JP3773577B2 - Air outlet device for vehicles - Google Patents

Description

[0001]
【Technical field】
The present invention relates to an air outlet device for a vehicle, and more particularly to an air outlet device in which the direction of blown air can be changed by the rotation of a plurality of wind direction plates mounted inside a housing.
[0002]
[Background]
2. Description of the Related Art Conventionally, as an air outlet device that blows air into a vehicle interior, a plurality of wind direction plates (blades) that are disposed in the opening of a housing that opens in the vehicle interior in a state that they can rotate in parallel and in the same direction. There is known a type in which the direction of the blown air is changed by changing the direction of the blade. For example, Japanese Utility Model Publication No. 2-333075 discloses an air outlet device in which the direction of the blown air is continuously changed by swinging the blade with a driving means such as a motor. .
[0003]
The air outlet device having such an automatic wind direction adjusting function has a housing 10 having an opening that opens into the passenger compartment, as shown in FIG. A plurality of vertical blades 28 are disposed in the openings so as to be rotatable around the shafts 30 and 30. The plurality of vertical blades 28 are connected to each other by an interlocking plate 32 on the lower side thereof, and the interlocking plate 32 is moved by moving a rod portion 36 formed at the rear of the central vertical blade 28. Are reciprocated in the direction in which the plurality of vertical blades 28 are arranged (in FIG. 8, the direction perpendicular to the paper surface), and can be swung all at once. Here, in order to perform such reciprocating movement of the interlocking plate 32, a predetermined driving means (not shown) such as a motor is provided, and the driving force is applied to the reciprocating plate 38 outside the housing 10. After being converted into a linear reciprocating motion, an arm 168 having a U-shaped engagement groove 166 is connected to the rear of the housing 10 via the clutch means 164 and connected to the arm 168. The rod portion of the central vertical blade 28 that engages with the U-shaped engagement piece 172 from the U-shaped engagement piece 172 that is transmitted to the shaft 170 that is provided and is rotated together with the shaft 170. 36, and is transmitted from the central vertical blade 28 to the interlocking plate 32.
[0004]
As is well known, the clutch means 164 is housed in a case integrally fixed to the reciprocating plate 38 in a state where the clutch body abuts with a predetermined frictional force by the biasing force of the spring. Has been configured. Therefore, in such an air outlet device, the clutch blade 164 is moved integrally with the reciprocating plate 38 by its frictional force so that the vertical blade 28 swings as described above. In addition, when the operation knob 174 provided on the vertical blade 28 at the center is manually operated or a foreign object enters the air outlet, etc. When the blade 28 is forcibly stopped or a force greater than the predetermined frictional force is applied between the reciprocating plate 38 and the clutch main body, the clutch main body acts on the reciprocating plate 38. The direction of the vertical blade 28 can be manually changed by the relative movement, and each component breaks due to the forced stop of the vertical blade 28. And it is able to prevent such.
[0005]
By the way, in the air outlet device having the structure as described above, the rotation of the vertical blade 28 corresponds to the movement of the reciprocating plate 38 during the automatic operation in which the vertical blade 28 is automatically rotated. Normally, the rotation range (operation range) of the vertical blade 28 and the movement range of the reciprocating plate 38 are set so that the blown air spreads throughout the vehicle interior in the range of FIG. However, in such an air outlet device, since the moving range of the reciprocating plate 38 is always constant, the rotation range of the vertical blade 28 cannot be changed to other than the range of (A). 9 so that only the driver or only the passenger hits the wind in the range of (B) and (C) of FIG. 9 or that the driver and passenger do not hit the wind directly. It was not possible to change the air blowing range depending on the case and situation by rotating within the range of (D).
[0006]
Therefore, the applicant of the present application previously made a special structure for the reciprocating plate and the clutch means in Japanese Utility Model Laid-Open No. 6-10744, and set the rotation range (operation range) of the vertical blade during automatic operation. A vehicular air outlet device has been proposed that is configured to be changeable and that can adjust the wind direction within a desired range.
[0007]
That is, in the vehicle air outlet device disclosed in this publication, as shown in FIG. 10, the reciprocating plate 38 has a long flat plate shape as a whole, and both ends in the width direction are bent. A side wall portion continuous to the bottom wall portion is formed, and an engagement hole 176 formed in the bottom wall portion at one end in the longitudinal direction (left-right direction in FIG. 10), and the engagement As the cam 180 is rotationally driven by a driving means (not shown) such as a motor by a cam mechanism constituted by an engagement pin 178 of the cam 180 engaged with the joint hole 176, the housing In the state where it is held at 10, it can be reciprocated. On the other hand, the clutch means includes a clutch body 184 including an electromagnet (not shown) and a magnetic clutch member 182 fixed integrally therewith, and a magnetic case 186 disposed in contact with the clutch member 182. The clutch member 182 of the clutch body 184 is provided with the shaft 170 on the rod portion 36 of the vertical blade 28 at the projecting pin 190 projecting from the center thereof. The case 186 is integrally fixed to the reciprocating plate 38, while being engaged with the arm 168 connected through the case 186.
[0008]
Further, in such an air outlet device, a working wall portion 192 projecting one step outward is provided at a position corresponding to the central portion of the case 186 in the side wall portion of the reciprocating plate 38, and further, Two limit switches 194 and 194 are movably disposed in a state where they can abut against the working wall 192. The two limit switches 194 and 194 are turned on by contact with the action wall portion 192 of the reciprocating plate 38, and are turned off when the contact is not made. Further, each limit switch 194 is turned on. When the OFF state is input to the control means (not shown) and the two limit switches 194 and 194 are both turned on by the control means, the energization to the electromagnet of the electromagnetic clutch means 188 is turned on. When one of them is OFF, this energization is configured to be OFF.
[0009]
Thus, in the air outlet device disclosed in the above publication, for example, as shown in FIG. 11, when the reciprocating plate 38 is reciprocated, the two limit switches 194, 194 always contact the working wall 192. By being installed so as to be ON, the electromagnetic clutch means 188 is always energized throughout the entire range of the reciprocating motion of the reciprocating plate 38, so that the electromagnetic clutch means 188 is always in an operating state, The vertical blade 28 is rotated over the entire movable range, so that air is blown out in the range shown in FIG. 9A, and as shown in FIG. In either end area of the moving range of the working wall 192 during the reciprocating motion, either one of the limit switches 194 is removed from the working wall 192 and turned off. If the arrangement positions of the two limit switches 194 and 194 are changed, the electromagnetic clutch means 188 is not energized in both end areas of the reciprocating range of the reciprocating plate 38, whereby the plurality of vertical blades 28 are in the movable range. It is rotated only in the intermediate area, and air is blown out in a narrow range of FIG. 9D.
[0010]
As described above, the air outlet device having the above-described structure is equipped with a special mechanism for changing the rotation range of the vertical blade 28 and changes the air blowing range according to the situation. However, the detecting mechanism (two limit switches 194, 194) for detecting the moving position of the electromagnetic clutch means 188 reciprocally moved by the reciprocating movement of the reciprocating plate 38. And a control means for controlling the operation of the electromagnetic clutch means 188 by generating and releasing the frictional force of the electromagnetic clutch means 188 with respect to the reciprocating plate 38. The moving position of the clutch means 188 is detected, and then the operation of the electromagnetic clutch means 188 is controlled based on the detected position. Thus, the rotation range of the vertical blade 28 is variable, and the clutch means is an electromagnetic clutch means 188 using an electromagnet that can easily control the generation and release of the frictional force. From the configuration, the structure is extremely complicated and expensive compared to a conventional air outlet device that does not have any mechanism for changing the rotation range of the vertical blade 28. In addition, since the rotation range of the vertical blade 28 can be changed by using a sliding mechanism of the clutch means with respect to the reciprocating plate 38, the vehicle air outlet apparatus having no clutch means is provided. Had the disadvantage of not being applicable.
[0011]
In addition, as described above, in the conventional air outlet device, in addition to the structure in which the rotation range of the vertical blade 28 cannot be changed at all, even in the device disclosed in the above-mentioned publication in which it is possible, An operation knob 174 for changing the rotation direction of the plurality of vertical blades 28 is disposed in the central vertical blade 28 of the plurality of vertical blades 28 in a state where the operation knob 174 is exposed in the vehicle interior in the opening of the housing 10. For this reason, there is a problem that the appearance inside the passenger compartment is remarkably damaged by the operation knob 174.
[0012]
Further, in these conventional air outlet devices, the position of the interlocking plate 32 is changed by manually operating the operation knob 174 and changing the direction of the central vertical blade 28, thereby causing the air Since the air blowing direction can be changed, the occupant's hand must be bothered when changing the air blowing direction, and in that respect, the operability is poor. Therefore, an air outlet device having two openings each opened in the passenger compartment, so that air having different temperatures, airflows, etc. can be blown out from the openings depending on the direction of solar radiation, the passenger's preference, etc. However, when the conventional structure as described above is adopted, even if the air blowing range and the blowing direction are variable, the air blowing direction is changed manually, so that excellent operability is achieved. Therefore, it is extremely difficult to perform independent air conditioning control on each opening side.
[0013]
[Problems to be solved by the invention]
Here, the present invention has been made in the background of the circumstances as described above, and the first problem to be solved is that the rotation range of the wind direction plate during automatic operation is simple and excellent. Another object of the present invention is to provide an air outlet device for a vehicle that can be configured to be variable with high economic efficiency and that allows air to be blown out in a desired range.
[0014]
In the present invention, the operation knob for changing the rotation direction of the wind direction plate can be removed from the wind direction plate without impairing the function of changing the rotation direction of the wind direction plate. A second problem to be solved is to provide an air outlet device for a vehicle in which the exterior appearance on the indoor side can be advantageously improved while ensuring the moving direction changing function.
[0015]
Further, according to the present invention, in the vehicle air outlet apparatus having two openings in the housing and a plurality of wind direction plates respectively disposed in the two openings, the wind direction plate at the time of automatic operation The rotation range of the wind direction plate can be configured to be variable with a simple structure and excellent economy, and the rotation direction changing mechanism of the wind direction plate can be advantageously automated, thereby enabling each opening side to have a structure. The third problem to be solved is to provide a structure in which independent air-conditioning control can be performed satisfactorily with excellent operability.
[0016]
[Means for Solving the Problems]
In the present invention, in order to solve the first problem as described above, a plurality of members arranged in parallel to each other and rotatable in the same direction are arranged in the opening of the housing that opens in the vehicle interior. The wind direction plate is coupled to the plurality of wind direction plates and is configured to rotate in conjunction with an interlocking member capable of reciprocating in the direction in which the plurality of wind direction plates are disposed. In the vehicle air outlet device that transmits the driving force of the driving means so that the wind direction plate is rotated by the interlocking member, (a) rotation that is driven to rotate about one axis by the driving means. And (b) a distance to the rotation axis of the rotating body, which is located on the surface on one side in the axial direction of the rotating body and is rotated together with the rotating body around the rotation axis of the rotating body And (c) the engaging hand. An engagement means moving mechanism that can change the distance of the engagement means to the rotation axis of the rotating body, and (d) the engagement means and the plurality of wind direction plates or the interlocking member. In an engaged or connected state, the engaging means is disposed between the engaging means and a plurality of wind direction plates or interlocking members, and is associated with rotational driving about one axis of the rotating body by the driving means. The rotational movement of the rotating body around the rotational axis is converted into a reciprocating movement in the arrangement direction of the plurality of wind direction plates so that the interlocking member is reciprocated in the arrangement direction of the plurality of wind direction plates. And the reciprocation of the interlocking member by changing the distance from the engaging means to the rotating shaft of the rotating body by the movement of the engaging means by the engaging means moving mechanism. That the movement width can be changed. It is an its features.
[0017]
In short, in the vehicle air outlet apparatus according to the present invention, the interlocking member is reciprocated in the arrangement direction of the plurality of wind direction plates as the rotating body is rotated by driving the driving means, thereby The plurality of wind direction plates are configured to be rotated all at once with a rotation width (a rotation range) corresponding to the reciprocating movement width of the interlocking member, while the engagement means is configured to rotate the rotation shaft of the rotating body. The reciprocating movement width of the interlocking member can be changed by being moved by the engaging means moving mechanism so that the distance up to can be changed.
[0018]
Therefore, in such a vehicle air outlet device, the engagement means is moved by the engagement means moving mechanism so that the distance to the rotation axis of the rotating body can be changed. By simply passing, the reciprocating movement width of the interlocking member is changed according to the distance from the engaging means to the rotating shaft of the rotating body, whereby the rotation range (rotation width) of the plurality of wind direction plates is advantageous. It can be changed to. Further, since the engaging means moving mechanism is not configured to include the clutch means, no restriction is imposed on the structure of the clutch means.
[0019]
Therefore, in the vehicle air outlet apparatus according to the present invention, the detecting means for detecting the position of the clutch means having a special structure, the control means for controlling the operation of the clutch means based on the detection of the detecting means, etc. Compared to conventional devices that have a high-cost component and can change the rotation range of the wind direction plate through a plurality of operation stages, it is extremely low-cost and has a simple structure, and is automatically operated. The rotational range of the wind direction plate at the time can be configured to be changeable within the rotatable range, and the air can be blown out in a desired range, thereby blowing out air according to the situation in the vehicle interior. Range changes can be made more efficiently.
[0020]
In such a vehicle air outlet device, as described above, the engaging means moving mechanism is not configured to include the clutch means, but is arranged on a rotating body that is driven to rotate about one axis by the driving means. Since the engagement means provided is displaced so that the distance to the rotation axis of the rotating body can be changed, the reciprocation width of the interlocking member can be changed directly. Regardless of whether or not the clutch means is provided, the rotation range of the wind direction plate can be made variable. Therefore, the present invention can be applied to an apparatus in which no clutch means is provided. It can be done.
[0021]
In addition, according to one of the preferable embodiments of the air outlet device for a vehicle according to the present invention, the engagement means moving mechanism is rotated on the surface on one side in the axial direction of the rotating body. The engaging means is eccentrically provided on a surface opposite to the surface facing the rotating body, and is disposed so as to be rotatable around a second rotating shaft disposed eccentrically with respect to the shaft. An engagement means arrangement body is included, and by rotating the engagement means arrangement body around the second rotation axis, the engagement means is moved to change the distance to the rotation axis of the rotation body. In this way, the engaging means can be moved to the rotating shaft of the rotating body with a simple operation by simply rotating the engaging means arrangement body around the second rotating shaft. It is possible to change the distance reliably and steplessly within the movable range. It's that.
[0022]
Further, according to one of the preferred embodiments of the present invention, the engaging means moving mechanism is opposed to the rotating body and is arranged to be rotatable around a rotation axis of the rotating body, and the driving means. First rotating operation means for rotating the opposing member and the rotating body integrally around the rotation axis of the rotating body, and rotating the opposing member and the rotating body relative to each other by an operation from outside, A second rotation operation means for rotating the engagement means arrangement body around the second rotation axis in accordance with the relative rotation between the opposing member and the rotation body by the first rotation operation means; It will be configured.
[0023]
In other words, in the vehicle air outlet device having such a configuration, the first rotation operation means is not operated at all, and the opposing member and the rotary body are rotated around the rotation axis of the rotary body by the drive means. When rotating integrally, the engaging means arrangement body is rotated together with the rotating body in a fixed state with respect to the rotating body, so that the rotating body is rotated from the engaging means. The distance to the rotation axis is maintained constant, and the reciprocal movement width of the interlocking member is also maintained within a predetermined range, so that a plurality of wind direction plates can be rotated within a predetermined rotation range while being engaged. By operating the first operating means of the means moving mechanism from the outside, the opposing member and the rotating body are rotated relative to each other, and the engaging means arranging body is rotated around the second rotating shaft, thereby engaging means is engaged. The distance from the rotation axis of the rotating body is the distance of the engaging means. The reciprocating motion width of the interlocking member can be changed according to the distance from the changed engaging means to the rotating shaft of the rotating body, and can be changed in a stepless manner within a possible range. The plurality of wind direction plates can be reliably rotated within a rotation range corresponding to the changed reciprocating motion width of the interlocking member.
[0024]
Therefore, in such an air outlet device for a vehicle, by operating the first operating means of the engaging means moving mechanism from the outside, the air blowing direction can be ensured within the rotatable range of the plurality of wind direction plates. In addition, it can be changed steplessly, so that the change of the air blowing range according to the situation in the passenger compartment can be performed more precisely and efficiently and with excellent operability. .
[0025]
Further, in the present invention, in order to solve the second problem as described above, a plurality of members disposed in parallel to each other and rotatable in the same direction are arranged in the opening of the housing that opens in the vehicle interior. The wind direction plate is coupled to the plurality of wind direction plates and is configured to rotate in conjunction with an interlocking member capable of reciprocating in the direction in which the plurality of wind direction plates are disposed. In the vehicle air outlet device that transmits the driving force of the driving means so that the wind direction plate is rotated by the interlocking member. (A) In the same direction as the arrangement direction of the plurality of wind direction plates. A reciprocating member that is reciprocated by the drive means, and (b) an engaging portion that engages with the plurality of wind direction plates or the interlocking member, and an abutting portion that abuts the reciprocating member with frictional force. And reciprocating with such frictional force By being reciprocated integrally with the moving member, the driving force of the driving means is transmitted to the interlocking member, and when a force greater than the frictional force is applied, the movement with the reciprocating member is integrated. And (c) the reciprocating position of the interlocking member that is reciprocated in the reciprocating motion of the reciprocating member in the direction in which the plurality of wind direction plates are disposed. A position changing mechanism that is directly engaged with the member to change the position, and the position changing mechanism forcibly changes the reciprocating position of the interlocking member to thereby change the contact portion of the clutch means. Further, the present invention is also characterized in that a force greater than the frictional force is applied and the clutch means is moved relative to the reciprocating member.
[0026]
In such a vehicle air outlet device according to the present invention, the clutch means that contacts the reciprocating member with a predetermined frictional force is reciprocated integrally with the reciprocating member by the driving means. As a result, the interlocking member that engages with the clutch means is reciprocated in the same direction as the reciprocating direction of the clutch means, so that the plurality of wind direction plates are simultaneously rotated. The reciprocating position of the interlocking member is directly and forcibly changed by the position changing mechanism, so that a force greater than the frictional force is applied to the clutch means, and the clutch means It is designed to move relative to the reciprocating member in the changing direction of the reciprocating position of the interlocking member.
[0027]
Therefore, in such a vehicle air outlet device, the reciprocating position of the interlocking member is changed by operating the operation knob provided on one of the plurality of wind direction plates and changing the direction of the one wind direction plate. Furthermore, the clutch means is moved relative to the reciprocating member in the direction of changing the reciprocating position of the interlocking member, so that a plurality of wind directions are changed in the changed direction of the one wind direction plate. Unlike conventional devices that rotate the plate, a plurality of wind direction plates can be obtained by directly changing the reciprocating position of the interlocking member with the position changing mechanism without any operation of such an operation knob. The direction of the air is changed, and the plurality of wind direction plates can be rotated in the changed direction.
[0028]
Therefore, in the vehicle air outlet apparatus according to the present invention, the operation knob provided in the conventional apparatus for changing the direction of rotation of the wind direction plate without impairing the function of changing the direction of rotation of the wind direction plate. Can be advantageously removed, thereby effectively improving the appearance of the passenger compartment side while advantageously ensuring the function of changing the direction of rotation of the wind direction plate.
[0029]
According to one of the advantageous aspects of the vehicle air outlet apparatus according to the present invention, the position changing mechanism is in contact with both end portions of the interlocking member, and the plurality of wind directions in the interlocking member are Two stopper members for restricting reciprocating movement in the arrangement direction of the plate and at least one of the two stopper members are moved in the reciprocating movement direction of the interlocking member so as to approach or separate from the interlocking member. A stopper member moving means for moving the at least one stopper member closer to the interlocking member and bringing the stopper member into contact with the interlocking member at an arbitrary movement position. It will be comprised so that the reciprocation position of a member can be changed forcibly.
[0030]
In the vehicle air outlet apparatus having such a configuration, since the stopper member moving means only moves the stopper member in the reciprocating direction of the interlocking member, such stopper member movement is performed. The means can be easily automated, whereby the position changing mechanism for changing the reciprocating position of the interlocking member, and further the whole mechanism for changing the rotation direction of the wind direction plate can be easily automated. Then, by automating the rotation direction changing mechanism of the wind direction plate, the trouble of manually changing the rotation direction of the wind direction plate can be advantageously saved, and excellent operability can be exhibited. It becomes.
[0031]
Also, according to one of the preferred embodiments of the present invention, the stopper member moving means is disposed so as to be rotatable about one axis, and the engaging protrusion is eccentrically provided on one surface in the axial direction. The cam member and the at least one stopper member are slidably engaged with the engaging projections of the cam member formed so as to extend in a direction substantially perpendicular to the reciprocating direction of the stopper member. It is constituted by a cam mechanism including an engaging hole or an engaging recess to be fitted together and moving the stopper member in the reciprocating direction of the interlocking member.
[0032]
In the air outlet device for a vehicle having such a configuration, the stopper member moving means can be realized with a simple structure, thereby changing the rotation direction of the stopper member moving means and thus the wind direction plate. The wind direction plate rotation direction changing mechanism to be made can be more easily automated with a simple structure.
[0033]
Furthermore, in the present invention, in order to solve the first problem and the second problem as described above, they can be rotated in parallel and in the same direction in the opening of the housing that opens in the vehicle interior. The plurality of wind direction plates disposed on the two are connected to the plurality of wind direction plates and are rotated in conjunction with each other by an interlocking member capable of reciprocating in the arrangement direction of the plurality of wind direction plates. On the other hand, in the vehicle air outlet apparatus in which the driving force of the driving means is transmitted to the interlocking member so that the wind direction plate is rotated by the interlocking member. A rotating body that is driven to rotate around, and (b) the rotation that is located on the surface on one side in the axial direction of the rotating body and that is rotated together with the rotating body around the rotation axis of the rotating body. Engagement hand with variable distance to body rotation axis And (c) an engagement means moving mechanism capable of moving the engagement means to change the distance of the engagement means to the rotation axis of the rotating body, and (d) an arrangement of the plurality of wind direction plates. A reciprocating member that is reciprocated by the driving means in the same direction as the installation direction, and an engaging portion that engages with the plurality of wind direction plates or the interlocking member, and applies a frictional force to the reciprocating member. The contact portion has a contact portion, and is reciprocated integrally with the reciprocating member by the frictional force, thereby transmitting the driving force of the driving means to the interlocking member, while a force greater than the frictional force is applied. Clutch means for releasing the integral movement with the reciprocating member when acted on, and engaging or coupling the engaging means with the plurality of wind direction plates or the interlocking member. The engagement means and a plurality of The plurality of wind direction plates are arranged between the wind direction plates or the interlocking members, and the engagement means rotates about the rotation axis of the rotating body when the driving means rotates about one axis of the rotating body. A reciprocating motion in the arrangement direction of the plurality of wind direction plates to convert the interlocking member in a reciprocating direction, and (e) a reciprocating member of the motion converting mechanism. A position changing mechanism for changing a reciprocating position of the interlocking member that is reciprocated in the direction in which the plurality of wind direction plates are reciprocated in the arrangement direction, and is provided by the engaging means moving mechanism. The position changing mechanism is configured to change the reciprocating movement width of the interlocking member by changing the distance from the engaging means to the rotating shaft of the rotating body by the movement of the engaging means. The interlocking part By forcibly changing the reciprocating position of the material, a force greater than the frictional force is applied to the abutting portion of the clutch means of the motion conversion mechanism, so that the relative relative to the reciprocating member of the clutch means It is also characterized by the fact that it is configured so as to perform a typical movement.
[0034]
In the vehicle air outlet apparatus according to the present invention, in order to solve the first problem and the second problem as described above, characteristic structures adopted separately are advantageously combined. It is.
[0035]
Therefore, in such an air outlet device for a vehicle according to the present invention, the rotation range of the wind direction plate during automatic operation has an extremely low cost and a simple structure as compared with the conventional device. The air can be blown out in a desired range so that the air blowing range can be changed more efficiently according to the conditions in the passenger compartment, and the wind direction can be changed. While the function of changing the rotation direction of the plate is advantageously ensured, the appearance on the vehicle interior side can be effectively improved.
[0036]
Further, in the present invention, in order to solve the third problem as described above, the two openings of the housing that opens in the vehicle interior are arranged in parallel to each other and rotatable in the same direction. The plurality of wind direction plates are connected to the plurality of wind direction plates in the two openings, respectively, and are rotated in conjunction with each other by two interlocking members that are capable of reciprocating in the arrangement direction of the plurality of wind direction plates. An air outlet device for a vehicle which is configured to be moved, while transmitting the driving force of the driving means to the two interlocking members so that the plurality of wind direction plates are rotated by the two interlocking members. (A) a rotating body that is driven to rotate about one axis by the driving means; and (b) the rotating body that is positioned on one surface in the axial direction of the rotating body and that rotates about the rotation axis of the rotating body. Rotate with body (C) an engagement means having a variable distance to the rotating shaft of the rotating body; and (c) moving the engaging means to change the distance of the engaging means to the rotating shaft of the rotating body. An engagement means moving mechanism to be obtained; (d) a reciprocating member that is reciprocated by the driving means in the same direction as the arrangement direction of the plurality of wind direction plates; and the plurality of wind direction plates or the two interlocking members. And an abutting portion that abuts the reciprocating member with a frictional force, and is reciprocated integrally with the reciprocating member by the frictional force, thereby driving the drive. Two clutch means for transmitting the driving force of the means to the two interlocking members, and releasing the integral movement with the reciprocating member when a force greater than the frictional force is applied. The engaging means and the plurality of wind direction plates Is disposed between the engaging means and the plurality of wind direction plates or the two interlocking members in a state of being engaged with or coupled to the two interlocking members, and is one axis of the rotating body by the driving means. The rotational motion of the engaging means around the rotational axis of the rotating body accompanying the rotational drive around is converted into the reciprocating motion in the direction of arrangement of the plurality of wind direction plates, and the two interlocking members are moved to the plurality of the interlocking members. A motion conversion mechanism adapted to reciprocate in the direction of arrangement of the wind direction plates; and (e) arrangement of the plurality of wind direction plates in the two interlocking members in contact with both ends of the two interlocking members. A plurality of stopper members that restrict reciprocal movement in the direction, and at least one of the plurality of stopper members is moved in the reciprocating movement direction of the two interlocking members so that the two interlocking members approach or Stopper member movement to separate The at least one stopper member is moved closer to the two interlocking members by the stopper member moving means, and is brought into contact with the two interlocking members at an arbitrary movement position. A position change mechanism for forcibly and independently changing the reciprocating position of the interlocking member, and the rotation of the rotating body from the engagement means by the movement of the engagement means by the engagement means movement mechanism. By changing the distance to the shaft, the reciprocating width of the two interlocking members can be changed, while the position changing mechanism forces the reciprocating positions of the two interlocking members independently. By changing the movement of the two clutch means, a force greater than the frictional force is applied to the contact portion of the two clutch means of the motion conversion mechanism, and the reciprocating operation of the two clutch means is performed. Also by being configured as occupied performed independent relative movement of the relative member it is for its features.
[0037]
In the vehicle air outlet apparatus having such a configuration, the rotation range of the plurality of wind direction plates respectively disposed in the two openings provided in the housing has a simple structure and excellent economy. And the above-described characteristic structure that can be configured to be variable, and the special structure as described above that can advantageously automate the mechanism for changing the rotational direction of the plurality of wind direction plates, In particular, the direction of rotation of the wind direction plate in each opening can be changed separately on each opening.
[0038]
Therefore, in such an air outlet device for a vehicle according to the present invention, an air operability that is exhibited by automation of a mechanism that changes the direction of rotation of the wind direction plate is provided on the two opening sides. However, the air can be blown out in a desired range and in a desired direction, and independent air conditioning control can be performed on each opening side. When the air is blown out from each opening side, the air can be advantageously prevented from being mixed in the passenger compartment, and as a result, more comfortable air conditioning depending on the situation in the passenger compartment. The environment can be realized.
[0039]
In addition, according to one of the desirable modes of the vehicle air outlet device according to the present invention, one operating means for operating the engaging means moving mechanism and the position changing mechanism at the same time is provided, thereby By simply operating such operating means, the air blowing range and direction can be changed simultaneously and easily on the two opening sides, respectively, and thus on each opening side in the passenger compartment. This air conditioning control can be performed more efficiently.
[0040]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, in order to clarify the present invention more specifically, some embodiments of the present invention will be described in detail with reference to the drawings.
[0041]
First, FIGS. 1 to 3 schematically show an air outlet device mounted on an automobile as an example of a vehicle air outlet device having a structure according to the present invention. In these drawings, reference numeral 10 denotes a housing, which is divided into left and right by a partitioning portion 12 having a housing shape at the front thereof, and opens separately to the passenger seat side and the driver seat side in the passenger compartment, It has two openings, a passenger seat side opening 14 and a driver seat side opening 16.
[0042]
In the passenger seat side opening 14 and the driver seat side opening 16 of the housing 10, a plurality of horizontal blades 18 each having a flat plate shape are arranged in a line in the vertical direction. Parallel, and arranged so as to be rotatable around shafts 22, 22 supported by partition walls 20, 20, which are respectively erected at a predetermined distance from both side wall portions of housing 10, and partition 12. Has been. Moreover, in such a plurality of horizontal blades 18, those arranged in the openings 14, 16 on the passenger seat side and the driver seat side are the horizontal blade interlocking plates 24, 24 extending in the vertical direction in the partition portion 12. Are connected to each other. Thus, in the plurality of lateral blades 18 disposed in the openings 14 and 16 on the passenger seat side and the driver seat side, any one of them is rotated around the shafts 22 and 22, All things can be rotated in conjunction with each other, so that the air blowing direction can be changed manually in the vertical direction and separately on the passenger side and driver side. It is like that.
[0043]
Further, in the passenger seat side opening 14 and the driver seat side opening 16 of the housing 10, a plurality of vertical blades 28 having a flat plate shape are arranged in a line in the left-right direction behind the plurality of horizontal blades 18. In this state, they are arranged in parallel with each other and rotatable about shafts 30 and 30 respectively supported by the upper and lower wall portions of the housing 10. Among the plurality of vertical blades 28, those arranged in the openings 14 and 16 on the passenger seat side and the driver seat side extend vertically in the left-right direction on the lower side of each vertical blade 28. The blade interlocking plates 32 and 32 are connected to each other. In addition, among the plurality of vertical blades 28 arranged in each of the openings 14 and 16, the vertical blades 28 located in the center of each are provided with through holes 34 at the rear portions thereof, whereby A rod portion 36 composed of a peripheral edge portion of the through hole 34 is integrally formed at the rear end portion.
[0044]
Further, in the housing 10, a reciprocating plate 38 as a reciprocating member is disposed further rearward of the plurality of vertical blades 28. The reciprocating plate 38 has a long flat plate shape as a whole, and its central portion in the length direction is a mounting portion 40, while its both end portions are on the passenger seat side sliding portion. 42 and a driver seat side sliding portion 44.
[0045]
Further, in such a reciprocating plate 38, an engagement hole arrangement portion 46 having a rectangular shape extending in a predetermined dimension in the width direction of the attachment portion 40 (the front-rear direction in the housing 10) is provided at the center of the attachment portion 40. Are integrally formed. Further, the engagement hole arrangement portion 46 is provided with an engagement hole 48, and the engagement hole 48 penetrates the central portion of the engagement hole arrangement portion 46 in the thickness direction. A long hole shape extending a predetermined dimension in the length direction (width direction of the mounting portion 40) is formed. In addition, on one surface of the mounting portion 40, both sides of the engagement hole arranging portion 46 are arranged in parallel with each other at an equal interval in the length direction of the mounting portion 40 (housing 10. Two guide rails 50, 50 extending continuously in the left-right direction) are erected with a predetermined height.
[0046]
The mounting portion 40 having such a configuration is inserted into the partition portion 12 provided in the center portion of the housing 10 so as to cross the inside of the partition portion 12 in the left-right direction, and the partition The two guide rails 50 and 50 are slid with respect to two guide grooves 54 and 54 respectively formed in the two guide portions 52 and 52 integrally provided at the insertion portion of the mounting portion 40 in the portion 12. The passenger seat side sliding portion 42 and the driver seat side sliding portion 44 are positioned so as to be fitted with each other so that the passenger seat side sliding portion 44 and the passenger seat side opening portion 14 and the driver seat side opening portion are provided. 16, on the rear side of the plurality of vertical blades 28 respectively disposed in the interior 16, with a predetermined distance from the plurality of vertical blades 28 and extending in the arrangement direction of the plurality of vertical blades 28. I'm hurt.
[0047]
Thus, in the reciprocating plate 38, the attachment portion 40 is attached to the partition portion 12 of the housing 10 so as not to be detached, and the two guide rails 50, 50 of the attachment portion 40 are partitioned. The passenger seat side sliding portion 42 and the driver seat side sliding portion 44 are guided by the two guide grooves 54, 54 in each guide portion 52 of the section 12, so that the passenger seat side and driver seat side opening 14 is provided. , 16 are disposed on the rear side of the plurality of vertical blades 28 so as to be capable of reciprocating in the arrangement direction of the plurality of vertical blades 28.
[0048]
As is clear from FIG. 3, in this embodiment, the reciprocating plate drive unit 66 is accommodated and disposed below the reciprocating plate 38, particularly in the partition portion 12 of the housing 10. As shown in FIGS. 4 to 6, the reciprocating plate driving unit 66 includes a base plate 68 and a reciprocating plate driving motor 70 as driving means, and the motor 70 has a driving shaft. 72 and a drive gear 74 attached to the tip thereof are disposed on the lower side of the base 68 in a state of protruding from the upper side of the base plate 68. Further, on the upper surface of the base plate 68, a reciprocating plate driving first rotating shaft 76, a reciprocating plate driving second rotating shaft 78, and a reciprocating plate driving third rotating shaft 80 are reciprocated. The plate drive motor 70 is erected at a position spaced apart from the drive shaft 72 by a predetermined distance.
[0049]
A bevel gear portion 82 is integrally formed on one surface of the first reciprocating plate driving rotary shaft 76 erected at the position closest to the driving shaft 72 of the reciprocating plate driving motor 70. The two bevel gear-equipped spur gears 84a and 84b are attached to each other at a predetermined interval with the bevel gear portions 82 facing each other in the vertical direction. Of the two bevel gear-equipped spur gears 84 a and 84 b, the bevel gear-equipped spur gear 84 a located on the lower side is meshed with the drive gear 74 of the reciprocating plate drive motor 70.
[0050]
Further, a rotation range adjusting knob 86 is attached between the two bevel gear-equipped spur gears 84 a and 84 b so as to be rotatable around the first rotary shaft 76 for driving the reciprocating plate. The rotation range adjusting knob 86 has a small-diameter ring shape, and has a fitting portion 88 that is rotatably fitted to the first rotary shaft 76 for driving the reciprocating plate, and an outer periphery of the fitting portion 88. Three bevel gear rotation shafts 92, 92, 92 integrally provided at equal intervals in the circumferential direction with respect to the surface, and rotation of the three bevel gears on the outer peripheral surface of the fitting portion 88 On the upper surface of the T-shaped head portion of the arm portion 90, which has a substantially T-shaped shape extending a predetermined dimension radially outward from between two of the shafts 92, 92, 92. It consists of a substantially thin plate-shaped knob portion 91 provided integrally.
[0051]
Further, the three bevel gears 94, 94, 94 are provided on the three bevel gear rotating shafts 92, 92, 92 in the rotation range adjusting knob 86, and the two bevel gear-equipped spur gears 84a, 84b are provided. Each of the bevel gears 82 is attached so as to mesh with each other. Further, the T-shaped head portion of the arm portion 90 is substantially 1 / of an annular plate having a radius from the center of the fitting portion 88 to the tip portion of the T-shaped leg portion of the arm portion 90. It has a shape corresponding to four rounds, and its outer peripheral surface is a tooth-shaped engraving portion 93 in which gear teeth are engraved. Further, the knob 91 provided on the upper surface of the T-shaped head of the arm 90 is configured with a semicircular curved flat plate extending from one end of the head toward the other end. . And in such an arm part 90, it arrange | positions in the lower part of the said base board 68, the drive gear 122 attached to the drive shaft 120, the front-end | tip part, and the intermediate part, respectively, and a pair of clutch plates 124, 124, the tooth-shaped engraving portion 93 of the T-shaped head is engaged with the drive gear 122 of the servo motor 126 for adjusting the rotation range, which is projected from the upper side of the base plate 68. It has been.
[0052]
Thus, in the rotation range adjustment knob 86, the rotation of the rotation range adjustment servo motor 126 causes the arm 90 meshed with the drive gear 122 of the servo motor 126 to rotate, thereby rotating the rotation range. The entire adjustment knob 86 can be rotated around the first rotary shaft 76 for driving the reciprocating plate, and the knob portion 91 provided integrally with the arm portion 90 is manually rotated. Even when squeezed, the entire rotation range adjustment knob 86 is smoothly rotated by the mutual sliding action of the pair of clutch plates 124 and 124 attached to the drive shaft 120 of the rotation range adjustment servomotor 126. It is like that. The rotation range adjusting servo motor 126 is electrically connected to a predetermined control circuit (not shown) so that the rotation of the drive shaft 120 can be stopped at a predetermined position by a signal from the control circuit. It has become.
[0053]
On the other hand, a second rotary shaft 78 for driving the reciprocating plate, which is erected at a position spaced apart from the first rotary shaft 76 for driving the reciprocating plate with respect to the drive shaft 72 of the motor 70 for driving the reciprocating plate. Is attached with an intermediate spur gear 95. The intermediate spur gear 95 is meshed with an upper spur gear 84b with a bevel gear attached to the first rotary shaft 76 for driving the reciprocating plate.
[0054]
Furthermore, a lower side spur gear 96 as an opposing member is attached to the third reciprocating plate driving rotary shaft 80 which is erected at the position farthest from the driving shaft 72 of the reciprocating plate driving motor 70. Yes. Further, the lower side spur gear 96 has an annular rib 100 formed integrally and projecting at a predetermined height on the outer peripheral portion of the upper surface thereof. A shaft gear 102 having a high height is formed coaxially with the third rotary shaft 80 for driving the reciprocating plate and integrally with the lower side spur gear 96.
[0055]
Further, an upper side spur gear 98 as a rotating body having a slightly smaller diameter is disposed above the lower side spur gear 96. The upper side spur gear 98 has a stepped disk shape as a whole, with the outer peripheral portion on the lower side being thinned over a predetermined width, the outer peripheral portion being a thin portion 104, and the inner peripheral portion being a thick portion 106. It is configured. Further, in the upper side spur gear 98, the lower surface side recess 108 is formed at the center of the lower surface, and further, the upper surface is located at a position that is deviated from the center by a predetermined dimension in the radial direction. A side recess 110 is formed. The lower surface side recess 108 is configured to have a circular shape having a larger diameter than the shaft gear 102 of the lower side spur gear 96. On the other hand, the upper surface side recess 110 has a circular opening shape, and has a stepped internal shape in which the outer peripheral portion of the bottom portion is a shallow bottom and the inner peripheral portion thereof is a deep bottom. Further, at the center of the bottom of the upper surface side recess 110, the rotating shaft of the upper side spur gear 98 as a rotating body (the third rotating shaft 80 for reciprocating plate driving) is provided. An engaging means disposing body rotating shaft 112 as a second rotating shaft disposed eccentrically is erected integrally. In the lower surface side recess 108 and the upper surface side recess 110, a part corresponding to the central part of the upper side spur gear 98 is cut off at the bottom, and thereby the upper side flat part is cut. A through hole 113 that penetrates the gear 98 in the thickness direction is formed in the central portion.
[0056]
In the upper side spur gear 98, the shaft gear 102 of the lower side spur gear 96 passes through the through hole 113 in the lower surface side recess 108, and a part thereof is in the upper surface side recess 110. In the state where the thick wall portion 106 is slidably fitted inside the annular rib 100 of the lower side spur gear 96 while being exposed, it is accommodated and disposed on the rib 100 in the thin wall portion 104. Therefore, it is arranged on the lower side spur gear 96 so as to be rotatable about the same axis.
[0057]
Further, the engaging means disposing body 114 is accommodated in the upper surface side recess 110 of the upper side spur gear 98 having such an arrangement configuration. This engaging means arrangement body 114 has a generally thin disk shape as a whole, and a small-diameter gear portion 116 is integrally formed at the center of the lower surface, while the center is formed at the upper surface. An engagement means 118 having a pin shape is integrally formed with a predetermined height at a position that is deviated by a predetermined dimension in the radial direction. Then, the engaging means arranging body 114 has the gear portion 116 in the shaft gear 102 of the lower side spur gear 96 exposed in the upper surface side recess 110 through the through hole 113 in the upper surface side recess 110. While the teeth are engaged, the engaging means 118 is mounted so as to be rotatable about the rotating shaft 112 with respect to the rotating shaft 112 for engaging means provided body with the engaging means 118 projecting upward.
[0058]
Thus, under such an arrangement state, the lower side spur gear 96 is meshed with the lower side spur gear 84a with a bevel gear attached to the first rotary shaft 76 for driving the reciprocating plate. On the other hand, the upper spur gear 98 is meshed with an intermediate spur gear 95 attached to the second rotary shaft 78 for driving the reciprocating plate. It is meshed with a spur gear 84b with a bevel gear on the upper side attached to the first rotary shaft 76 for driving the reciprocating plate.
[0059]
As shown in FIG. 3, the reciprocating plate drive unit 66 having such a structure is disposed on the lower side of the reciprocating plate 38 in the partition portion 12 of the housing 10, and is provided with an engaging means arrangement body. The engaging means 118 of 114 is inserted into the engaging hole 48 provided in the engaging hole disposing portion 46 of the reciprocating plate 38 and is slidably engaged, and the rotation range adjusting knob is also provided. A portion of the 86 knobs 91 are positioned and assembled in a state of protruding from a window 128 provided on the front surface of the partition 12.
[0060]
Thus, the reciprocating plate driving motor 70 is driven and the driving gear 74 is driven to rotate, whereby the lower side bevel gear-equipped spur gear 84a is rotated and the lower side spur gear 96 is rotated. The three bevel gears 94, 94, 94 in the rotation range adjustment knob 86 are rotated by the rotation of the lower bevel gear-equipped spur gear 84 a, respectively, so that the upper side The bevel gear spur gear 84b is rotated coaxially with the lower bevel gear spur gear 84a, and the intermediate spur gear 95 is rotated accordingly, so that the upper spur gear 98 is rotated. It has become. As a result, the upper side spur gear 98 and the lower side spur gear 96 are rotated coaxially and integrally, and accordingly, are accommodated in the upper surface side recess 110 of the upper side spur gear 98. The engaging means 118 of the engaging means arranging body 114 is also rotated coaxially and integrally with the upper side spur gear 98.
[0061]
Then, with the integral rotation of the engaging means 118 with the upper side spur gear 98, the diameter of the circle drawn on the upper side spur gear 98 by the locus of the engaging means 118 (r in FIG. 4). ₁ In other words, the reciprocating plate has the same dimension as twice the distance from the engaging means 118 to the center of the upper side spur gear 98 (the third rotating shaft 80 for driving the reciprocating plate). 38 is a reciprocating motion in the arrangement direction of the plurality of vertical blades 28 behind the plurality of vertical blades 28 respectively disposed in the passenger seat side opening 14 and the driver seat side opening 16 of the housing 10. It is supposed to be squeezed.
[0062]
In the reciprocating plate drive unit 66, when the reciprocating plate 38 reciprocates as described above or when the reciprocating plate 38 stops, the servo motor 126 for adjusting the rotation range is received by a signal from a control circuit (not shown). Is driven for a predetermined time, or the knob 91 protruding from the window 128 of the partition 12 is rotated by a predetermined amount, so that the rotation range adjustment knob 86 is used for driving the reciprocating plate. The reciprocating plate 38 can be rotated by a predetermined amount around the first rotation shaft 76, so that when the reciprocating plate 38 is reciprocated, the upper side is only moved while the rotation range adjusting knob 86 is rotated. The rotational speed of the spur gear 84b with the bevel gear is changed, and when the reciprocating motion of the reciprocating plate 38 is stopped, the rotation range adjusting knob 86 is rotated. Depending on the upper side of the with bevel gear spur gear 84b is, and thus induced to rotate relative to the lower side of the attached bevel gear spur gear 84a. Therefore, both when the reciprocating plate 38 is reciprocating and when it is stopped, the upper range spur gear 98 is rotated relative to the lower side spur gear 96 by rotating the rotation range adjusting knob 86. At the same time, the engagement means arranging body 114 is engaged with the shaft gear 102 of the lower side spur gear 96 in the gear portion 116 with a predetermined rotation around the third rotary shaft 80 for driving the reciprocating plate. Thus, the engaging means 118 provided on the engaging means arrangement body 114 is rotated on the upper spur gear 98 by the center of the upper spur gear 98 (the third plate for reciprocating plate driving). The rotation axis 80) can be displaced while changing the distance.
[0063]
Therefore, in this embodiment, the distance from the engaging means 118 on the upper side spur gear 98 to the center of the upper side spur gear 98 is determined by the rotational position of the rotation range adjustment knob 86, and according to the distance, The reciprocating motion width of the reciprocating plate 38 is determined. In other words, the amount of change in the distance from the engaging means 118 to the center of the upper spur gear 98 that is changed by the rotation of the rotation range adjusting knob 86. That is, the reciprocating motion width of the reciprocating plate 38 can be changed in accordance with the displacement amount of the engaging means 118.
[0064]
Here, in particular, as shown in FIG. 4, the drive gear 122 of the servo motor 126 for adjusting the rotation range meshes with the central portion of the tooth-shaped engraving portion 93 of the arm 90 of the rotation range adjustment knob 86. This position is the original position in the rotational position of the rotation range adjustment knob 86. In such an original position, the engaging means 118 is the most on the upper spur gear 98 from its center. It can be placed at a distance. Then, the rotation range adjustment knob 86 is rotated right or left from such an original position, and the drive gear 122 of the servo motor 126 for rotation range adjustment is provided at either end of the tooth profile marking portion 93. The engagement means 118 is arranged at the center position on the upper side spur gear 98 when the rotation position at which the gears are meshed is reached. Thus, the rotation range of the reciprocating plate 38 is configured to be maximized when the rotation range adjustment knob 86 is positioned at the original position. As the moving range adjustment knob 86 is rotated to the right or left, the reciprocating motion width of the reciprocating plate 38 is reduced, and finally the reciprocating motion of the reciprocating plate 38 is stopped. .
[0065]
By the way, in the reciprocating plate 38 reciprocated by the reciprocating plate driving unit 66 in this way, as shown in FIG. 3, the passenger seat side sliding portion located behind the plurality of vertical blades 28 is provided. Clutch means 56 and 56 are respectively attached to 42 and the driver seat side sliding portion 44. Each of the clutch means 56 has a structure similar to the conventional one, and has an assembly portion 58 as a contact portion that has a cylindrical shape, and an engagement portion that extends integrally from the assembly portion 58. It has a flat drive force transmission part 60. The assembly portion 58 is externally fitted to the passenger seat side sliding portion 42 (driver seat side sliding portion 44) of the reciprocating plate 38, while the driving force transmission portion 60 is provided at the tip portion thereof. A U-shaped groove portion 62 provided on the center is engaged with a rod portion 36 integrally formed at the rear portion of the central vertical blade 28. In addition, a leaf spring 64 that is folded in half and exhibits a predetermined urging force inward in the bending direction is sandwiched between each assembly portion 58, thereby each assembly portion 58. The inner surface of the inner hole 58 is brought into contact with the passenger seat side and driver side sliding portions 42 and 44 of the reciprocating plate 38 with frictional force derived from the urging force of each leaf spring 64.
[0066]
Thus, in the two clutch means 56, 56, the reciprocating plate drive unit 66 reciprocates the reciprocating plate 38 in the direction in which the plurality of vertical blades 28 are disposed. While the force is adapted to reciprocate integrally with the reciprocating plate 38, when a force greater than the frictional force is applied, the reciprocating plate 38 is integrated with the reciprocating plate 38. The reciprocal movement can be released.
[0067]
Thus, when the two clutch means 56 and 56 and the reciprocating plate 38 are reciprocally moved together, the central vertical blade engaged with the U-shaped engaging groove 62 of each clutch means 56. 28 rod parts 36 are moved in the direction of reciprocating movement of the two clutch means 56, 56 and the reciprocating plate 38 so that the vertical blade interlocking plate 32 is moved in the same direction, that is, the plurality of vertical parts. The blades 28 are reciprocated in the arrangement direction of the blades 28, so that the plurality of vertical blades 28 are swung (rotated) all at once. Further, an acting force greater than the frictional force by the urging force of each leaf spring 64 generated between each clutch means 56 and the sliding portions 42 and 44 on the passenger seat side and driver seat side of the reciprocating plate 38 is present. When the clutch means 56 is acted on the assembly portion 58, the clutch means 56 is moved relative to the reciprocating plate 38 so that the central vertical blades on the passenger seat side and the driver seat side are provided. 28 rod parts 36 are moved in the moving direction of the clutch means 56, and accordingly, the direction (rotation direction) of the plurality of vertical blades 28 is in a direction opposite to the moving direction of the rod parts 36. In addition, the passenger seat side and the driver seat side can be changed separately.
[0068]
Here, in particular, as described above, in the reciprocating plate drive unit 66, the rotation range adjustment knob 86 is driven by a predetermined amount by driving the rotation range adjustment servo motor 126 or rotating the knob 91. The engaging means 118 that is rotated and disposed on the upper side spur gear 98 is displaced while changing the distance to the center of the upper side spur gear 98, so that the reciprocation is made according to the amount of displacement. Since the reciprocating motion width of the moving plate 38 can be changed, the rotating range adjusting knob 86 is rotated by an automatic operation by the control circuit or a manual operation with respect to the knob 91, thereby The reciprocating movement width of the two clutch means 56, 56 that can be reciprocated along with the reciprocating movement, and further the vertical blade interlocking plate 32 changes. Crimped, depending on the amount of change thereof Te following is the swing amount of the plurality of vertical blades 28 (rotation range) is adapted to be contain altered.
[0069]
Specifically, in the original position of the rotation range adjustment knob 86 in which the reciprocating plate 38 is reciprocated with the largest width, the rotation range of the plurality of vertical blades 28 is maximized, and so on. From this state, by rotating the rotation range adjustment knob 86 to the right or left, the rotation range of the plurality of vertical blades 28 gradually decreases, and finally the rotation of the plurality of vertical blades 28 is stopped. It is configured to be damped.
[0070]
As is clear from these facts, in this embodiment, the engaging means moving mechanism is provided in the reciprocating plate drive unit 66, and in such a reciprocating plate drive unit 66, The second rotation of the engagement means arrangement body 114 by the relative rotation of the rotation body and the opposing member by the gear portion 116 of the engagement means arrangement body 114 and the shaft gear 102 of the lower side spur gear 96. Second rotation operation means for rotating around the axis is configured, and further, constituent members of the second rotation operation means, upper and lower spur gears 98 and 96 as the rotating body and the opposing member, The first rotating operation in which the rotating member and the opposing member are integrally rotated by the driving means by means of the members excluding the engaging means arranging body 114, while they are relatively rotated by an external operation. Stage is what is configured. Further, in this embodiment, the reciprocating plate 38 and the two clutch means 56, 56 attached to the reciprocating plate 38 convert the rotational motion of the rotating body into the reciprocating motion in the arrangement direction of the plurality of wind direction plates. The motion conversion mechanism is configured to reciprocate the interlocking member in this direction.
[0071]
As is apparent from FIG. 3, in this embodiment, the partition wall portion 20 and the side wall portion of the housing 10, particularly at the side of the passenger seat side opening 14 and the driver seat side opening 16 in the housing 10. Position adjusting units 130 and 130 are disposed between the two. 3 and 7, each position adjusting unit 130 has a base plate 132 and a rotation direction adjusting servo motor 134. The motor 134 includes a drive shaft 136, The drive gear 138 and the pair of clutch plates 140 and 140 attached to the front end portion and the intermediate portion are disposed on the upper side of the base plate 132 in a state of protruding below the base plate 132. Yes. Further, on the lower surface of the base plate 132, a first rotating shaft 142 for changing the interlocking plate position and a second rotating shaft 144 for changing the interlocking plate position are respectively connected from the drive shaft 136 of the servo motor 134 for adjusting the rotating direction. It is erected at a position separated by a predetermined distance. The rotation direction adjusting servo motor 134 is electrically connected to a control circuit (not shown) to which the rotation range adjusting servo motor 126 is electrically connected. The rotation of the drive shaft 136 can be stopped at a predetermined position by a signal from the control circuit.
[0072]
The first rotating shaft 142 for changing the interlocking plate position, which is erected at a position close to the drive shaft 136 of the rotating direction adjusting servo motor 134, has a rotating direction adjusting knob having a substantially thin disk shape. 148 is rotatably mounted around the rotation shaft 142. Further, in the rotation direction adjusting knob 148, a small-diameter spur gear portion 146 is integrally and coaxially formed on the upper surface thereof, and the spur gear portion 146 is used for adjusting the rotation direction. The drive gear 138 of the servo motor 134 is engaged with a gear, and a part of the rotation direction adjusting knob 148 is protruded from a window 152 provided at the front of the housing 10 and positioned. .
[0073]
On the other hand, the bottom wall portion of the housing 10 immediately below the second rotating shaft 144 for changing the interlocking plate position is spaced apart from the side wall portion of the housing 10 and the partition wall portion 20 in the left-right direction. A plurality (three in this case) of guide rails 150 extending in parallel are erected. On the plurality of guide rails 150, slide stoppers 158 as stopper members are guided by the respective guide rails 150 while the respective guide rails 150 extend, that is, approach and separate from the vertical blade interlocking plate 32. It is arranged to be slidable in the direction. The slide stopper 158 has a rectangular block shape having a predetermined height. In the width direction, the slide stopper 158 penetrates in an end portion on the side separated from the vertical blade interlocking plate 32 in the height direction and is long. A long hole-like engagement hole 160 extending in a direction perpendicular to the slide movement direction of the slide stopper 158 is formed.
[0074]
Then, an engagement protrusion disposing gear 154 as a cam member is attached to the second rotating shaft 144 for changing the interlocking plate position positioned above the slide stopper 158. Further, in the engagement protrusion-arranged gear 154, a round bar-like engagement protrusion 156 that is eccentrically and integrally provided on the lower surface thereof is provided in the engagement hole 160 of the slide stopper 158. In the state of being slidably engaged with the spur gear, the spur gear portion 146 of the rotation direction adjusting knob 148 is engaged with the spur gear portion 146 and arranged. In other words, here, the cam that moves the slide stopper 158 in the reciprocating direction of the vertical blade interlocking plate 32 by the engagement protrusion 156 of the engagement protrusion arrangement gear 154 and the engagement hole 160 of the slide stopper 158. The mechanism is configured.
[0075]
Thus, in the position adjusting unit 130, the rotation direction adjusting knob 148 is rotated by driving the rotation direction adjusting servo motor 134, and thereby the engaging protrusion arranging gear 154 is rotated. And the engagement protrusion 156 is rotated coaxially with the engagement protrusion arrangement gear 154 while drawing a circular locus on the engagement protrusion arrangement gear 154. As a result, the slide stopper 158 is slid in the left-right direction approaching and separating from the vertical blade interlocking plate 32 within the same dimension as the diameter of the circle drawn by the engaging protrusion 156. It can be done.
[0076]
In such a position adjustment unit 130, the long hole-like engagement hole 160 that forms the cam mechanism together with the engagement protrusion 156 is separated from the vertical blade interlocking plate 32 in the width direction of the slide stopper 158. When the slide stopper 158 is slid in the direction closer to the vertical blade interlocking plate 32, the side of the slide stopper 158 where the engagement hole 160 is not provided is formed. Is projected from the through-hole 162 provided in the partition wall 20 into the passenger seat side opening 14 and the driver seat side opening 16 (see FIG. 7). Of the two position adjustment units 130, 130 disposed on the driver seat side and the passenger seat side in the housing 10, in the position adjustment unit 130 on the driver seat side, the rotation direction adjustment knob 148 rotates clockwise. By rotating in the clockwise direction, the engagement protrusion-arranged gear 154 is rotated counterclockwise, so that the slide stopper 158 slides in the left direction approaching the vertical blade interlocking plate 32. In the position adjustment unit 130 on the passenger seat side, the rotation direction adjustment knob 148 is rotated counterclockwise, contrary to the position adjustment unit 130 on the driver seat side. The slide stopper 158 is slid in the right direction approaching the vertical blade interlocking plate 32.
[0077]
Therefore, for example, in the driver seat side opening 16 of the housing 10, the engagement protrusion 156 of the engagement protrusion disposition gear 154 in the position adjustment unit 130 is the lengthwise end of the engagement hole 160 of the slide stopper 158. From the original position of the rotation direction adjustment knob 148 as shown in FIG. 3, the rotation direction adjustment knob 148 is rotated clockwise, so that the slide stopper 158 is moved. When the vertical blade interlocking plate 32 is moved in the leftward direction approaching the vertical blade interlocking plate 32, the reciprocating motion accompanying the reciprocating motion of the reciprocating plate 38 causes the vertical blade interlocking plate 32 to be moved in the rightward direction close to the partition wall portion 20. On the other hand, the reciprocating movement of the vertical blade interlocking plate 32 is restricted at the contact position with the slide stopper 158, and is thus applied. Reciprocating position of the blade interlocking plate 32 is adapted to obtain is caused to forcibly changed to the left direction. As a result, a force greater than the frictional force against the reciprocating plate 38 is applied to the clutch means 56 in the left direction opposite to the direction of integral movement with the reciprocating plate 38. The clutch means 56 is moved relative to the reciprocating plate 38 in the left direction. As a result, all the rotating directions of the plurality of vertical blades 28 in the driver seat side opening 16 are set to the right side. It can be changed in the direction. Also in the passenger seat side opening 14, the rotation direction adjustment knob 148 is rotated counterclockwise from the original position in the same manner as described above, so that the rotation direction of the plurality of vertical blades 28 is leftward. It will be changed to. As is clear from this, in the present embodiment, the position adjustment mechanism is constituted by the position adjustment units 130 and 130.
[0078]
Here, in particular, as described above, in each position adjustment unit 130 disposed in the openings 14 and 16 on the passenger seat side and the driver seat side of the housing 10, the rotation direction adjusting servo motor 134 is Since the rotation of the drive shaft 136 can be stopped at a predetermined position by a signal from a control circuit (not shown), the rotation positions of the rotation range adjustment knob 148 and the engagement protrusion arrangement gear 154 are determined. The slide stopper 158 is stopped at a predetermined position, and the slide position of the slide stopper 158 is also stopped at the predetermined position. As a result, the slide stopper 158 is attached to the vertical blade interlocking plate 32 at an arbitrary movement position. Thus, the plurality of vertical blades 28 in the openings 14 and 16 on the passenger seat side and the driver seat side are each changed in an arbitrary rotation direction. It has become get way. In addition, since the pair of clutch plates 140 and 140 are attached to the drive shaft 136 of the servo motor 134 for adjusting the rotation direction, the engagement protrusions are arranged even if the rotation direction adjustment knob 148 is manually rotated. The gear 154 is smoothly rotated, the slide stopper 158 is slid according to the rotation amount and the rotation direction, and the rotation direction adjusting knob 148 is manually operated, so that the plurality of the plurality of the gears 154 can be moved. The rotational direction of the vertical blade 28 can be arbitrarily changed.
[0079]
Therefore, in the air outlet device according to the present embodiment having such a structure, for example, the rotation range adjustment knob 86 of the reciprocating plate drive unit 66 and the two position adjustment units 130 and 130 are arranged. By positioning each of the rotation direction adjustment knobs 148, 148 at the original position, the plurality of vertical blades 28 in the openings 14, 16 on the passenger seat side and the driver seat side of the housing 10 are all The air can be blown out in the range shown in FIG. 9 (A) with the maximum turning range and a turning direction that is not biased to either the passenger seat side or the driver seat side.
[0080]
Further, after the rotation range adjustment knob 86 is rotated by a predetermined amount from the original position to the right side or the left side, the rotation direction adjustment knob 148 on the driver's seat side is rotated clockwise, and the rotation direction adjustment on the passenger seat side is adjusted. By rotating the knob 148 counterclockwise by a predetermined amount, the rotational range of the plurality of vertical blades 28 in the openings 14 and 16 is reduced, while the driver seat side opening 16 The rotation direction of the plurality of vertical blades 28 arranged is changed to the right side, and the rotation direction of the plurality of vertical blades 28 arranged in the passenger seat side opening 14 is changed to the left side, respectively. Air can be blown out in the range of (B) and (C) of FIG. 9 on the driver seat side and the passenger seat side, respectively.
[0081]
In such a state, after the two rotation direction adjustment knobs 148 and 148 are returned to their original positions, the rotation range adjustment knob 86 is also returned to the original position, so that each slide stopper 158 has a predetermined position. The range of rotation of the plurality of vertical blades 28 in the passenger seat side opening 14 and the driver seat side opening 16 is maximized, and the reciprocation to the partition 12 side of the housing 10 is performed. At the time of movement, the side opposite to the side of contact with each slide stopper 158 in each vertical blade interlocking plate 32 is brought into contact with the partition portion 12, and the reciprocating position of each vertical blade interlocking plate 32 is changed to each slide stopper. It is returned to the position before being displaced at 158, so that air can be blown out again within the range of FIG. 9A.
[0082]
Thus, in the vehicle air outlet apparatus according to the present embodiment, a gear mechanism (reciprocating plate drive unit 66, position) having a relatively inexpensive and simple structure simply formed by combining various gears. The adjustment unit 130) can change the rotation range and the rotation direction of the plurality of vertical blades 28, and the rotation range adjustment knob 86 incorporated in such a gear mechanism. By simply rotating the rotation direction adjusting knobs 148 and 148, the rotation range and the rotation direction of the plurality of vertical blades 28 can be easily adjusted.
[0083]
Therefore, in such an air outlet device for a vehicle, the change of the air blowing range and the blowing direction according to the situation in the passenger compartment can be performed more efficiently with superior economy as compared with the conventional device. It will be.
[0084]
In such a vehicle air outlet device, unlike the conventional device, the reciprocating plate drive unit 66 does not use any sliding mechanism for the reciprocating plate 38 of the clutch means 56, 56. Since the rotation range of the plurality of vertical blades 28 can be variably configured by changing the reciprocating motion width itself of the reciprocating plate 38, such a clutch means 56, 56 is not provided. The present invention can be advantageously applied to an air outlet device, and its application range can be effectively expanded.
[0085]
Further, in this vehicle air outlet device, the reciprocating plate drive unit 66 is disposed on the upper spur gear 98 and is slidably engaged with the engagement hole 48 of the reciprocating plate 38. The engaging means disposing body 114 having the engaging means 118 to be engaged is rotated around the rotating shaft 112 for engaging means disposing body provided eccentrically on the upper spur gear 98, thereby engaging means. 118 is displaced while changing the distance to the center of the upper side spur gear 98, and the reciprocating plate 38 of the reciprocating plate 38 is changed according to the amount of change in the distance from the engaging means 118 to the center of the upper side spur gear 98. Since the reciprocating motion width can be changed, the rotational range of the plurality of vertical blades 28 that can be changed with the change of the reciprocating motion width of the reciprocating plate 38 is the rotational motion. In the coverage area, which as it can contain altered to reliably and continuously.
[0086]
Moreover, in this vehicle air outlet device, the displacement of the engagement means 118 due to the rotation of the engagement means arrangement body 114 as described above and the change in the rotation range of the plurality of vertical blades 28 are caused to reciprocate. Since the rotation range adjustment knob 86 of the moving plate drive unit 66 can be manually or automatically operated, the air blowing range can be changed more precisely and efficiently, and more excellently. It can be done with sex.
[0087]
Further, in the vehicle air outlet apparatus according to the present embodiment, the position adjustment units 130 and 130 disposed in the housing 10 at the sides of the passenger seat side opening 14 and the driver seat side opening 16. Since the rotation direction of the plurality of vertical blades 28 can be adjusted by rotating the rotation direction adjusting knob 148, the rotation direction of the plurality of vertical blades 28 can be adjusted in the conventional apparatus. In order to adjust, the operation knob provided in the central vertical blade 28 in the state exposed in the passenger compartment in the passenger side and driver side openings 14 and 16 can be advantageously eliminated, As a result, the appearance inside the vehicle compartment can be effectively enhanced without impairing the rotational direction adjustment function of the plurality of vertical blades 28.
[0088]
Moreover, in such a vehicle air outlet device, the plurality of vertical blades 28 are also automatically operated by the rotation direction adjustment knob 148 driven by the rotation direction adjustment servo motor 134 provided in each position adjustment unit 130. Since the rotation direction can be advantageously adjusted, the air blowing direction can be changed with excellent operability as compared with the conventional apparatus.
[0089]
As such, in the vehicle air outlet apparatus according to the present embodiment, the respective rotation direction adjustment knobs 148 of the two position adjustment units 130 and 130 disposed on the passenger seat side and the driving side, respectively. Further, the rotation range adjustment knob 86 of the reciprocating plate drive unit 66 is automatically rotated by the rotation direction adjustment servomotors 134 and 134 and the rotation range adjustment servomotor 126, respectively. The servo motors 126, 134, and 134 are driven by signals from a control circuit (not shown). In particular, each rotation direction adjustment knob 148 has a front passenger seat and a driver seat. Thus, for example, the temperature difference between the air blown from the passenger side opening 14 and the driver side opening 16 and the wind The difference is has become possible to separately control and its outlet range and blowing direction.
[0090]
That is, when the temperature and air volume of the air blown from the openings 14 and 16 on the passenger seat side and the driver seat side are the same, the rotation range adjustment knob 86 and the two rotation direction adjustment knobs 148 and 148 are provided. By sending signals from the control circuit to the rotation range adjusting servo motor 126 and the rotation direction adjusting servo motors 134 and 134 so that they are positioned at the original positions, respectively, the passenger seat side and the driver seat side The air can be blown out from the openings 14 and 16 in the range of (A) in the figure, and the temperature and the air volume of the air blown from the openings 14 and 16 on the passenger seat side and the driver seat side are different. In this case, the rotation range adjustment knob 86 is rotated by a predetermined amount from the original position to the right or left side, while the rotation direction adjustment knob 148 on the driver's seat side is rotated clockwise and the passenger seat side is rotated. Direction adjustment knob 148 By sending a signal from the control circuit so that it can be rotated in a counterclockwise direction by a predetermined amount, it can be seen from the openings 14 and 16 on the passenger seat side and the driver seat side in FIGS. In this range, air can be blown out.
[0091]
Therefore, in the vehicle air outlet apparatus according to the present embodiment, when air is blown out from the passenger seat side opening 14 and the driver seat side opening 16 at the same temperature and air volume, When the air blown out from the openings 14 and 16 can be well mixed in the room and the air-conditioning environment of the entire vehicle interior can be made more uniform, while air having different temperatures and airflows are blown out. Therefore, it can be advantageously prevented that the air is mixed in the passenger compartment, and the air-conditioning environment can be made different between the passenger side and the driver side in the passenger compartment. In the passenger compartment, a more comfortable air conditioning environment according to the situation or the like can be effectively realized.
[0092]
Further, in such an air outlet device for a vehicle, as described above, the air blowing range and the blowing direction at the passenger seat side opening 14 and the driver seat side opening 16 are advantageously controlled by a single control circuit. Since it can be adjusted, there is an advantage that the air conditioning control in the passenger compartment can be performed more efficiently.
[0093]
As mentioned above, although the typical Example of this invention was described in detail, this is a literal illustration, Comprising: This invention is limited to those of those illustrations, and is not interpreted.
[0094]
For example, in the above embodiment, the reciprocating plate 38 as a reciprocating member is constituted by one member. However, the reciprocating plate 38 is constituted by two members, one of which is on the passenger seat side. You may make it arrange | position in the driver's seat side opening part 16 in the opening part 14 and the remaining one. In this case, two reciprocating plate driving units 66 for reciprocating the two reciprocating plates 38 are provided in the housing 10. Thereby, the rotation ranges of the plurality of vertical blades 28 arranged in the passenger seat side opening 14 and the plurality of vertical blades 28 arranged in the driver seat side opening 16 can be independently changed. In addition, when the plurality of vertical blades 28 are automatically rotated, it is possible to stop only the rotation of the plurality of vertical blades 28 in the opening on either the passenger seat side or the driver seat side. Therefore, a more comfortable air-conditioning environment corresponding to the situation can be effectively realized on the passenger seat side and the driver side in the passenger compartment.
[0095]
Further, in the above-described embodiment, the engaging means 118 positioned on the upper side spur gear 98 as a rotating body is provided to the reciprocating plate drive unit 66 for reciprocating the reciprocating plate 38. The engaging means moving mechanism for moving the gear 98 while changing the distance to the rotating shaft of the gear 98 (the third rotating shaft 80 for driving the reciprocating plate) has been provided. It is of course possible to provide an engaging means moving mechanism separately from the mechanism.
[0096]
Further, the structure of the engaging means moving mechanism is not limited to that in the above embodiment, and the engaging means is moved to the rotating shaft of the rotating body by moving the engaging means. Any structure can be adopted as long as the distance can be changed.
[0097]
Moreover, in the said Example, the housing 10 has two opening parts, the passenger seat side opening part 14 and the driver's seat side opening part 16, and several vertical blades as a wind direction board in each opening part 14 and 16 are provided. 28 is arranged in such a manner that it is connected to two of the vertical blade interlocking plates 32 as interlocking members, but the housing 10 has one opening, and the opening Even if it has a structure in which a plurality of vertical blades 28 are connected to one vertical blade interlocking plate 32 in the section, there is no problem.
[0098]
Further, in the above-described embodiment, the slide stopper 158 is provided. When the slide stopper 158 is slid and moved, it directly engages with the vertical blade interlocking plate 32 and the reciprocating position of the vertical blade interlocking plate 32 is set. A position adjusting unit 130 as a position changing mechanism to be changed is located in the housing 10 between the partition wall portions 20 and the side wall portions of the housing 10 at the sides of the passenger seat side opening 14 and the driver seat side opening 16. There are two in total, one in between, but in addition to these two, one such position adjustment unit 130 is provided on each of the openings 14 and 16 on the partition 12 side. A total of four may be provided. Thereby, the vertical blade interlocking plates 32 and 32 arranged in the openings 14 and 16 can be brought into contact with the slide stoppers 158 of the position adjusting units 130 at both ends, respectively. Unlike the above embodiment, the rotational direction of the plurality of vertical blades 28 can be changed more freely without any operation of the reciprocating plate drive unit 66 that changes the rotational range of the plurality of vertical blades 28. It is. In addition, when the housing 10 is configured with one opening and only one vertical blade interlocking plate 32 is disposed in the opening, only one end of the vertical blade interlocking plate 32 contacts the slide stopper 158. It is also possible to provide only one position adjustment unit 130 only on one side of the opening so as to come into contact with and engage with each other, and both ends of the vertical blade interlocking plate 32 are provided with slide stoppers. It is also possible to provide a total of two position adjustment units 130, one on each side of the opening, so that they can be brought into contact with and engaged with 158.
[0099]
Further, the structure of the position adjusting unit 130 constituting the position changing mechanism is not limited as in the above-described embodiment, and is accompanied by the reciprocating motion of the reciprocating plate 38 in the direction in which the plurality of vertical blades 28 are disposed. Any structure can be adopted as long as the reciprocating position of the vertical blade interlocking plate 32 reciprocally moved in such a direction can be directly engaged with the vertical blade interlocking plate 32 and changed. Of course.
[0100]
Furthermore, in the embodiment, the reciprocating plate drive unit 66 is provided with the rotation range adjustment knob 86, and the position adjustment unit 130 is provided with the rotation direction adjustment knob 148. The adjustment knobs 86 and 148 are respectively A part of the exposed part is positioned in the vehicle interior, and the exposed part is manually rotated, or automatically operated by the servo motor 126 for adjusting the rotation range or the servo motor 134 for adjusting the rotation direction. The rotation range and the rotation direction of the plurality of vertical blades 28 can be adjusted by rotating the rotary blade 28, but the rotation range adjustment knob 86 and the rotation direction adjustment knob 148 can be adjusted. The rotation operation may be performed only by an automatic operation, or the rotation operation may be performed only by a manual operation. Thereby, in the former case, the exposed portion of the rotation range adjustment knob 86 and the rotation direction adjustment knob 148 in the vehicle interior can be advantageously eliminated, and the appearance on the vehicle interior side can be further enhanced. In the latter case, excellent operability can always be exhibited.
[0101]
In addition, in the said Example, although the specific example of what applied this invention with respect to the air outlet apparatus for motor vehicles was shown, this invention is with respect to the air outlet apparatus with which vehicles other than a motor vehicle are equipped with others. Of course, it can be advantageously applied.
[0102]
In addition, although not listed one by one, the present invention can be implemented in a mode to which various changes, modifications, improvements, etc. are added based on the knowledge of those skilled in the art. It goes without saying that all are included in the scope of the present invention without departing from the spirit of the invention.
[0103]
【The invention's effect】
As is clear from the above description, in the vehicle air outlet device according to the present invention, the distance from the engaging means to the rotating shaft of the rotating body is increased by the movement of the engaging means by the engaging means moving mechanism. By being changed, the reciprocation width of the interlocking member can be changed, and accordingly, the rotation direction of the plurality of wind direction plates can be changed according to the change amount of the reciprocation width of the interlocking member. Therefore, the rotation range of the wind direction plate at the time of automatic operation can be changed within the rotation range with an extremely low cost and simple structure as compared with the conventional apparatus, and the air Can be blown out in a desired range, so that the air blowing range can be changed more efficiently depending on the situation in the vehicle interior.
[0104]
Further, in the vehicle air outlet apparatus according to the present invention, the position changing mechanism that is directly engaged with the interlocking member forcibly changes the reciprocating position of the interlocking member to By operating relative movement, the operation knob provided in the conventional device for changing the direction of rotation of the wind direction plate is eliminated without impairing the function of changing the direction of rotation of the wind direction plate. This makes it possible to effectively improve the appearance of the vehicle interior side while advantageously ensuring the function of changing the direction of rotation of the wind direction plate.
[0105]
Furthermore, in the vehicle air outlet apparatus according to the present invention, the position adjusting mechanism that adjusts the rotation direction of the plurality of wind direction plates arranged in the two openings is configured to be easily automated. Because the rotation range of these wind direction plates can be adjusted with low cost and simple structure, the two openings can be independently operated with excellent operability and economy. Therefore, a more comfortable air-conditioning environment according to the situation or the like can be advantageously realized in the vehicle interior.
[Brief description of the drawings]
FIG. 1 is an explanatory front view showing an example of a vehicle air outlet device according to the present invention.
FIG. 2 is an explanatory cross-sectional view showing an enlarged AA cross section in FIG. 1;
FIG. 3 is a cross-sectional explanatory view taken along the line BB in FIG. 2;
FIG. 4 is a view for explaining a mechanism for engaging a reciprocating member with a reciprocating member provided with an engagement means moving mechanism provided in the vehicle air outlet device shown in FIG. 1;
FIG. 5 is a cross sectional view taken along the line CC in FIG. 4;
6 is an exploded perspective view of the mechanism shown in FIG. 4. FIG.
7 is a longitudinal sectional view for explaining a position changing mechanism provided in the vehicle air outlet device shown in FIG. 1. FIG.
FIG. 8 is a longitudinal sectional view showing an example of a conventional vehicle air outlet device.
FIG. 9 is an explanatory diagram showing a blowout range of air into the passenger compartment.
10 is an explanatory plan view showing a configuration of clutch means and a reciprocating member provided in the vehicle air outlet device shown in FIG. 8. FIG.
FIG. 11 is an explanatory plan view showing a state where the reciprocating member is moved in FIG. 10;
12 is an explanatory plan view showing a state in which a reciprocating member is moved in a state where the arrangement of two limit switches is changed in FIG. 10;
[Explanation of symbols]
10 Housing 14 Passenger side opening
16 Driver's seat side opening 28 Vertical blade
32 Vertical blade interlocking plate 38 Reciprocating plate
48 engagement hole 56 clutch means
66 reciprocating plate driving unit 70 reciprocating plate driving motor
86 Rotation range adjustment knob 96 Lower side spur gear
98 Upper side spur gear 112 Rotating shaft for engaging means provided body
114 engagement means arrangement body 118 engagement means
126 Servo motor for adjusting the rotation range
134 Servo motor for rotating direction adjustment
130 Position adjustment unit 148 Rotation direction adjustment knob
158 Slide stopper

Claims (9)

A plurality of wind direction plates arranged in parallel to each other and rotatable in the same direction are connected to the plurality of wind direction plates in the opening portion of the housing that opens into the vehicle compartment, and the plurality of wind direction plates are arranged. The interlocking member that is reciprocally movable in the installation direction is configured to rotate in conjunction with each other, and the driving force of the driving means is transmitted to the interlocking member so that the wind direction plate is rotated by the interlocking member. In the air outlet device for a vehicle,
A rotating body that is driven to rotate about one axis by the driving means;
Engagement means that is located on the surface on one side in the axial direction of the rotating body and is rotated together with the rotating body around the rotating shaft of the rotating body, the distance to the rotating shaft of the rotating body being variable When,
An engagement means moving mechanism capable of moving the engagement means to change the distance of the engagement means to the rotation axis of the rotating body;
The drive means is disposed between the engagement means and the plurality of wind direction plates or interlocking members in a state of being engaged with or coupled to the engagement means and the plurality of wind direction plates or the interlocking members. The interlocking member is converted into a reciprocating motion in the direction of arrangement of the plurality of wind direction plates by converting the rotational motion of the engaging means around the rotational axis of the rotating body accompanying the rotational driving of the rotating body about one axis by A motion conversion mechanism that reciprocates in the arrangement direction of the plurality of wind direction plates,
The reciprocating movement width of the interlocking member can be changed by changing the distance from the engaging means to the rotating shaft of the rotating body by moving the engaging means by the engaging means moving mechanism. An air outlet device for a vehicle, characterized in that it is configured as described above. A plurality of wind direction plates arranged in parallel to each other and rotatable in the same direction are connected to the plurality of wind direction plates in the opening portion of the housing that opens into the vehicle compartment, and the plurality of wind direction plates are arranged. The interlocking member that is reciprocally movable in the installation direction is configured to rotate in conjunction with each other, and the driving force of the driving means is transmitted to the interlocking member so that the wind direction plate is rotated by the interlocking member. In the air outlet device for a vehicle,
A reciprocating member which is reciprocated by the driving means in the same direction as the direction of arrangement of the plurality of wind direction plates;
An engaging portion that engages with the plurality of wind direction plates or the interlocking member and an abutting portion that abuts against the reciprocating member with a frictional force, and reciprocates integrally with the reciprocating member with the frictional force. Clutch means for releasing the integral movement with the reciprocating member when a force greater than the frictional force is applied while transmitting the driving force of the driving means to the interlocking member.
As the reciprocating member reciprocates in the direction in which the plurality of wind direction plates are disposed, the reciprocating position of the interlocking member that is reciprocated in this direction is directly engaged with the interlocking member to be changed. The position change mechanism,
By providing and forcibly changing the reciprocating position of the interlocking member with the position changing mechanism, a force greater than the frictional force is applied to the contact portion of the clutch means, and the clutch means A vehicular air outlet device characterized in that it is configured to move relative to the reciprocating member. A plurality of wind direction plates arranged in parallel to each other and rotatable in the same direction are connected to the plurality of wind direction plates in the opening portion of the housing that opens into the vehicle compartment, and the plurality of wind direction plates are arranged. The interlocking member that is reciprocally movable in the installation direction is configured to rotate in conjunction with each other, and the driving force of the driving means is transmitted to the interlocking member so that the wind direction plate is rotated by the interlocking member. In the air outlet device for a vehicle,
A rotating body that is driven to rotate about one axis by the driving means;
Engagement means that is located on the surface on one side in the axial direction of the rotating body and is rotated together with the rotating body around the rotating shaft of the rotating body, the distance to the rotating shaft of the rotating body being variable When,
An engagement means moving mechanism capable of moving the engagement means to change the distance of the engagement means to the rotation axis of the rotating body;
A reciprocating member that is reciprocated by the driving means in the same direction as the arrangement direction of the plurality of wind direction plates; and an engaging portion that engages with the plurality of wind direction plates or the interlocking member. While having a contact portion that contacts the moving member with a frictional force and reciprocating integrally with the reciprocating member by the frictional force, the driving force of the driving means is transmitted to the interlocking member, A clutch means for releasing an integral movement with the reciprocating member when a force greater than the frictional force is applied, the engaging means and the plurality of wind direction plates or the interlocking member; Engaged with or coupled to the plurality of wind direction plates or interlocking members and engaged with the rotation of the rotating body about one axis by the driving means. Rotating shaft of said rotating body of means The Rino rotational motion, and the plurality of allowed converted into a reciprocating motion in the arrangement direction of the wind direction plate, a motion converting mechanism so as to reciprocate the interlocking member in the arrangement direction of the plurality of wind direction plate,
The reciprocating position of the interlocking member that is reciprocally moved in the direction in which the plurality of wind direction plates are reciprocated in the reciprocating member of the motion conversion mechanism is directly engaged with the interlocking member. And the position change mechanism to change
The reciprocating movement width of the interlocking member can be changed by changing the distance from the engaging means to the rotating shaft of the rotating body by moving the engaging means by the engaging means moving mechanism. On the other hand, by forcibly changing the reciprocating position of the interlocking member by the position changing mechanism, a force greater than the frictional force is applied to the contact portion of the clutch means of the motion conversion mechanism. A vehicular air outlet device characterized in that the clutch means is relatively moved with respect to the reciprocating member. In the two openings of the housing that opens in the passenger compartment, a plurality of wind direction plates that are respectively arranged in parallel and rotatable in the same direction are respectively connected to the plurality of wind direction plates in the two openings. In addition, the two interlocking members that are capable of reciprocating in the arrangement direction of the plurality of wind direction plates are configured to rotate in conjunction with each other, while transmitting the driving force of the driving means to the two interlocking members. In the vehicle air outlet device for rotating the plurality of wind direction plates by the two interlocking members,
A rotating body that is driven to rotate about one axis by the driving means;
Engagement means that is located on the surface on one side in the axial direction of the rotating body and is rotated together with the rotating body around the rotating shaft of the rotating body, the distance to the rotating shaft of the rotating body being variable When,
An engagement means moving mechanism capable of moving the engagement means to change the distance of the engagement means to the rotation axis of the rotating body;
A reciprocating member that is reciprocated by the driving means in the same direction as the arrangement direction of the plurality of wind direction plates, and an engaging portion that engages with the plurality of wind direction plates or the two interlocking members; A contact portion that contacts the reciprocating member with frictional force, and is reciprocated integrally with the reciprocating member by the frictional force, thereby driving the driving force of the driving means to the two interlocking members. Two clutch means for releasing the integral movement with the reciprocating member when a force greater than the frictional force is applied to the engaging means and the plurality of wind directions. In a state of being engaged with or coupled to the plate or the two interlocking members, disposed between the engaging means and the plurality of wind direction plates or the two interlocking members, For rotational drive around one axis The rotational movement of the engaging means around the rotational axis of the rotating body is converted into reciprocating movement in the direction of arrangement of the plurality of wind direction plates, and the two interlocking members are arranged in the arrangement of the plurality of wind direction plates. A motion conversion mechanism that reciprocates in the direction;
A plurality of stopper members that are in contact with both end portions of the two interlocking members and restrict reciprocal movement of the two interlocking members in the direction in which the plurality of wind direction plates are disposed; A stopper member moving means for moving at least one of the two interlocking members in a reciprocating direction of the two interlocking members so as to approach or separate from the two interlocking members. The reciprocating position of the two interlocking members can be forcibly changed independently by moving the stopper member close to the two interlocking members and bringing them into contact with the two interlocking members at an arbitrary movement position. The position change mechanism,
The reciprocating movement width of the two interlocking members is changed by changing the distance from the engaging means to the rotating shaft of the rotating body by moving the engaging means by the engaging means moving mechanism. On the other hand, the position changing mechanism forcibly changes the reciprocating positions of the two interlocking members independently of each other so that the contact portions of the two clutch means of the motion conversion mechanism can be changed. An air outlet device for a vehicle, wherein a force greater than the frictional force is applied and the two clutch means are independently moved relative to the reciprocating member. . The engaging means moving mechanism is disposed on a surface on one side in the axial direction of the rotating body so as to be rotatable around a second rotating shaft disposed eccentrically with respect to the rotating shaft of the rotating body, And an engagement means arrangement body in which the engagement means is eccentrically provided on a surface opposite to the surface facing the rotation body, and the engagement means arrangement body is provided around the second rotation axis. The structure according to claim 1, 3, or 4, wherein the engagement means can be moved by rotating the rotation means to change a distance to the rotation axis of the rotating body. The air outlet apparatus for vehicles as described. The engaging means moving mechanism is opposed to the rotating body and is arranged to be rotatable around the rotation axis of the rotating body, and the driving means connects the facing member and the rotating body to the rotating body. First rotating operation means for rotating the counter member and the rotating body relative to each other by an external operation while rotating integrally around the rotation shaft, and the counter member and the rotating body by the first rotating operation means 6. The vehicle according to claim 5, further comprising: a second rotation operation unit that rotates the engagement unit arrangement body around the second rotation axis in association with relative rotation with the second rotation operation unit. Air outlet device. The position changing mechanism is in contact with both end portions of the interlocking member, and two stopper members for restricting reciprocating movement of the plurality of wind direction plates in the interlocking member, and of the two stopper members And a stopper member moving means for moving at least one of the interlocking members in the reciprocating direction of the interlocking member so as to approach or separate from the interlocking member. In such a stopper member moving means, the at least one stopper member is 3. The reciprocating position of the interlocking member can be forcibly changed by moving the interlocking member closer to contact with the interlocking member at an arbitrary movement position. The vehicle air outlet apparatus according to claim 3. The stopper member moving means is disposed so as to be rotatable about one axis, and a cam member in which an engaging protrusion is eccentrically provided on one axial surface, and the at least one stopper member An engagement hole or an engagement recess formed so as to extend in a direction substantially perpendicular to the reciprocating direction of the stopper member and in which the engagement protrusion of the cam member is slidably engaged. 8. The vehicle air outlet device according to claim 4, wherein the stopper member is constituted by a cam mechanism that moves the stopper member in a reciprocating direction of the interlocking member. The vehicular air outlet device according to claim 3 or 4, further comprising a single operating means for simultaneously operating the engaging means moving mechanism and the position changing mechanism.

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