when the rotary knob 136 rotates, A stable control feeling can be provided.

In addition, in the rotary detent device 150 according to the present invention, when the rotary knob 136 rotates, the detent stopper protrusion 162 first contacts the buffer concavo-convex portion 156 before contacting the detent concave-convex portion 152, By buffering the impact, impact sound due to collision between the detent concave-convex portion 152 and the detent stopper protrusion 162 may be prevented or minimized. And by minimizing operating noise, product quality and reliability can be improved.

Meanwhile, FIGS. 8 to 12 show various modified examples of the rotary detent of the rotary detent mechanism.

First, the rotary detent 174 shown in FIG. 8 is disposed in the housing holder 125 of the housing unit 110 . The rotary detent 174 includes a detent concave-convex portion 152 and a buffer concavo-convex portion 156 . The detent concavo-convex part 152 and the buffer concavo-convex part 156 are disposed concentrically about the rotational axis of the rotary knob 136 in a ring shape. The buffer convex and convex portions 156 are disposed concentrically about the rotational central axis of the rotary knob 136 so that the pair are spaced apart from each other, and the detent concave and convex portions 152 are disposed between the pair of buffer convex and convex portions 156 . In such a rotary detent 174, when the rotary knob 136 is rotated, the shock-absorbing convex part 156 contacts the detent stopper protrusion 162 before the detent concave-convex part 152, and the detent stopper protrusion 162 It can cushion the shock caused by a collision.

The rotary detent 176 shown in FIG. 9 is disposed in the housing holder 125 of the housing part 110 . The rotary detent 176 includes a detent concave-convex portion 152 and a buffer concavo-convex portion 156 . The detent concave-convex part 152 and the buffer convex-convex part 156 are disposed concentrically around the central axis of rotation of the rotary knob 136 in a ring shape, but the detent concave-convex part 152 is located outside the buffer concave-convex part 156. are placed In such a rotary detent 176, when the rotary knob 136 is rotated, the shock-absorbing convex part 156 contacts the detent stopper protrusion 162 before the detent concave-convex part 152, and the detent stopper protrusion 162 It can cushion the shock caused by a collision.

The rotary detent 178 shown in FIG. 10 is disposed in the housing holder 125 of the housing part 110 . The rotary detent 178 includes a detent concave-convex portion 152 and a buffer concavo-convex portion 156 . The detent concavo-convex part 152 and the buffer convex-convex part 156 are arranged concentrically around the rotational central axis of the rotary knob 136 in a ring shape, but the buffer convex-convex part 156 is located outside the detent concavo-convex part 152. are placed In such a rotary detent 178, when the rotary knob 136 is rotated, the shock-absorbing convex part 156 contacts the detent stopper protrusion 162 before the detent concave-convex part 152, and the detent stopper protrusion 162 It can cushion the shock caused by a collision.

The rotary detent 180 shown in FIG. 11 is disposed in the housing holder 125 of the housing part 110 . The rotary detent 180 includes a detent concave-convex portion 181 and a buffer concavo-convex portion 185 . The detent convex-convex portion 181 includes a plurality of detent convex-convex convex portions 182 and a plurality of detent concave-convex concave portions 183 that are alternately disposed in the rotational direction of the rotary knob 136 . The buffer concavo-convex part 185 is disposed to cover the surface of the detent concavo-convex part 181 . The buffer concavo-convex portion 185 includes a plurality of buffer convex-convex convex portions 186 and a plurality of buffer concave-convex portion concave portions 187 that are alternately disposed in the direction of rotation of the rotary knob 136 . The buffer convex convex portion 186 is disposed to cover the surface of the detent convex convex portion 182 and protrudes toward the detent stopper 160 rather than the detent convex convex portion 182 . The buffer concave concave portion 187 is disposed to cover the surface of the detent concave concave portion 183 and protrudes toward the detent stopper 160 rather than the detent concave concave portion 183 . The buffer concave-convex portion 185 may be made of a material having elasticity so that it can be elastically deformed by the pressing force of the detent stopper 160 when the detent stopper 160 is in close contact with it. In the rotary detent 180, the shock-absorbing convex-convex portion 185 covers the surface of the detent concave-convex portion 181 so that the shock-absorbing concave-convex portion 185 can absorb the impact caused by the collision of the detent stopper protrusion 162. there is.

The rotary detent 190 shown in FIG. 12 is disposed in the housing holder 125 of the housing part 110 . The rotary detent 190 includes a detent concave-convex portion 191 and a buffer concavo-convex portion 194 . The buffer concavo-convex portion 194 has a plurality of buffer concave-convex concave portions 195 spaced apart from each other in the direction of rotation of the rotary knob 136 . The buffer concave concave portion 195 may be made of a material having elasticity so that it can be elastically deformed by the pressing force of the detent stopper protrusion 162 when the detent stopper protrusion 162 of the detent stopper 160 is in close contact. there is. The detent concavo-convex portion 191 includes a plurality of detent concavo-convex convex portions 192 disposed between the plurality of buffer concavo-convex concave portions 195. The convex portion 192 of the detent concave-convex portion protrudes toward the detent stopper 160 rather than the concave portion 195 of the buffer concave-convex portion.

The convex portion 192 of the detent concavo-convex portion is formed in an arcuate protrusion shape gently curved toward the detent stopper 160, and the concave portion 195 of the buffer concavo-convex portion is gently bent from the convex portion 192 of the detent concave-convex portion. It is made in the form of an arcuate depression. Therefore, each surface of the plurality of convex portions 192 of the detent concavo-convex portion and each surface of the plurality of concave portions 195 of the plurality of buffer concavo-convex portions are formed in a wave shape. Therefore, when the rotary knob 136 rotates, the detent stopper protrusion 162 of the detent stopper 160 covers the surfaces of the plurality of convex portions 192 of the detent concavo-convex portion and the plurality of concave portions 195 of the concavo-convex portion of the buffer. It can slide smoothly along.

In the rotary detent 190, when the detent stopper protrusion 162 slides relative to the rotary detent 190 in a state of being in contact with the rotary detent 190, the detent stopper protrusion 162 moves the convex portion 192 of the detent concave-convex portion 192. While riding, it comes into contact with the concave portion 195 of the shock absorber concave-convex portion. Accordingly, the shock caused by the collision of the detent stopper protrusion 162 can be buffered by the concave portion 195 of the buffer concavo-convex portion, thereby minimizing noise caused by a feeling of operation.

In addition to the illustrated embodiments, the rotary detent mechanism may be modified in various other structures.

For example, although the drawing shows that the rotary detent is disposed in the housing holder 125 of the housing 110, the rotary knob 136 and the rotary knob 136 allow the rotary detent to rotate together with the rotary knob 136. It can be arranged to be connected directly or indirectly. In this case, the detent stopper 160 is connected to the housing part 110 .

And in the drawing, the convex portion of the detent convex portion in the form of a gently curved arcuate protrusion of the rotary detent and the concave portion of the concave convex portion of the detent in the form of a gently arched depression from the convex portion of the detent concavo-convex portion alternately Although shown as being arranged, the structure of the detent concavo-convex portion may be variously changed. In addition to the structure in which the buffer concavo-convex convex portion in the form of a gently curved arcuate protrusion and the buffer concave-convex concave portion in the form of a gently arcuate depression from the buffer convex convex portion are alternately arranged, as shown, It can be modified to a variety of other structures.

In addition, although the drawing shows that the detent stopper protrusion 162 of the detent stopper 160 protrudes in an arcuate shape toward the rotary detent, the shape of the detent stopper protrusion may be variously changed.

In addition, the drawing shows that the convex portion of the buffer convex portion protrudes toward the detent stopper 160 rather than the convex portion of the detent concave convex portion, and the concave portion of the buffer concave portion protrudes toward the detent stopper 160 than the concave portion of the detent concave portion. , The convex portion of the buffer concavo-convex portion and the convex portion of the detent concave-convex portion may protrude to the same height. In addition, the concave portion of the buffer concave-convex portion and the concave portion of the detent concave-convex portion may protrude to the same height. In addition, the detent concave-convex portion may have different lengths from each other, and the plurality of detent concave-convex portions constituting the detent concave-convex portion may have different lengths. Each concave portion may have a different length. Similarly, the length of each convex part of the plurality of convex and convex parts constituting the buffer convex-convex part may be different from each other, and the length of each concave part of the plurality of concave-convex part may be different from each other.

Meanwhile, FIG. 13 is an exploded perspective view showing a rotary switch unit for a vehicle according to another embodiment of the present invention, and FIG. 14 shows an encoder rotor and a rotary detent mechanism of the rotary switch unit for a vehicle according to another embodiment of the present invention.

A rotary switch unit 200 for a vehicle according to another embodiment of the present invention includes a housing part 210, a substrate 220, a rotary knob 225, a switch shaft part 227, and a rotary switch part 232. and a rotary detent mechanism 240, a directional switch unit 260, and a push switch unit 254. The rotary switch unit 200 for a vehicle is a switch unit used in a vehicle and can be used to adjust and control various functions of the vehicle, for example, operating states of various vehicle electronic components such as audio, navigation, air conditioner, etc. provided in the vehicle. .

The housing part 210 includes a housing cover 211 , a housing holder 216 , and a housing base 214 . An internal space is formed between the housing cover 211 and the housing base 214 . The housing cover 211 is combined with the housing base 214 to cover the upper side of the housing base 214 . A housing cover through-hole 212 is formed on one surface of the housing cover 211 . One end of the switch shaft portion 227 may be exposed to the outside through the housing cover through-hole 212 . The housing base 214 may support the detent stopper 250 to be described later so as not to move.

The housing holder 216 may be disposed between the housing cover 211 and the housing base 214 to support the substrate 220 together with the housing base 214 . A housing holder through-hole 217 into which the switch shaft portion 227 is inserted is provided at the center of the housing holder 216 .

The substrate 220 is disposed inside the housing part 210 . Various electrical devices may be disposed on the substrate 220 . These electrical elements may be connected through board wiring formed on the board 220 or electrically connected through a flexible board or a separate component such as a cable. Electrical devices may be disposed on both sides of the substrate 220 .

A substrate through-hole 221 may be formed in the center of the substrate 220 , and the switch shaft portion 227 may be disposed to pass through the substrate 220 through the substrate through-hole 221 . A board connector 223 is provided at one end of the board 220 . Through the board connector 223 , an external electric device, for example, an external electric device such as a controller may be electrically connected to the board 220 .

The rotary knob 225 is movably disposed on the upper side of the housing part 210 so that it can be manipulated by a user. The rotary knob 225 is capable of rotational manipulation, tilting directional manipulation, and push manipulation. The rotary knob 225 is disposed on the upper side of the housing part 210 and is connected to the switch shaft part 227 .

The switch shaft part 227 has one end accommodated in the housing part 210 and the other end connected to the rotary knob 225 . The switch shaft portion 227 includes a switch shaft body 228 and a switch shaft hinge 229 . The switch shaft body 228 may be made of a rod type having a predetermined length. A rotary knob 225 is coupled to an end of the switch shaft body 228. The switch shaft hinge 229 is disposed at an end of the switch shaft body 228 and accommodated inside the housing 210 .

The switch shaft hinge 229 can be spherical as shown, or other shapes. The switch shaft hinge 229 may form the center of an axial rotation or tilting operation of the switch shaft unit 227 . The switch shaft hinge 229 is disposed in a space formed inside the encoder rotor 233 of the rotary switch unit 232 . The switch shaft hinge 229 includes a shaft hinge guide 230 and is connected to the encoder rotor 233 through the shaft hinge guide 230 to rotate together with the encoder rotor 233 .

The switch shaft unit 227 performs complex operations such as an axial rotation operation together with the rotary knob 225, a tilting directional operation centered on the switch shaft hinge 229 by a horizontal pressing force, and a push operation moving downward. this is possible

The rotary switch unit 232 may detect shaft rotation of the switch shaft unit 227, generate an output signal according to the rotation, and transmit the output signal to an external device such as a control unit. The rotary switch unit 232 includes an encoder rotor 233 and a rotary switch 237 supported on the substrate 220 to detect rotation of the encoder rotor 233 .

The encoder rotor 233 is disposed on the lower side of the substrate 220 . The encoder rotor 233 includes a plurality of encoder rotor slits 234 spaced apart from each other in the direction of rotation of the switch shaft unit 227 . The encoder rotor 233 may have a structure capable of accommodating at least a portion of the switch shaft hinge 229 . An encoder rotor accommodating guide 235 is provided inside the encoder rotor 233 . The encoder rotor accommodating guide 235 can be engaged with the shaft hinge guide 230 of the switch shaft hinge 229 . That is, the switch shaft unit 227 and the encoder rotor 233 may be engaged to prevent relative axial rotation through the shaft hinge guide 230 and the encoder rotor accommodating guide 235 . The switch shaft portion 227 can move relative to the encoder rotor 233 in the axial direction and along the axial direction of the side switch shaft body 228 .

The rotary switch 237 detects movement of the encoder rotor slit 234 when the encoder rotor 233 rotates and generates a signal. The rotary switch 237 may be disposed on the lower surface of the board 220 to sense the motion of the encoder rotor 233 . The rotary switch 237 may take a structure supported directly or indirectly by the housing part 210 in addition to the substrate 220 .

The rotary detent mechanism 240 generates a manipulation feeling according to the rotation of the rotary knob 225 . The rotary detent mechanism 240 includes a rotary detent 241 and a detent stopper 250 .

The rotary detent 241 is connected to the rotary knob 225 and disposed to rotate together with the rotary knob 225 . Specifically, the rotary detent 241 is disposed on the outer surface of the encoder rotor 233 connected to the rotary knob 225 and rotating together with the rotary knob 225 . The rotary detent 241 includes a detent concave-convex portion 242 and a buffer concavo-convex portion 246 . The detent concavo-convex part 242 and the buffer concavo-convex part 246 are disposed concentrically about the rotational axis of the rotary knob 225 in a ring shape. The pair of detent convex-convex portions 242 are disposed to be spaced apart from each other in the direction of the rotational center axis of the rotary knob 225, and the buffer concavo-convex portion 246 is disposed between the pair of detent concavo-convex portions 242.

The detent concavo-convex portion 242 includes a plurality of detent concavo-convex convex portions 243 and a plurality of detent concavo-convex concave portions 244 disposed between the plurality of detent concavo-convex convex portions 243. . The plurality of convex portions 243 of the detent concavo-convex portion and the plurality of concave portions 244 of the detent concavo-convex portion are alternately arranged in the direction of rotation of the rotary knob 225 . The convex portion 243 of the detent concave-convex portion is formed in an arcuate protrusion shape gently curved toward the detent stopper 250, and the concave portion 244 of the detent concave-convex portion is gently curved from the convex portion 243 of the detent concave-convex portion. It is made in an arched, sunken shape. Accordingly, the surface of each of the plurality of convex portions 243 of the detent concavo-convex portion and the surface of each of the concave portion 244 of the plurality of detent concavo-convex portions are formed in a wave shape.

The buffer concavo-convex part 246 is disposed to protrude toward the detent stopper 250 more than the detent convex part 242, and is elastically deformed by the pressing force of the detent stopper 250 when the detent stopper 250 is in close contact with the detent stopper 250. can The buffer concavo-convex portion 246 may be made of a material having elasticity. The buffer concavo-convex portion 246 includes a plurality of buffer concavo-convex portion convex portions 247 and a plurality of buffer concave-convex portion concave portions 248 disposed between the plurality of buffer concavo-convex portion convex portions 247. The buffer convex convex portion 247 protrudes more toward the detent stopper 250 than the detent concave convex portion 243, and the buffer concave concave portion 248 is more detent than the detent concave concave portion 244. It protrudes toward the stopper 250. The plurality of convex portions 247 of the buffer concavo-convex portions and the plurality of concave portions 248 of the buffer concavo-convex portions are alternately disposed in the direction of rotation of the rotary knob 225 . The convex portion 247 of the buffer concave-convex portion is formed in an arched protrusion shape gently curved toward the detent stopper 250, and the concave portion 248 of the concave-convex portion is gently arched from the convex portion 247 of the buffer concave-convex portion. It is made in a depressed form. Accordingly, the surface of each of the plurality of convex portions 247 of the buffer concavo-convex portion and the surface of each of the concave portion 248 of the plurality of concavo-convex portion are formed in a wave shape.

The detent stopper 250 is disposed to be connected to the housing part 210 . Specifically, the detent stopper 250 is fixed to the housing base 214 of the housing part 210 . When the rotary knob 225 rotates, the detent stopper 250 slides relative to the rotary detent 241 in a state of contact with the rotary knob 225 , thereby generating a feeling of manipulation according to the rotation of the rotary knob 225 .

The detent stopper 250 protrudes from the detent stopper body 251 toward the rotary detent 241 so that at least a portion thereof can be inserted into the detent stopper body 251 and the detent concave concave portion 244. A detent stopper protrusion 252 is included. The detent stopper body 251 has a leaf spring structure. The detent stopper body 251 is formed of an elastic piece having a predetermined elastic force such as, for example, a metal plate, and the detent stopper protrusion 252 protrudes from the center of the detent stopper body 251 and is bent to form a detent. It may be integrally formed with the stopper body 251.

The detent stopper protrusion 252 has an arcuate protrusion shape gently curved toward the rotary detent 241, and at least a portion of the detent stopper protrusion 252 enters between two detent convex convex portions 243 disposed adjacent to each other to form a detent concavo-convex protrusion 252. It can be inserted into the minor concave portion 244 .

In order to stably support the encoder rotor 233 without tilting to one side when the encoder rotor 233 rotates, in addition to smooth detenting operation, a plurality of detent stoppers 250 are provided on the central axis of rotation of the encoder rotor 233. It can be evenly divided and arranged along the circumference. Although it is shown that two detent stoppers 250 are disposed at an interval of 180 degrees in the drawing, the number of detent stoppers 250 or the interval between arrangements may be variously changed.

In the rotary detent mechanism 240, the detent stopper protrusion 252 of the detent stopper 250 elastically contacts the rotary detent 241 disposed on the encoder rotor 233, thereby causing rotation of the rotary knob 225. It is possible to provide a user with a sense of manipulation by detenting the motion. In addition, in the course of relative movement of the detent stopper protrusion 252 relative to the rotary detent 241, the damping convex-convex portion 246 contacts the detent stopper protrusion 252 before the detent concave-convex portion 242, thereby removing the detent. The shock caused by the collision of the stopper protrusion 252 is buffered. Therefore, when the rotary knob 225 rotates, the generation of a hitting sound due to a collision between the detent stopper protrusion 252 and the detent concave-convex portion 242 may be prevented or minimized.

The push switch unit 254 includes a push holder 255, a push switch 257, and a push return unit 259. At least a part of the push holder 255 is disposed on the lower side of the substrate 220 and comes into contact with the switch shaft hinge 229 of the switch shaft portion 227 so that the switch shaft portion 227 is vertically movable together. It can be. The push switch 257 is disposed on the lower surface of the substrate 220 and can generate a changed signal when the position of the push holder 255 is changed in the vertical direction. The push return unit 259 is disposed under the push holder 255 to elastically support the push holder 255 .

The push switch unit 254 may be changed to a variety of other structures capable of generating an output signal by detecting a pushing operation of the switch shaft unit 227 in addition to the illustrated structure.

The directional switch unit 260 includes a directional slide unit 261 , a directional switch 263 , and a directional return unit 265 . The directional slide unit 261 may be moved within the housing unit 210 by a tilting directional operation of the switch shaft unit 227 . The directional switch 263 is disposed on the substrate 220 and is operated by changing the position of the directional slide unit 261 to generate a changed signal. The directional return unit 265 serves to return the directional slide unit 261 and the switch shaft unit 227 to their original positions.

The directional switch unit 260 may be changed to a variety of other structures capable of generating an output signal by sensing a directional operation of the switch shaft unit 227 in addition to the illustrated structure.

Although the drawing shows that the rotary detent 241 is disposed on the encoder rotor 233 and is indirectly connected to the rotary knob 225 so as to rotate together with the rotary knob 225, the rotary detent 241 is It can be placed directly on the knob 225. Also, the rotary detent may be disposed to be directly or indirectly connected to the housing part 210 . In this case, the detent stopper 250 is disposed to be directly or indirectly connected to the rotary knob 225 so as to rotate together with the rotary knob 225 .

In the above, the present invention has been shown and described in relation to preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the configuration and operation as shown and described. Rather, it will be appreciated by those skilled in the art that many changes and modifications may be made to the present invention without departing from the spirit and scope of the appended claims.

100, 200: vehicle rotary switch unit
110, 210: housing part 111, 214: housing base
114, 211: housing cover 117: housing middle frame
120: middle frame guide 125, 216: housing holder
134, 220: substrate 136: rotary knob
140, 232: rotary switch unit 141: rotation block
146, 233: encoder rotor 150, 240: rotary detent mechanism
151, 174, 176, 178, 180, 190, 241: rotary detent
160, 250: detent stopper 165: press switch unit
227: switch shaft part 254: push switch part
260: directional switch unit

Claims (14)

delete A rotary detent mechanism of a rotary knob for generating an operating feeling according to rotation of a rotary knob rotatably disposed in a housing unit, comprising: a rotary detent disposed in one of the housing unit and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion, in which convex portions of the detent convex-convex portion and concave portions of the detent concave-convex portion are alternately disposed in the direction of rotation of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave portions of the concave-convex portion are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concave-convex portion. It includes a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion,
The convex part of the buffer convex part protrudes more toward the detent stopper than the convex part of the detent concave and convex part, and the concave part of the buffer concave part protrudes more toward the detent stopper than the concave part of the detent concave and convex part. Rotary detent mechanism.
A rotary detent mechanism of a rotary knob for generating an operating feeling according to rotation of a rotary knob rotatably disposed in a housing unit, comprising: a rotary detent disposed in one of the housing unit and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion, in which convex portions of the detent convex-convex portion and concave portions of the detent concave-convex portion are alternately disposed in the direction of rotation of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave portions of the buffer concave-convex portion are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concave-convex portion. It includes a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion,
The rotary detent mechanism of the rotary knob, characterized in that a plurality of detent convex and convex portions are disposed concentrically around a rotational central axis of the rotary knob, and the buffer concavo-convex portion is disposed between the plurality of detent concave and convex portions.
A rotary detent mechanism of a rotary knob for generating an operating feeling according to rotation of a rotary knob rotatably disposed in a housing unit, comprising: a rotary detent disposed in one of the housing unit and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion, in which convex portions of the detent convex-convex portion and concave portions of the detent concave-convex portion are alternately disposed in the direction of rotation of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave portions of the concave-convex portion are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concave-convex portion. It includes a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion,
The rotary detent mechanism of the rotary knob, characterized in that the plurality of buffer convex and convex portions are concentrically arranged about the rotational central axis of the rotary knob, and the detent concave and convex portions are disposed between the plurality of buffer convex and convex portions.
According to claim 2,
The rotary detent mechanism of the rotary knob, characterized in that the detent concavo-convex part and the buffer convex-convex part are disposed concentrically about the rotational central axis of the rotary knob, and the detent concavo-convex part is disposed outside the buffer concavo-convex part.
According to claim 2,
The rotary detent mechanism of the rotary knob, characterized in that the detent concavo-convex part and the buffer convex-convex part are disposed concentrically around the rotational central axis of the rotary knob, and the buffer concavo-convex part is disposed outside the detent concavo-convex part.
According to claim 2,
The rotary detent mechanism of the rotary knob, characterized in that the buffer concavo-convex part is disposed to cover the surface of the detent concave-convex part.
A rotary detent mechanism of a rotary knob for generating an operating feeling according to the rotation of a rotary knob rotatably disposed in a housing unit, comprising: a rotary detent disposed in one of the housing unit and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion in which convex portions and concave portions of the detent concave-convex portion are alternately disposed in the rotational direction of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave portions of the buffer concave-convex portion are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concave-convex portion. It includes a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion,
The rotary detent mechanism of the rotary knob, characterized in that the rotary detent is connected to the housing, and the detent stopper is disposed to be connected to the rotary knob so as to rotate together with the rotary knob.
A rotary detent mechanism of a rotary knob for generating an operating feeling according to rotation of a rotary knob rotatably disposed in a housing unit, comprising: a rotary detent disposed in one of the housing unit and the rotary knob; and a detent stopper disposed on the other one of the housing part and the rotary knob to contact the rotary detent and generate a feeling of manipulation according to the rotation of the rotary knob, wherein the rotary detent includes the detent stopper A detent convex-convex portion, in which convex portions of the detent convex-convex portion and concave portions of the detent concave-convex portion are alternately disposed in the direction of rotation of the rotary knob, and a convex portion of the buffer concave-convex portion that can be elastically deformed by the pressing force of the detent stopper and buffer concavo-convex portions in which concave portions of the concave-convex portion are alternately disposed in a direction of rotation of the rotary knob, and the detent stopper protrudes toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concave-convex portion. It includes a detent stopper protrusion and a detent stopper body supporting the detent stopper protrusion,
The rotary detent mechanism of the rotary knob, characterized in that the rotary detent is connected to the rotary knob and arranged to rotate together with the rotary knob, and the detent stopper is connected to the housing part.
delete delete delete housing part; a rotary knob rotatably disposed on the housing portion such that at least a portion thereof is exposed to the outside of the housing portion; a rotary switch unit disposed in the housing unit to generate an output signal according to rotation of the rotary knob; and a rotary detent disposed on one of the housing part and the rotary knob, and disposed on the other one of the housing part and the rotary knob to contact the rotary detent to generate a feeling of operation according to rotation of the rotary knob. and a rotary detent mechanism including a detent stopper, wherein the rotary detent has a convex portion of the detent convex portion and a concave portion of the detent concave convex portion to which the detent stopper can contact in a direction of rotation of the rotary knob. Detent concavo-convex portions alternately disposed, and buffer concavo-convex portions in which a convex portion of the buffer convex portion and a concave portion of the buffer concave portion elastically deformable by a pressing force of the detent stopper are alternately disposed in a rotational direction of the rotary knob, the detent The stopper includes a detent stopper protrusion protruding toward the rotary detent so that at least a portion thereof can be inserted into the concave portion of the detent concavo-convex part, and a detent stopper body supporting the detent stopper protrusion;
The rotary switch unit is connected to the rotary knob so as to rotate together with the rotary knob, is rotatably disposed inside the housing unit, and has an encoder rotor provided with a plurality of encoder rotor slits spaced apart from each other in the direction of rotation of the rotary knob. and a rotary switch disposed inside the housing to detect movement of the encoder rotor slit when the encoder rotor rotates, wherein the rotary detent rotates together with the encoder rotor. and wherein the detent stopper is connected to the housing.
delete

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