JPWO2017208658A1 - Operation device - Google Patents

Abstract

The operation device is disposed at an air outlet of an air conditioner mounted on a vehicle, and adjusts the direction of the wind blown from the air outlet, the casing (21), and the casing. An operation unit (22) that receives an operation for projecting from the body and controlling the wind direction adjusting mechanism, a display unit (23) that is arranged on the housing and displays the direction of the wind blown from the air outlet, Is provided. The operation unit and the display unit are provided at different positions from the air outlet in the vehicle.

Description

Cross-reference to related applications

  This application is based on Japanese Patent Application No. 2016-112054 filed on June 3, 2016, the description of which is incorporated herein by reference.

  The present disclosure relates to an operating device.

  2. Description of the Related Art Conventionally, there is an apparatus in which adjustments such as opening / closing of an air outlet of a vehicle air conditioner, a blowing direction of wind, and concentrated diffusion of wind are manually performed. For example, Patent Document 1 describes that a plurality of louvers rotate left and right by rotating an operation element provided so as to protrude forward from a louver provided at an air outlet. ing.

  On the other hand, Patent Document 2 discloses an air conditioner in which an air outlet is provided at a position away from the occupant, such as near the windshield, and it is difficult for the occupant to visually recognize the louver of the air outlet.

JP-A-6-191264 JP, 2014-210564, A

  If the occupant can visually recognize the direction of the louver provided at the air outlet as in the apparatus described in Patent Document 1, the occupant can recognize in which direction the wind is blown from the air outlet. it can.

  However, according to the study of the present inventor, in the case where it is difficult for the occupant to visually recognize the louver of the air outlet, as in the device described in Patent Document 2, the occupant blows out from the air outlet in which direction It is not possible to recognize what is being done.

  An object of the present disclosure is to enable an occupant to recognize a wind direction of a wind blown out from an air outlet even if the louver of the air outlet is not visible.

  According to one aspect of the present disclosure, the operation device is disposed at the air outlet of the air conditioner mounted on the vehicle, and adjusts the direction of the wind blown from the air outlet, the housing, and the housing. An operation unit that receives an operation for projecting from the body and controlling the wind direction adjusting mechanism, and a display unit that is disposed in the housing and displays the direction of the wind blown from the air outlet. The operation unit and the display unit are configured to be provided at different positions from the air outlet in the vehicle.

  As described above, the operation device includes an operation unit that receives an operation for projecting from the housing and controlling the wind direction adjusting mechanism, and a display unit that is disposed on the housing and displays the direction of the wind blown from the air outlet. Prepare. And since the operation part and the display part are comprised so that it may be provided in the position different from the blower outlet in a vehicle, even if a passenger | crew cannot visually recognize the louver of a blower outlet, it recognizes the wind direction of the wind blown off from a blower outlet. Can do.

  According to another aspect of the present disclosure, the operation device is disposed at an air outlet of an air conditioner mounted on a vehicle, and controls a wind direction adjusting mechanism that adjusts the direction of the wind blown from the air outlet, and the wind direction adjusting mechanism. In response to an operation to perform the operation, the stick-type operation unit that tilts in the operated direction and holds the tilted state, detects the direction in which the stick-type operation unit tilts, and outputs a signal indicating the tilted direction. A signal output unit.

  According to still another aspect of the present disclosure, an operation device includes a wind direction adjusting mechanism that is disposed at an air outlet of an air conditioner mounted on a vehicle, and that adjusts a direction of wind blown from the air outlet, and a wind direction adjusting mechanism. A stick-type operation unit that translates in the operated direction according to an operation for control and that maintains the translated state, and detects a direction in which the stick-type operation unit has moved, and represents the moved direction A signal output unit for outputting a signal.

  According to such a structure, the passenger | crew can recognize the wind direction of the wind blown off from a blower outlet, even if it cannot visually recognize the louver of a blower outlet.

It is a block diagram showing a schematic structure of a vehicle air-conditioning system using an operation device concerning a 1st embodiment. It is an external appearance perspective view of the vehicle interior of the vehicle carrying the vehicle air conditioning system using the operation device of 1st Embodiment. It is a front view of the operation device of a 1st embodiment. FIG. 4 is a sectional view taken along line IV-IV in FIG. 3. It is a circuit diagram of the signal output part of the operation device of 1st Embodiment. It is a front view of the operation device of 2nd Embodiment. It is sectional drawing along the VII-VII line in FIG. It is a block diagram of the operation device of 2nd Embodiment. It is a front view of the operation device which concerns on 3rd Embodiment. It is sectional drawing along the XX line in FIG. It is a front view of the operation device of 4th Embodiment. It is sectional drawing along the XII-XII line | wire in FIG.

  Hereinafter, embodiments of the present disclosure will be described with reference to the drawings. In the following embodiments, the same or equivalent parts are denoted by the same reference numerals in the drawings.

(First embodiment)
The operation device according to the first embodiment will be described with reference to FIGS.

  As shown in FIG. 1, the vehicle air conditioning system 100 includes an air conditioner 1 and an operation device 2. As shown in FIG. 2, the air conditioner 1 is an apparatus that performs adjustment related to the wind blown out from the air outlet 4 provided in the vehicle. In this embodiment, the blower outlet 4 is each provided in the vehicle width direction right side and the vehicle width direction left side of the instrument panel 5 of a vehicle. The blower outlet 4 of this embodiment is formed so that it may each extend in the vehicle width direction of a vehicle.

  The blower outlet 4 is provided with a horizontal louver 14 and a vertical louver 16 for adjusting the direction of the wind blown from the blower outlet 4. The horizontal louver 14 and the vertical louver 16 are air guide members that adjust the direction of the wind blown from the air outlet 4. The horizontal louver 14 and the vertical louver 16 have long plates 14a and 16a, respectively, which are plate-like members for adjusting the direction of the wind. In this vehicle, it is assumed that the long plate 14a of the horizontal louver 14 and the long plate 16a of the vertical louver 16 provided at each air outlet 4 cannot be visually recognized from the passenger seated in the front seat of the vehicle. Therefore, the occupant cannot recognize the direction of the wind blown from the outlet 4 from the state of the long plate 14 a of the horizontal louver 14 and the long plate 16 a of the vertical louver 16.

  The operation device 2 receives an operation for adjusting the wind direction of the wind blown from the outlet 4, and outputs a signal corresponding to this operation. This operation is also an operation for controlling the wind direction adjusting mechanisms 14 to 17 described later. The operation device 2 is provided at a position where it can be seen by an occupant seated in the front seat of the vehicle and can be operated by the occupant's hand. As an example, as shown in FIG. 2, the operation device 2 is arranged at the center in the vehicle width direction of the dashboard of the vehicle so that a driver seated in the driver's seat and a passenger seated in the passenger seat can operate each. One is provided for each of the driver seat and the passenger seat.

  Next, the configuration of the operation device 2 will be described with reference to FIGS. In addition, the arrow which shows the up-down, left-right, and front-back in FIG. 3, FIG. 4 has shown the up-down direction, the left-right direction, and the front-back direction at the time of vehicle mounting.

  As illustrated in FIG. 3, the operation device 2 includes a housing 21, an operation unit 22, and an indicator 23. The casing 21 and the operation unit 22 are each configured using a resin.

  The casing 21 has a cylindrical shape, and has an inner peripheral surface 221 having a semicircular cross section on one end side in the longitudinal direction of the casing 21. The inner peripheral surface 221 is formed so as to be recessed inside the housing 21. In the center of the inner peripheral surface 221, an opening for inserting the operation unit 22 is formed. The operation unit 22 is inserted through this opening. The casing 21 is provided such that its axis CL is parallel to the longitudinal direction of the vehicle.

  The operation unit 22 of the present embodiment is configured as a stick-type operation unit 220 having a bar shape. A hemispherical base end portion 22 a is formed on one end side in the longitudinal direction of the stick type operation unit 220. The base end portion 22a is accommodated in the housing 21 as shown in FIG. Further, the other end side of the stick type operation unit 220 protrudes from the inner peripheral surface 221 of the housing 21 toward the vehicle interior. At the default position, the stick-type operation unit 220 has an axis that coincides with the axis of the casing 21, and can be tilted toward all directions of the casing 21. The stick type operation unit 220 automatically returns to the default position by a spring return mechanism (not shown).

  The indicator 23 displays the direction of the wind blown from the outlet 4 and corresponds to a display unit. Moreover, the indicator 23 and the stick type operation part 220 are provided in a position different from the air outlet 4 in the vehicle. Specifically, the indicator 23 and the stick-type operation unit 220 are provided on the dash panel on the passenger side with respect to the air outlet 4. The indicator 23 is disposed on the inner peripheral surface 221 of the housing 21 so as to surround the stick-type operation unit 220. Therefore, the indicator 23 is provided integrally with the housing 21. The indicator 23 may be provided integrally with the stick type operation unit 220.

  The indicator 23 has light emitting portions 231a, 232a,..., 238a arranged in eight directions of up and down, left and right and four oblique directions. Moreover, the indicator 23 has the light emission parts 231b, 232b, ..., 238b arrange | positioned on the outer side of the light emission parts 231a, 232a, ..., 238a in eight directions of up and down, right and left, and four diagonal directions. Further, the indicator 23 has light emitting portions 231c, 232c,..., 238c arranged in eight directions of up and down, right and left and four oblique directions outside the light emitting portions 231b, 232b,.

  That is, the indicator 23 of the present embodiment has a total of 24 light emitting units 231a to 238a, 231b to 238b, and 231c to 238c arranged in triplicate with respect to up and down, left and right, and eight diagonal directions. Each light emission part 231a-238a, 231b-238b, 231c-238c is connected with air-conditioner ECU11, and is lighted or extinguished according to the signal from air-conditioner ECU11. In addition, the light emission parts 231a-238a, 231b-238b, 231c-238c can be comprised using LED, for example.

  The signal output unit 25 outputs a signal indicating the direction in which the stick type operation unit 220 is tilted. The signal output unit 25 has a circuit board 25 a fixed to the housing 21. As shown in FIG. 5, the signal output unit 25 includes one movable contact C0 and eight fixed contacts C1 to C8. The movable contact C0 is formed on the stick type operation unit 220 and is grounded. The fixed contacts C1 to C8 are formed on the circuit board 25a. The fixed contacts C1 to C8 are each pulled up to a power supply terminal of the air conditioner ECU 11 via a resistor (not shown) provided inside the air conditioner ECU 11.

  When the stick-type operation unit 220 is in the default position, the movable contact C0 and the fixed contacts C1 to C8 are opened, and the potentials of the fixed contacts C1 to C8 are at a high level.

  When the stick type operation unit 220 is inclined upward, the fixed contact C1 and the movable contact C0 are short-circuited. When the stick-type operation unit 220 is tilted obliquely upward to the right, the fixed contact C2 and the movable contact C0 are short-circuited. When the stick type operation unit 220 is tilted to the right, the fixed contact C3 and the movable contact C0 are short-circuited. When the stick-type operation unit 220 is tilted diagonally to the right, the fixed contact C4 and the movable contact C0 are short-circuited.

  When the stick type operation unit 220 is inclined downward, the fixed contact C5 and the movable contact C0 are short-circuited. When the stick-type operation unit 220 is tilted diagonally to the left, the fixed contact C6 and the movable contact C0 are short-circuited. When the stick type operation unit 220 is tilted to the left, the fixed contact C7 and the movable contact C0 are short-circuited. When the stick type operation unit 220 is tilted obliquely upward to the left, the fixed contact C8 and the movable contact C0 are short-circuited.

  Therefore, for example, when the stick-type operation unit 220 is tilted upward and the fixed contact C1 and the movable contact C0 are short-circuited, the potential of the fixed contact C1 becomes a low level. As a result, the potentials of the fixed contacts C2 to C8 are each at a high level.

  Further, when the stick type operation unit 220 is tilted obliquely upward to the right and the fixed contact C2 and the movable contact C0 are short-circuited, the potential of the fixed contact C2 becomes a low level. As a result, the potentials of the fixed contacts C1, C3 to C8 are each at a high level.

  As described above, the signal output unit 25 outputs a signal indicating the direction in which the stick type operation unit 220 is tilted to the air conditioner ECU 11 that controls the wind direction adjusting mechanisms 14 to 17. The wind direction adjusting mechanisms 14 to 17 are configured to be remotely controlled by operating the stick type operation unit 220.

  Next, the configuration of the air conditioner shown in FIG. 1 will be described. The air conditioner 1 includes an air conditioner ECU 11, a horizontal louver 14, a horizontal louver motor 15, a vertical louver 16, and a vertical louver motor 17. The horizontal louver 14, the horizontal louver motor 15, the vertical louver 16 and the vertical louver motor 17 are arranged at the air outlet 4 of the air conditioner mounted on the vehicle, and adjust the direction of the wind blown from the air outlet 4. Corresponds to the adjustment mechanism.

  The lateral louver 14 is provided on the upstream side of the air flow path from the air outlet 4 and inside the air outlet 4. The lateral louver 14 includes a plurality of long plates 14a arranged so as to extend in the longitudinal direction of the air outlet 4, that is, in the vehicle width direction of the vehicle. The plurality of long plates 14 a are arranged at intervals in the short direction of the air outlet 4. Each long plate 14a of the horizontal louver 14 is disposed so as to be rotatable about a shaft extending in the longitudinal direction of the outlet 4.

  The lateral louver motor 15 is a motor for driving the shaft of each long plate 15 a of the lateral louver 14, and drives the shaft of each long plate 14 a of the lateral louver 14. The lateral louver motor 15 corresponds to a drive unit.

  The vertical louver 16 is provided upstream of the air outlet 4 in the wind flow path and inside the air outlet 4. The vertical louver 16 includes a plurality of long plates 16 a arranged so as to extend in the short direction of the air outlet 4. The plurality of long plates 16 a are arranged at intervals in the longitudinal direction of the air outlet 4. Each long plate 16 a of the vertical louver 16 is disposed so as to be rotatable around a shaft extending in the short direction of the blowout port 4.

  The vertical louver motor 17 is a motor for driving the shaft of each long plate 16 a of the vertical louver 16, and drives the shaft of each long plate 16 a of the vertical louver 16. The vertical louver motor 17 corresponds to a drive unit.

  The air conditioner ECU 11 is configured as a computer that includes a CPU, a memory such as a ROM and a RAM, an I / O, and the like, and the CPU performs various processes related to air conditioning in accordance with a program stored in the ROM. The air conditioner ECU 11 performs, for example, adjustment of the wind direction of the air blown from the air outlet 4 and display control of the indicator 23 based on a signal output from the operation device 2. Memory such as ROM and RAM is a non-transitional tangible storage medium. The air conditioner ECU 11 corresponds to a control unit.

  The air conditioner ECU 11 determines the tilt direction of the stick type operation unit 220 from the signal input from the signal output unit 25, and adjusts the wind direction according to the determined tilt direction of the stick type operation unit 220. The adjustment of the wind direction is not limited to the four directions of up, down, left, and right, but by controlling both the horizontal louver motor 15 and the vertical louver motor 17, the upper right diagonal, the lower right diagonal, the lower left diagonal, the upper left diagonal There may be four directions.

  Next, the operation of the operation device 2 will be described.

  First, when the stick type operation unit 220 is in the default position, the air conditioner ECU 11 determines that the stick type operation unit 220 is in the default position based on the signal output from the signal output unit 25.

  The air conditioner ECU 11 controls the lateral louver motor 15 and the longitudinal louver motor 17 so that the wind from the air outlet 4 is blown straight out into the vehicle interior, and the length of the long plate 14 a and the longitudinal louver 16 of the lateral louver 14. The direction of the plate 16a is uniformly rotated. Thereby, the wind from the blower outlet 4 is blown out straight.

  Moreover, air-conditioner ECU11 makes all the light emission parts 231a-238a, 231b-238b, 231c-238c of the indicator 23 light-extinguish so that it may display that the wind from the blower outlet 4 is blowing straight. Therefore, the passenger can recognize from the state of the indicator 23 that the wind from the outlet 4 is blown out straight.

  Next, it is assumed that the stick type operation unit 220 is tilted once in the upward direction of the host vehicle. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle, and each length of the lateral louver 14 is controlled. The plate 14a is uniformly rotated. Thereby, it adjusts so that the direction of a wind may face the upper direction of the own vehicle by 1 step | paragraph.

  In addition, the air conditioner ECU 11 turns on the light emitting unit 231a of the indicator 23 and turns off the light emitting units other than the light emitting unit 231a so as to display that the direction of the wind blown from the outlet 4 is one level upward. Let

  Next, it is assumed that the stick type operation unit 220 is further tilted once in the upward direction of the host vehicle. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed in two stages and upwards of the own vehicle. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  In addition, the air conditioner ECU 11 turns on the light emitting unit 231b of the indicator 23 and turns off the light emitting units other than the light emitting unit 231b so as to display that the direction of the wind blown from the air outlet 4 is in two stages upward. Let

  Next, it is assumed that the stick type operation unit 220 is further tilted once in the upward direction of the host vehicle. Based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle in three stages, and each long plate 14a of the lateral louver 14 is Rotate uniformly. Thereby, the direction of the wind is adjusted in three stages so as to face the upward direction of the vehicle.

  In addition, the air conditioner ECU 11 turns on the light emitting unit 231c of the indicator 23 and turns off the light emitting units other than the light emitting unit 231c so as to display that the direction of the wind blown from the outlet 4 is upward in three stages. Let

  On the contrary, it is assumed that the stick-type operation unit 220 is tilted once in the downward direction of the host vehicle. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is one step higher than before and the downward direction of the own vehicle. Each long plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  In addition, the air conditioner ECU 11 turns on the light emitting unit 231b of the indicator 23 and turns off the light emitting units other than the light emitting unit 231b so as to display that the direction of the wind blown from the air outlet 4 is in two stages upward. Let

  Here, the case where the stick type operation unit 220 is tilted upward and downward of the own vehicle has been described. However, even when the stick-type operation unit 220 is tilted in the right direction, left direction, or diagonal direction of the own vehicle, the direction of the wind blown from the outlet 4 and the display by the indicator 23 are similarly performed.

  As described above, the operation device 2 includes the indicator 23 that is disposed in the housing 21 and displays the direction of the wind blown out from the air outlet 4. And the operation part 22 and the indicator 23 are comprised so that it may be provided in the position different from the blower outlet 4 in a vehicle. Therefore, even if the occupant cannot visually recognize the louver of the air outlet 4, the occupant can recognize the wind direction blown out from the air outlet. Further, since the indicator 23 is arranged on the casing 21 from which the operation unit protrudes, space can be saved as compared with the case where the operation unit and the display unit are provided separately. Moreover, since the indicator 23 is arrange | positioned at the housing | casing 21 which an operation part protrudes, operation of an operation part and confirmation of the direction of the wind which blows off from a blower outlet can be performed, without moving a visual line.

  The wind direction adjusting mechanisms 14 to 17 are provided by a horizontal louver 14 and a vertical louver 16 disposed at the outlet 4, and a horizontal louver motor 15 and a vertical louver motor 17 that adjust the inclination of the horizontal louver 14 and the vertical louver 16. Can be configured. The horizontal louver motor 15 and the vertical louver motor 17 adjust the inclination of the horizontal louver 14 and the vertical louver 16 so as to change the direction of the wind blown out from the air outlet 4.

  The display unit includes an indicator 23 having a plurality of light emitting units 231a to 238a, 231b to 238b, and 231c to 238c. Therefore, for example, even when the surroundings of the vehicle are dark, such as when traveling in a tunnel or at night, the occupant can easily recognize the direction of the wind blown from the air outlet 4. In addition, for example, the configuration in which the direction of the wind blown from the outlet 4 is displayed on a display has a complicated configuration and increases the cost. On the other hand, the display part is comprised by the indicator 23 which has several light emission part 231a-238a, 231b-238b, 231c-238c. Therefore, the cost can be suppressed with a simple configuration.

  In addition, light emitting units 231a to 238a, 231b to 238b, and 231c to 238c are provided in eight directions of up and down, left and right, and four diagonal directions. Therefore, the occupant can intuitively operate the direction of the wind blown from the outlet 4 in accordance with the arrangement of the light emitting units 231a to 238a, 231b to 238b, and 231c to 238c.

  The operation unit 22 includes a stick type operation unit and a signal output unit 25. The stick-type operation unit is inclined in the operated direction in accordance with an operation for controlling the wind direction adjusting mechanisms 14 to 17. The signal output unit 25 outputs a signal indicating the direction in which the stick-type operation unit is tilted to the air conditioner ECU 11 that controls the wind direction adjusting mechanism. The indicator 23 is controlled by the air conditioner ECU 11 to display the direction of the wind blown from the outlet 4 according to the signal output from the signal output unit 25.

(Second Embodiment)
The configuration of the operation device according to the second embodiment will be described with reference to FIGS. FIG. 6 is a front view of the operation device according to the present embodiment. FIG. 7 is a sectional view taken along line VII-VII in FIG. FIG. 8 is a block diagram of the operation device.

  The operation device 2 according to the first embodiment displays the direction of the wind blown from the outlet 4 by the indicator 23 to allow the occupant to recognize the direction of the wind blown from the outlet 4.

  On the other hand, the operation device 2 of the present embodiment does not include the indicator 23, and the stick-type operation unit 220 inclines stepwise in eight directions of up and down, left and right and four oblique directions and maintains this inclined state. It is configured as follows. In the present embodiment, the occupant recognizes the direction of the wind blown from the outlet 4 by the inclination of the stick type operation unit 220.

  The operation unit 22 of the present embodiment is configured as a stick-type operation unit 220 as in the first embodiment.

  A spherical base end portion 22 a is formed on one end side in the longitudinal direction of the stick type operation unit 220. The base end portion 22a is accommodated in the housing 21 as shown in FIG. The other end side of the stick-type operation unit 220 protrudes from the inner peripheral surface 221 of the housing 21 toward the vehicle interior.

  The operation device 2 according to the first embodiment is configured such that the stick-type operation unit 220 automatically returns to the default position by a spring return mechanism. However, the operation device 2 of the present embodiment maintains a state where the stick-type operation unit 220 is tilted without automatically returning to the default position.

  In the operation device 2 of the present embodiment, the stick-type operation unit 220 is inclined in three stages in eight directions of up, down, left and right and four oblique directions. In addition, the signal output unit 25 of the operation device 2 detects the direction in which the stick-type operation unit 220 is tilted in three stages, and outputs a signal representing the tilted direction in three stages. In FIG. 7, a state where the stick-type operation unit 220 is inclined in three stages is indicated by dotted lines.

  As shown in FIG. 8, between the signal output unit 25 of the operation device 2 and the air conditioner ECU 11, a total of 26 signal lines, power lines, and ground lines that indicate the direction in which the stick-type operation unit 220 is inclined. Are connected by a line.

  The air conditioner ECU 11 determines the position of the operation device 2 based on the signal output from the signal output unit 25, and adjusts the wind direction according to the determined inclination direction and the degree of inclination of the stick-type operation unit 220.

  Next, the operation of the operation device 2 will be described.

  First, when the stick type operation unit 220 is in the default position, the air conditioner ECU 11 determines that the stick type operation unit 220 is in the default position based on the signal output from the signal output unit 25.

  The air conditioner ECU 11 controls the lateral louver motor 15 and the longitudinal louver motor 17 so that the wind from the air outlet 4 is blown straight out into the vehicle interior, and the length of the long plate 14 a and the longitudinal louver 16 of the lateral louver 14. The direction of the plate 16a is uniformly rotated. Thereby, the wind from the blower outlet 4 is blown out straight.

  Next, it is assumed that the stick type operation unit 220 is tilted one step upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle, and each length of the lateral louver 14 is controlled. The plate 14a is uniformly rotated. Thereby, it adjusts so that the direction of a wind may face the upper direction of the own vehicle by 1 step | paragraph.

  Next, it is assumed that the stick type operation unit 220 is tilted two steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed in two stages and upwards of the own vehicle. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Next, it is assumed that the stick-type operation unit 220 is tilted three steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle in three stages. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in three stages so as to face the upward direction of the vehicle.

  Next, it is assumed that the stick type operation unit 220 is tilted two steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the wind direction is one level lower than before, and the vehicle is directed downward. The 14 long plates 14a are uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Here, the case where the stick type operation unit 220 is tilted upward and downward of the own vehicle has been described. However, even when the stick-type operation unit 220 is tilted in the right direction, left direction, or diagonal direction of the own vehicle, the direction of the wind blown from the outlet 4 and the display by the indicator 23 are similarly performed.

  As described above, the operation unit 22 is arranged at a position different from the air outlet 4 and is in a state so as to represent the direction of the air blown from the air outlet 4 according to the operation for controlling the air direction adjusting mechanisms 14 to 17. Changes. Therefore, even if the occupant cannot visually recognize the louver of the air outlet 4, the occupant can recognize the wind direction blown out from the air outlet.

  The operation unit 22 includes a stick type operation unit and a signal output unit 25. The stick-type operation unit is tilted in the operated direction according to an operation for controlling the wind direction adjusting mechanisms 14 to 17 and holds the tilted state. The signal output unit 25 detects the direction in which the stick-type operation unit is tilted, and outputs a signal representing the tilted direction.

  Therefore, it is possible to recognize the direction of the wind blown from the outlet from the inclination of the stick type operation unit without providing a display unit that displays the direction of the wind blown from the outlet. In addition, since the stick type operation unit is held in the same direction as the direction of the wind blown out from the outlet, it is possible to make the occupant easily imagine the direction of the wind.

(Third embodiment)
The configuration of the operation device according to the third embodiment will be described with reference to FIGS. FIG. 9 is a front view of the operation device according to the present embodiment. 10 is a cross-sectional view taken along line XX in FIG.

  The operation device 2 of the present embodiment is configured such that the stick-type operation unit 223 translates in eight directions of up, down, left, and right and four oblique directions and holds the translated state. Then, the occupant is made to recognize the direction of the wind blown from the air outlet 4 based on the position of the stick type operation unit 223.

  A flat base end 22 b is formed on one end of the stick-type operation unit 223 in the longitudinal direction. The base end portion 22b is accommodated in the housing 21, as shown in FIG. The other end side of the stick-type operation unit 223 protrudes from the opening formed in the housing 21 toward the vehicle interior. In the present embodiment, the stick-type operation unit 223 has a default position in which the axial center coincides with the axial center CL of the housing 21.

  The casing 21 is configured to cover the proximal end portion 22b of the stick-type operation unit 223. The stick-type operation unit 223 moves in parallel in eight directions of up / down / left / right and four diagonal directions according to the operation of the occupant, and maintains the state of moving without returning to the default position even if the occupant's operation is lost.

  The signal output unit 25 has a circuit board 25a. The circuit board 25 a is provided in the housing 21. A plurality of fixed contacts (not shown) are formed on the surface of the circuit board 25a facing the base end portion 22b. A plurality of movable contacts (not shown) are formed on the surface of the base end portion 22b facing the circuit board 25a.

  A short circuit state and an open state between a plurality of fixed contacts formed on the circuit board 25a and a plurality of movable contacts formed on the base end 22b according to the movement of the stick type operation unit 223 Occurs. The signal output unit 25 detects the direction in which the stick type operation unit 223 has moved, and outputs a signal representing the moved direction to the air conditioner ECU 11.

  In the operation device 2 of the present embodiment, the stick-type operation unit 223 moves in three stages in eight directions, up and down, left and right, and four diagonal directions. For this reason, the signal output unit 25 of the operation device 2 detects the direction in which the stick-type operation unit 223 has moved in three stages, and outputs a signal representing the moved direction in three stages.

  As shown in FIG. 8, between the signal output unit 25 of the operation device 2 and the air conditioner ECU 11, a total of 26 signal lines, power lines, and ground lines that indicate the direction in which the stick-type operation unit 223 has moved is displayed. Connected with book lines.

  The air conditioner ECU 11 determines the position of the operation device 2 based on the signal output from the signal output unit 25, and adjusts the wind direction according to the determined position of the stick type operation unit 223.

  Next, the operation of the operation device 2 will be described.

  First, when the stick type operation unit 223 is in the default position, the air conditioner ECU 11 determines that the stick type operation unit 223 is in the default position based on the signal output from the signal output unit 25.

  The air conditioner ECU 11 controls the lateral louver motor 15 and the longitudinal louver motor 17 so that the wind from the air outlet 4 is blown straight out into the vehicle interior, and the length of the long plate 14 a and the longitudinal louver 16 of the lateral louver 14. The direction of the plate 16a is uniformly rotated. Thereby, the wind from the blower outlet 4 is blown out straight.

  Next, it is assumed that the stick-type operation unit 223 is moved one step upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle, and each length of the lateral louver 14 is controlled. The plate 14a is uniformly rotated. Thereby, it adjusts so that the direction of a wind may face the upper direction of the own vehicle by 1 step | paragraph.

  Next, it is assumed that the stick-type operation unit 223 is moved two steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed in two stages and upwards of the own vehicle. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Next, it is assumed that the stick type operation unit 223 is moved in three steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle in three stages. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in three stages so as to face the upward direction of the vehicle.

  Next, it is assumed that the stick-type operation unit 223 is moved in two steps upward from the default position. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the wind direction is one level lower than before, and the vehicle is directed downward. The 14 long plates 14a are uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Here, the case where the stick type operation unit 223 is tilted upward and downward of the own vehicle has been described. However, even when the stick-type operation unit 223 is tilted in the right direction, left direction, or diagonal direction of the host vehicle, the direction of the wind blown from the outlet 4 and the display by the indicator 23 are performed in the same manner.

  In the present embodiment, the same effect obtained from the configuration common to the second embodiment can be obtained as in the second embodiment.

  As described above, the operation unit 22 includes the stick-type operation unit and the signal output unit 25. The stick-type operation unit translates in the operated direction according to an operation for controlling the wind direction adjusting mechanisms 14 to 17 and holds the translated state. The signal output unit 25 includes a signal output unit 25 that detects a direction in which the stick-type operation unit has moved and outputs a signal indicating the moved direction.

  Therefore, it is possible to recognize the direction of the wind blown from the air outlet from the position of the stick type operation unit without providing a display unit that displays the direction of the wind blown from the air outlet.

  It is also possible to control the direction of the wind blown from the outlet according to a minute operation on the operation unit 22.

(Fourth embodiment)
The configuration of the operation device according to the fourth embodiment will be described with reference to FIGS. FIG. 11 is a front view of the operation device according to the present embodiment. FIG. 12 is a cross-sectional view taken along line XII-XII in FIG.

  The operation device 2 of the first embodiment has a stick-shaped operation unit 22 in a bar shape, and is configured to operate the direction of the wind blown from the outlet 4 by inclining the button-type operation unit 222. .

  On the other hand, the operation device 2 of the present embodiment is configured to operate the direction of the wind blown from the outlet 4 by pressing down the button type operation unit 222 arranged in eight directions of up, down, left and right and four oblique directions. Has been. FIG. 12 shows a state in which the button type operation unit 222 arranged in the downward direction is pressed.

  When the button type operation unit 222 is pressed, two contact points (not shown) provided therein are in a conductive state, and when not pressed, the two contact points (not shown) are opened.

  In the operation device 2 of the present embodiment, when no button type operation unit 222 is pressed at the start of operation when power supply is started, the button type operation unit 222 is in a default position.

  Next, the operation of the operation device 2 will be described.

  It is assumed that none of the button type operation units 222 is pressed at the start of operation when the power supply is started, and the button type operation unit 222 is in the default position. In that case, the air conditioner ECU 11 determines that the button type operation unit 222 is in the default position based on the signal output from the signal output unit 25.

  The air conditioner ECU 11 controls the lateral louver motor 15 and the longitudinal louver motor 17 so that the wind from the air outlet 4 is blown straight out into the vehicle interior, and the length of the long plate 14 a and the longitudinal louver 16 of the lateral louver 14. The direction of the plate 16a is uniformly rotated. Thereby, the wind from the blower outlet 4 is blown out straight.

  Next, it is assumed that the button type operation unit 222 in the upward direction of the host vehicle is pressed. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle, and each length of the lateral louver 14 is controlled. The plate 14a is uniformly rotated. Thereby, it adjusts so that the direction of a wind may face the upper direction of the own vehicle by 1 step | paragraph.

  Next, it is assumed that the button type operation unit 222 in the upward direction of the host vehicle is pressed. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed in two stages and upwards of the own vehicle. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Next, it is assumed that the button type operation unit 222 in the upward direction of the host vehicle is pressed. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the direction of the wind is directed to the upper direction of the vehicle in three stages. The plate 14a is uniformly rotated. Thereby, the direction of the wind is adjusted in three stages so as to face the upward direction of the vehicle.

  On the other hand, it is assumed that the button type operation unit 222 in the downward direction of the own vehicle is pressed. Then, based on the signal output from the signal output unit 25, the air conditioner ECU 11 controls the lateral louver motor 15 so that the wind direction is one level lower than before, and the vehicle is directed downward. The 14 long plates 14a are uniformly rotated. Thereby, the direction of the wind is adjusted in two stages so as to face the upward direction of the vehicle.

  Here, the case where the button type operation unit 222 in the upward direction and the downward direction of the own vehicle is pressed has been described. However, even when the button-type operation unit 222 in the right direction, left direction, or diagonal direction of the host vehicle is pressed, the direction of the wind blown from the outlet 4 and the display by the indicator 23 are similarly performed. .

  In the present embodiment, the same effect obtained from the configuration common to the first embodiment can be obtained as in the first embodiment.

  The operation unit 22 includes a plurality of button type operation units and a signal output unit 25. The button-type operation unit is arranged so as to correspond to the direction of the wind blown from the blower outlet 4. The signal output unit 25 outputs a signal corresponding to an operation on the plurality of button-type operation units to the air conditioner ECU 11 that controls the wind direction adjusting mechanisms 14 to 17. Further, by being controlled by the air conditioner ECU 11, the indicator 23 displays the direction of the wind blown from the air outlet according to the signal output from the signal output unit 25. As described above, since the button type operation unit is employed, it is possible to suppress erroneous operation.

(Other embodiments)
(1) In the first embodiment, the stick-type operation unit 22 is automatically returned to the default position by the spring return mechanism. However, the state in which the stick type operation unit 22 is operated may be held without the stick type operation unit 22 automatically returning to the default position.

  (2) In the first and fourth embodiments, the light emitting units 231a to 238a, 231b to 238b, and 231c to 238c are provided in eight directions of up and down, left and right, and four diagonal directions. However, for example, it may be provided in at least one of eight directions of up, down, left and right and four oblique directions such as four directions of up, down, left, and right.

  (3) In the first and fourth embodiments, the air conditioner ECU 11 displays the indicator 23 in accordance with the signal output from the signal output unit 25. However, even if the signal output unit 25 outputs a signal to the indicator 23 without using the air conditioner ECU 11, and the indicator 23 directly performs a display according to the signal output from the signal output unit 25 without using the air conditioner ECU 11. Good.

  (4) In each of the above embodiments, an example in which the direction of the wind blown from the blower outlet 4 is adjusted in three stages has been described. However, the direction of the wind blown from the outlet 4 may be adjusted in one or two stages, or may be adjusted in four or more stages.

  Note that the present disclosure is not limited to the above-described embodiment, and can be modified as appropriate. Further, the above embodiments are not irrelevant to each other, and can be combined as appropriate unless the combination is clearly impossible. In each of the above-described embodiments, it is needless to say that elements constituting the embodiment are not necessarily essential unless explicitly stated as essential and clearly considered essential in principle. Yes. Further, in each of the above embodiments, when numerical values such as the number, numerical value, quantity, range, etc. of the constituent elements of the embodiment are mentioned, it is clearly limited to a specific number when clearly indicated as essential and in principle. The number is not limited to the specific number except for the case. In each of the above embodiments, when referring to the material, shape, positional relationship, etc. of the constituent elements, etc., unless otherwise specified, or in principle limited to a specific material, shape, positional relationship, etc. The material, shape, positional relationship, etc. are not limited.

(Summary)
According to the first aspect shown in a part or all of the above embodiments, the operation device is arranged at the air outlet of the air conditioner mounted on the vehicle and adjusts the direction of the wind blown from the air outlet. A wind direction adjusting mechanism, a housing, an operation unit that protrudes from the housing and receives an operation for controlling the wind direction adjusting mechanism, and a display unit that is disposed on the housing and displays the direction of the wind blown from the air outlet The operation unit and the display unit are configured to be provided at different positions from the air outlet in the vehicle.

  Further, according to the second aspect, the wind direction adjusting mechanism includes a wind guide member disposed at the outlet, and a drive unit that adjusts the inclination of the wind guide member so as to change the direction of the wind blown from the outlet. It is equipped with.

  Moreover, according to the 3rd viewpoint, the display part is comprised by the indicator which has a some light emission part. According to this, for example, even when the surroundings of the vehicle are dark, such as when traveling in a tunnel or at night, the occupant can easily recognize the direction of the wind blown from the air outlet. In addition, for example, the configuration in which the image of the direction of the wind blown out from the air outlet is displayed on the display is complicated and expensive, but it is configured by an indicator having a plurality of light emitting units. Can also reduce costs.

  Moreover, according to the 4th viewpoint, the light emission part is provided in at least 1 direction of 8 directions of up-down and right-and-left and four diagonal directions. Therefore, the occupant can intuitively operate the direction of the wind blown from the outlet 4 in accordance with the arrangement of the light emitting units.

  According to the fifth aspect, the operation unit represents a stick type operation unit that is inclined in the operated direction according to an operation for controlling the wind direction adjusting mechanism, and a direction in which the stick type operation unit is inclined. A control unit that controls the wind direction adjusting mechanism and a signal output unit that outputs the signal to the display unit. Moreover, a display part displays the direction of the wind blown off from a blower outlet according to the signal output from the signal output part.

  According to the sixth aspect, the operation unit includes a plurality of button-type operation units arranged to correspond to the direction of the wind blown from the outlet, and a signal corresponding to an operation on the plurality of button-type operation units. Is provided with a control unit for controlling the wind direction adjusting mechanism and a signal output unit for outputting to the display unit. And a display part displays the direction of the wind blown off from a blower outlet according to the signal output from the signal output part.

  According to the seventh aspect, the operation device is disposed at the air outlet of the air conditioner mounted on the vehicle, and controls the wind direction adjusting mechanism that adjusts the direction of the wind blown from the air outlet, and the wind direction adjusting mechanism. In response to an operation to perform the operation, the stick-type operation unit that tilts in the operated direction and holds the tilted state, detects the direction in which the stick-type operation unit tilts, and outputs a signal indicating the tilted direction. A signal output unit.

  Therefore, it is possible to recognize the direction of the wind blown from the outlet from the inclination of the stick type operation unit without providing a display unit that displays the direction of the wind blown from the outlet.

  According to the eighth aspect, the operation device is disposed at the air outlet of the air conditioner mounted on the vehicle, and controls the wind direction adjusting mechanism that adjusts the direction of the wind blown from the air outlet, and the wind direction adjusting mechanism. A stick-type operation unit that translates in the operated direction in accordance with an operation to be performed and maintains the translated state, a signal that detects the direction in which the stick-type operation unit has moved, and represents the moved direction And a signal output unit for outputting.

  Therefore, it is possible to recognize the direction of the wind blown from the air outlet from the position of the stick type operation unit without providing a display unit that displays the direction of the wind blown from the air outlet. It is also possible to control the direction of the wind blown from the outlet in response to a minute operation on the operation unit.

  Further, according to the ninth aspect, the wind direction adjusting mechanism is configured to be remotely controlled by operation of the operation unit. In this manner, the wind direction adjusting mechanism can be remotely controlled by operating the operation unit.

Claims (9)

An operating device,
A wind direction adjusting mechanism (14 to 17) that is arranged at an air outlet of an air conditioner mounted on the vehicle and adjusts the direction of the air blown from the air outlet;
A housing (21);
An operation part (22) that protrudes from the housing and receives an operation for controlling the wind direction adjusting mechanism;
A display unit (23) disposed in the housing and displaying a direction of the wind blown out from the outlet;
The operation device configured to be provided at a position different from the outlet in the vehicle. The wind direction adjusting mechanism includes an air guide member (14, 16) disposed at the air outlet,
The operation device according to claim 1, further comprising: a drive unit (15, 17) that adjusts an inclination of the air guide member so as to change a direction of the air blown from the air outlet.   The operation device according to claim 1 or 2, wherein the display unit includes an indicator having a plurality of light emitting units (231a to 238a, 231b to 238b, 231c to 238c).   The operation device according to claim 3, wherein the light emitting unit is provided in at least one of eight directions of up and down, left and right and four oblique directions. The operation unit includes a stick-type operation unit (220) that is inclined in the operated direction in accordance with an operation for controlling the wind direction adjusting mechanism,
A signal output unit (25) that outputs a signal indicating a direction in which the stick-type operation unit is inclined to a control unit (11) that controls the wind direction adjusting mechanism;
The operation device according to any one of claims 1 to 4, wherein the display unit displays a direction of a wind blown from the air outlet according to the signal output from the signal output unit. The operation unit includes a plurality of button-type operation units (222) arranged to correspond to the direction of the wind blown from the air outlet,
A signal output unit (25) that outputs a signal corresponding to an operation on the plurality of button-type operation units to a control unit (11) that controls the wind direction adjusting mechanism;
The operation device according to any one of claims 1 to 4, wherein the display unit displays a direction of a wind blown from the air outlet according to the signal output from the signal output unit. A wind direction adjusting mechanism (14 to 17) that is arranged at an air outlet of an air conditioner mounted on the vehicle and adjusts the direction of the air blown from the air outlet;
A stick-type operation unit (220) that inclines in the operated direction in accordance with an operation for controlling the wind direction adjusting mechanism and holds the inclined state;
An operation device comprising: a signal output unit (25) that detects a direction in which the stick-type operation unit is tilted and outputs a signal indicating the tilted direction. A wind direction adjusting mechanism (14 to 17) that is arranged at an air outlet of an air conditioner mounted on the vehicle and adjusts the direction of the air blown from the air outlet;
A stick-type operation unit (223) that translates in the operated direction in accordance with an operation for controlling the wind direction adjusting mechanism and holds the translated state;
An operation device comprising: a signal output unit (25) that detects a direction in which the stick-type operation unit has moved and outputs a signal indicating the moved direction.   The operation device according to claim 7 or 8, wherein the wind direction adjusting mechanism is configured to be remotely controlled by operation of the stick-type operation unit.

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