JP2004322981A - Blow-out port device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simplify a configuration of a blow-out port device controlling direction of wind. <P>SOLUTION: Guide bodies 31, 31 provided with guide parts 33, 33 are arranged inside a case body 11 connected with an air conditioner of an automobile so as to advance and retract. These guide parts 33, 33 advance and retract by an operation means 14. Each guide body 31 is provided with the inclined guide part 33. A knob part 44 of the operation means 14 is operated to move the guide bodies 31, 31 in the opposite directions for each other. Direction of wind can be set by the guide part 33 of the guide body 31 moving onto the downstream side. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to, for example, an air outlet device of an air conditioner provided in an instrument panel of an automobile.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for example, an outlet device that is provided on an instrument panel of an automobile and adjusts a wind direction of wind supplied from an air conditioner is known. In this type of outlet device, a large number of louvers are rotated in conjunction with each other to control the direction in which wind is blown. However, this configuration has a problem that the number of parts such as louvers and links connecting these louvers is large, the structure is complicated, and it is difficult to reduce the manufacturing cost.
[0003]
In this respect, a configuration is known in which a partition plate having the same thickness as the slit-shaped outlet is disposed inside the case body, and a louver is disposed on the upstream side of the partition plate to improve the appearance. (For example, see Patent Document 1). However, this configuration has a problem that the flow path is narrowed by the partition plate, and the airflow resistance is increased.
[0004]
Further, there is known a configuration in which a columnar or spherical grill is arranged inside a case body, and the grill is turned to adjust the wind direction (for example, see Patent Document 2). However, this configuration has a problem in that when the grill is largely rotated, a part of the grill is inclined in a direction against the flow and protrudes into the flow path, and the ventilation resistance is increased.
[0005]
[Patent Document 1]
Japanese Patent Publication No. 5-15938 (Section 2, Fig. 2A)
[0006]
[Patent Document 2]
Japanese Utility Model Publication No. 52-16148 (FIG. 1)
[0007]
[Problems to be solved by the invention]
As described above, the configuration in which a large number of louvers are rotated in conjunction with each other has a problem that the number of parts is large, the structure is complicated, and it is difficult to reduce the manufacturing cost. In addition, the configuration in which a partition plate having the same thickness as the slit-shaped outlet is arranged inside the case body, and the configuration in which a columnar or spherical grill is arranged inside the case body increases ventilation resistance. Have problems.
[0008]
The present invention has been made in view of such a point, and an object of the present invention is to provide an outlet device that can smoothly control a fluid with a simple configuration.
[0009]
[Means for Solving the Problems]
The air outlet device according to claim 1, wherein the air outlet, a case body provided with a fluid passage through which a fluid flows in a predetermined direction toward the air outlet, and the fluid passage are arranged, and approach each other toward the air outlet. A plurality of guides provided with guide portions that are inclined and protruded in the direction, and at least one of these guides is provided on the guide means and the one guide portion that are guided so as to be able to advance and retreat along the predetermined direction. And operating means for relatively moving the other guide portion along the predetermined direction.
[0010]
In this configuration, the operating means is operated to relatively move one guide portion to the outlet side from the other guide portion, so that the fluid outlet direction is guided by the guide portion on the outlet side. . Further, by arranging the plurality of guide portions at the same position with respect to the outlet, the fluid is guided in the front direction. The structure is simple, the manufacturing cost is easily reduced, and the degree of freedom of the shape is improved. The structure that blocks the fluid inside the fluid passage can be suppressed, and the ventilation resistance can be easily reduced.
[0011]
According to a second aspect of the present invention, in the first aspect, the operating means moves the plurality of guide portions in a direction away from each other along the predetermined direction.
[0012]
In this configuration, the wind direction changes greatly with respect to the amount by which the operation means is operated, and the operability is easily improved.
[0013]
According to a third aspect of the present invention, in the first aspect, the operating means moves the plurality of guides to a position where the guides are continuous with each other.
[0014]
In this configuration, by moving the guide portions to positions that are continuous with each other, the fluid is guided so as to concentrate, and the concentrated diffusion state is adjusted.
[0015]
According to a fourth aspect of the present invention, in the air outlet device according to any one of the first to third aspects, the operating means is supported to be swingable, and is rotatable by an operable knob portion and each guide portion. It is provided with a knob body having a link connection portion slidably connected.
[0016]
In this configuration, the swinging operation of the knob adjusts the direction in which the fluid is blown out. The structure is simple, and the manufacturing cost is easily reduced.
[0017]
An outlet device according to a fifth aspect of the present invention is the outlet device according to any one of the first to third aspects, wherein the operating means includes a knob body provided with an operable knob portion rotatably supported; And a cam body provided with a cam groove which is rotated in accordance with the rotation of the body and is rotatably and slidably connected to each guide portion.
[0018]
In this configuration, the direction in which the fluid is blown out is adjusted by rotating the knob.
[0019]
According to a sixth aspect of the present invention, in the outlet device of the fifth aspect, the knob body is formed in an annular shape that rotates along the outer edge of the outlet.
[0020]
In this configuration, the direction in which the fluid is blown out is adjusted by rotating the knob body along the outer edge of the outlet. There is no need to dispose a knob body in the fluid passage, so that the ventilation resistance is easily reduced and the appearance can be improved.
[0021]
According to a seventh aspect of the present invention, in the air outlet device according to any one of the first to sixth aspects, the case body includes an inner cylinder provided with a fluid passage and an outer cylinder rotatably fitted with the inner cylinder. It is provided with.
[0022]
In this configuration, the fluid is guided in any direction by rotating the inner cylinder with respect to the outer cylinder together with the configuration according to any one of claims 1 to 6.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of an outlet device of the present invention will be described with reference to the drawings.
[0024]
1 and 2, reference numeral 10 denotes an air outlet device. The air outlet device 10 is also called a ventilator, a grill, a wind direction control device, or the like. It is attached to an opening in the body. The outlet device 10 is connected to an air conditioner via a duct (not shown), and controls the direction of conditioned air, which is a wind supplied as a fluid from the air conditioner. Hereinafter, the vehicle compartment side will be referred to as the downstream side, the side connected to the duct will be referred to as the upstream side, and the direction from the upstream side to the downstream side will be referred to as a predetermined direction A.
[0025]
The outlet device 10 includes a case body 11, a guide means 12 housed in the case body 11, and an operation means 14 for operating the guide means 12. In the present embodiment, the case body 11 is attached to a thin rectangular cylindrical synthetic resin case body 21 having a small height and a large width, and a downstream end of the case body 21. And a finisher 22 made of synthetic resin, and a fluid passage B is formed inside. The finisher 22 is formed such that its height decreases toward the downstream side, and has a slit-shaped outlet 24 that is long in the width direction. Further, the outlets 24 of the finisher 22 are partitioned in pairs on both sides to form a pair of outlets 25, 25. Each outlet 25, 25 has a plurality of fixed or movable louvers 27, respectively. Mounted vertically. Further, an operation means support portion 28 is provided at a central portion in the width direction of the finisher 22. The operation means support portion 28 includes a pair of support pieces 29, 29 on both sides, and a columnar shaft 30 protruding in the horizontal direction and approaching each other from the support pieces 29, 29.
[0026]
The guide means 12 includes a pair of upper and lower guides 31, 31. Each of the guides 31 is a so-called wind guide plate integrally formed of a synthetic resin, and includes a guide body 32 and a guide 33 integrally provided from the guide body 32. The guide body 32 has a shape along the inner surface of the case body 21 and is formed in a flat plate shape in the present embodiment. The guide body 32 is slidably guided by the inner surface of the case body 21 and is supported so as to be able to advance and retreat along a predetermined direction A. The guide portion 33 extends from the downstream end of the guide body 32 so as to form an inclined surface toward the center of the fluid passage B toward the downstream side. Further, in the present embodiment, each guide portion 33 is inclined so as to be substantially parallel to the finisher 22, and when the guide body 31 advances in the predetermined direction A, the guide portion 33 abuts along the finisher 22. Are in contact with each other. When the upper and lower guides 31 are at the same position with respect to the predetermined direction A, the distance L between the distal ends of the guides 33 is substantially equal to the size of the outlet 24 of the finisher 22. Have been. Further, a link receiving portion 35 projects from the guide portion 33 in a vertical direction, that is, perpendicular to the predetermined direction A, from a position slightly shifted from the center portion in the width direction. The link receiving portion 35 has a plate shape having a thickness direction in the width direction, and has a link receiving hole portion 36 penetrating in the width direction and extending in the vertical direction, that is, along the longitudinal direction of the link receiving portion 35.
[0027]
Further, the operating means 14 is formed of a synthetic resin in a substantially T shape, and has a base 42 provided with a circular concave or circular bearing 41, and a knob integrally extended downstream from the base 42. A portion 44 and a pair of link connecting portions 45 protruding from the upstream side of the base portion 42 in a vertical direction orthogonal to the knob portion 44. The operating means 14 is inserted into the bearing 41 of the base 42 so as to sandwich the pair of shafts 30 of the finisher 22, and is pivotally supported by the case body 11 so as to be swingable. That is, in the present embodiment, the knob portion 44 protrudes from the outlet 24 of the case body 21 to the downstream side, that is, the vehicle compartment side, and the knob portion 44 is pivotally supported so as to be able to swing vertically. In other words, the knob 44 is supported like a seesaw switch. Further, from the vicinity of the distal end of the link connecting portion 45, cylindrical link shaft portions 47 are protrudingly provided in both side directions, and these link shaft portions 47 are inserted into the link receiving holes 36 of the respective guides 31 and rotated. It is freely and movably connected.
[0028]
Therefore, by vertically swinging the knob portion 44 of the operation means 14, the upper and lower guides 31, 31 are moved in opposite directions in conjunction with each other to adjust the wind direction.
[0029]
That is, as shown in FIG. 1A, when the knob 44 is in a horizontal state parallel to the predetermined direction A, the upper and lower guides 31, 31 are linked by the link mechanism between the link shaft 47 and the link receiving hole 36. They move to the same position in the predetermined direction A. In this state, the guide portions 33 of the guide body 31 forming a pair up and down act similarly to each other, and the conditioned air F is guided to the front side along the predetermined direction A.
[0030]
Further, as shown in FIG. 1B, when the knob 44 is rocked in any direction intersecting the predetermined direction A, for example, when the knob 44 is rocked upward, the link shaft is By the link mechanism of the link 47 and the link receiving hole 36, the guide portion 33 of the lower guide body 31 advances to the downstream side, and the guide portion 33 of the upper guide body 31 retreats to the upstream side. In this state, the conditioned air F is guided by the guide 33 moved to the downstream side so as to be collected, including the conditioned air F1 whose direction has been changed by the guide 33 moved to the upstream side. The conditioned air can be bent upward, which is the same direction as.
[0031]
As described above, according to the first embodiment of the present invention, the guides 31, 31 having the guides 33, 33 are disposed inside the case body 11 so as to be able to advance and retreat, and these are guided by the operating means 14. By displacing the portions 33, 33, the wind direction can be easily controlled in a desired direction. Therefore, as compared with a configuration using a large number of louvers, the structure can be simplified, the manufacturing cost can be reduced, the size and the weight can be easily reduced, and it is easy to cope with the air outlet having various shapes. .
[0032]
In addition, since the structure is simple, there is no need to dispose a complicated link device or the like in the fluid passage B inside the case body 11, and no inclined surface is formed in the direction opposite to the flow of the conditioned air. , Air conditioner efficiency can be improved, and noise can be reduced.
[0033]
In particular, when the number of the guides 31 is two, the structure can be simplified, and it is possible to easily reduce the manufacturing cost, reduce the size and weight, reduce the ventilation resistance, reduce the noise, and the like.
[0034]
In addition, since the pair of guide portions 33, 33 move simultaneously in opposite directions, the wind direction can be largely changed with respect to the operation amount of the knob portion 44 of the operation means 14, and the operability can be easily improved. .
[0035]
In the above-described embodiment, the air outlet device 10 that is suitable for being disposed in a narrow portion is formed by using the rectangular cylindrical case body 11, but the shape of the case body can take various shapes. In addition, by combining appropriate configurations, guidance can be provided not only in one dimension, such as in the vertical direction, but also in two dimensions. Further, in the above-described embodiment, the operating means 14 having the oscillating knob portion 44 is connected to each of the guides 31, 31 to realize a simplified structure. , Or by disposing these link mechanisms outside the case body to improve the appearance, improve the operability, or reduce the airflow resistance.
[0036]
Further, the number of guides for guiding the fluid is not limited to two, and three or more guides may be provided. In addition, not only the guides are simply moved in opposite directions but also the front and back are integrally moved with respect to the case body, so that the concentration and the diffusion state can be adjusted.
[0037]
Hereinafter, other embodiments will be sequentially described with reference to the drawings.
[0038]
In the second embodiment, as shown in FIGS. 3 to 6, a so-called round ventilator which is attached to a circular opening is realized.
[0039]
The outlet device 110 includes a case body 111, guide means 112 housed in the case body 111, and operation means 114 for operating the guide means 112. In the present embodiment, the case body 111 includes a cylindrical outer cylinder (outer case) 120 and an inner cylinder (inner case) 121 made of synthetic resin, and a downstream end of the outer cylinder 120 and the inner cylinder 121. And a finisher 122 made of synthetic resin attached to the portion, and a fluid passage B is formed inside. The inner cylinder 121 has a cylindrical inner cylinder main body 121a, a flange 121b formed at an upstream end of the inner cylinder main body 121a so as to protrude to the outer peripheral side, and a downstream end. A plurality of elastically deformable mounting protrusions 121c protruding in a claw shape on the outer peripheral side are formed integrally therewith. Further, the outer cylinder 120 has a cylindrical shape slidably fitted to the outer peripheral portion of the inner cylinder main body 121a, and has an attachment portion (not shown) attached to the vehicle body on the outer peripheral surface. Further, the finisher 122 is formed with a fitting portion 122a that fits into the distal end portion of the inner cylinder main body 121a, and a guard portion 122b that covers a part of the circular outlet 124 with a crosspiece. The fitting portion 122a has a mounting hole 122c that engages with the mounting protrusion 121c. Therefore, in a state where the outer cylinder 120 is fitted to the outer peripheral portion of the inner cylinder main body 121a and the finisher 122 is fitted to the distal end of the inner cylinder main body 121a, the engagement between the mounting projection 121c and the mounting hole 122c is performed. Thus, the finisher 122 is fixed to the inner cylinder 121, and the outer cylinder 120 is relatively rotatably supported between the fitting portion 122a of the finisher 122 and the flange portion 121b of the inner cylinder 121. Further, an operation means support portion 128 is provided on the guard portion 122b of the finisher 122. The operation means support portion 128 includes a pair of support pieces 129, 129 and a columnar shaft 130 protruding in the horizontal direction and approaching from the support pieces 129, 129.
[0040]
The guide means 112 includes a pair of guides 131, 131. Each of the guides 131 is a so-called baffle plate integrally formed of a synthetic resin, and includes a guide body main portion 132 and a guide portion 133 integrally provided from the guide body main portion 132. The guide body 132 has a shape along the inner surface of the inner cylinder 121, and in the present embodiment, is formed into a curved surface forming a part of the cylinder. The guide body 132 is slidably guided by the inner surface of the inner cylinder 121 and is supported so as to be able to advance and retreat along a predetermined direction A. The guide portion 133 extends from the downstream end of the guide body main portion 132 so as to form an inclined surface toward the center of the fluid passage B toward the downstream side. Further, in the present embodiment, each guide portion 133 is formed in a curved shape that is a part of a truncated cone. Further, from each guide body 131, a link receiving portion 135 is provided so as to project toward the inner peripheral side and perpendicular to the predetermined direction A. In the vicinity of the distal end of the link receiving portion 135, a cylindrical link shaft portion 136 is formed.
[0041]
Further, the operating means 114 includes a base 142 formed of a synthetic resin in a substantially T-shape and having a circular concave portion or a circular bearing portion 141, and a knob integrally extended downstream from the base 142. A portion 144 and a pair of link connection portions 145 protruding from the upstream side of the base portion 142 in a vertical direction orthogonal to the knob portion 144 are provided. The knob 144 is formed in a square plate shape having a larger width than the base 142. The operating means 114 is inserted so that the bearing 141 of the base 142 sandwiches the pair of shafts 130 of the finisher 122, and is swingably supported by the case body 111. That is, in the present embodiment, the knob 144 projects from the outlet 124 of the inner cylinder 121 to the downstream side, that is, to the vehicle compartment side, and the knob 144 is pivotally supported so as to be swingable. In other words, the knob 144 is supported like a seesaw switch. In addition, a link receiving hole 147 that is long along the longitudinal direction of the link connection portion 145 is formed near the distal end portion of the link connection portion 145. The link shaft portions 136 of the respective guides 131 are inserted into these link receiving holes 147 and connected rotatably and movably.
[0042]
In addition, the outlet device 110 constitutes an assembly in which a pair of guides 131, 131 are assembled to an operating means 114 and the operating means 114 is assembled to a finisher 122, while an inner cylinder 121 and an outer cylinder 120 are combined. By inserting the assembly inside the inner cylinder 121, the assembly can be easily performed.
[0043]
Therefore, by swinging the knob 144 of the operating means 114, the guides 131, 131 move in the opposite directions in conjunction with each other, and the knob 144 is rotated to rotate the knob 144 together with the inner cylinder 121. By rotating 131, the wind direction can be adjusted.
[0044]
That is, as shown in FIG. 5A, when the knob 144 is parallel to the predetermined direction A, the upper and lower guides 131, 131 are mutually connected by the link mechanism of the link shaft 136 and the link receiving hole 147. It moves to the same position in the predetermined direction A. In this state, the guide portions 133 of the guide body 131 forming a pair up and down act in the same manner, and the conditioned air F is guided to the front side along the predetermined direction A.
[0045]
Further, as shown in FIG. 5B, when the knob portion 144 is rocked in any direction intersecting the predetermined direction A, for example, when the knob portion 144 is rocked downward, the link shaft By the link mechanism between the portion 136 and the link receiving hole portion 147, the guide portion 133 of the upper guide body 131 advances to the downstream side, and the guide portion 133 of the lower guide body 131 retreats to the upstream side. In this state, the conditioned air F, which includes the conditioned air F1 whose direction has been changed by the guide 133 moved to the upstream side, is guided by the guide 133 moved to the downstream side so as to be collected, and the direction of the knob 144 is adjusted. The air-conditioning wind can be bent downward, which is the same direction as the above.
[0046]
Furthermore, by pinching and twisting the knob portion 144, the guides 131 and 131 rotate freely 360 degrees together with the inner cylinder 121 with respect to the outer cylinder 120, and the positional relationship between the paired guides 131 is maintained. The wind direction can be freely adjusted by 360 degrees.
[0047]
As described above, according to the second embodiment of the present invention, the guides 131, 131 having the guides 133, 133 are disposed in the case body 111 so as to be able to advance and retreat, and these guides are operated by the operating means 114. By deflecting the parts 133 and 133, the wind direction can be easily controlled in a desired direction. Further, since the inner cylinder 121 is rotatably provided with respect to the outer cylinder 120, the wind direction can be freely adjusted by 360 degrees. Therefore, the structure can be simplified and the manufacturing cost can be reduced as compared with a configuration using a large number of louvers. It will be easier.
[0048]
In addition, even if it is round, the structure is simple, there is no need to arrange a complicated link device or the like in the fluid passage B inside the case body 111, and the inclined surface is in the opposite direction to the flow of the conditioned air. Is not formed, the ventilation resistance can be reduced, the efficiency of the air conditioner can be improved, and the noise can be reduced.
[0049]
Next, a third embodiment will be described with reference to FIGS.
[0050]
This third embodiment also realizes a so-called round ventilator attached to a circular opening, as in the second embodiment.
[0051]
The outlet device 210 includes a case body 211, guide means 212 housed in the case body 211, and operation means 214 for operating the guide means 212. In the present embodiment, the case body 211 includes a cylindrical outer cylinder (outer case) 220 and an inner cylinder (inner case) 221 made of synthetic resin, and a downstream end of the outer cylinder 220 and the inner cylinder 221. And a finisher 222 made of synthetic resin attached to the portion, and a fluid passage B is formed inside. In the present embodiment, the inner cylinder 221 also functions as a guide, that is, a baffle plate. The first cylinder 223a and the second cylinder 223b are combined, and cutouts 223c are provided on both sides. A substantially cylindrical inner cylinder main body 221a and a flange portion 221b formed on the upstream end of the inner cylinder main body 221a so as to protrude outwardly are formed. A plurality of claw-shaped elastically deformable mounting projections 221c are integrally formed from the vicinity of the downstream end of the inner cylinder main body 221a toward the outer peripheral side. In addition, a second inclined surface is formed from the downstream end of the inner cylinder main body 221a toward the center of the fluid passage B toward the downstream outlet 224 in a curved shape that is a part of a truncated cone. Fixed guide portions 225 as guide portions are formed alternately with the cutout portions 223c. Further, a guide body guide portion 223d is formed as a concave groove along the predetermined direction A in a portion along the cutout portion 223c of the inner cylinder main body 221a. Further, a flat mounting base 223e is formed on the first inner cylindrical part 223a. The first support 223f and the second support 223g located on the downstream side of the first support 223f are respectively perpendicular to the mount 223e, that is, toward the axis of the case 211. It is formed. Further, a shaft support 226 toward the axis of the case 211 is inserted into the second shaft support 223g from the outer peripheral side. The shaft support 226 includes a cylindrical support body 226a having a columnar shape, and a receiving portion 226b formed at the base end of the shaft support body 226a with a larger diameter than the shaft support body 226a. A pin portion 226c having a smaller diameter than the shaft support body 226a and protruding is provided at the tip of the shaft support body 226a. Further, a first shaft support 223f is formed on the second inner cylinder 223b coaxially with the first shaft support 223f of the first inner cylinder 223a.
[0052]
Further, the outer cylinder 220 has a cylindrical shape slidably fitted to the outer peripheral portion of the inner cylinder main body 221a, and has an attachment portion (not shown) attached to the vehicle body formed on the outer peripheral surface.
[0053]
Further, the finisher 222 is formed with a fitting portion 222a that fits into the distal end portion of the inner cylinder main body 221a, and a guard portion 222b that covers a part of the circular outlet 224 with a crosspiece. The fitting portion 222a is provided with a mounting hole 222c that engages with the mounting protrusion 221c. Therefore, in a state where the outer cylinder 220 is fitted to the outer peripheral portion of the inner cylinder body 221a and the finisher 222 is fitted to the tip of the inner cylinder body 221a, the engagement between the mounting projection 221c and the mounting hole 222c is performed. , The finisher 222 is fixed to the inner cylinder 221, and the outer cylinder 220 is relatively rotatably supported between the fitting part 222 a of the finisher 222 and the flange part 221 b of the inner cylinder 221. Further, an operation means support portion 228 is provided on the guard portion 222b of the finisher 222. The operating means support portion 228 includes a pair of support pieces 229, 229 and a columnar shaft 230 protruding in the horizontal direction and approaching from the support pieces 229, 229. Further, a display portion 222e indicating the blowing direction is formed around the guard portion 222b.
[0054]
The guide means 212 includes a pair of guides 231 and 231. Each of the guides 231 is a so-called baffle plate integrally formed of a synthetic resin, and is a movable guide which is a guide body 232 and a first guide integrally protruded from the guide body 232. And a guide part 233 serving as a part. The guide body main part 232 has a shape substantially along the inner cylinder main body 221a of the inner cylinder 221 and is formed into a curved surface forming a part of the cylinder, and is fitted to the notch 223c so as to be able to advance and retreat in the predetermined direction A. The main body 232a includes an outer main body 232b and an outer main body 232b that is continuous with the inner main body 232a and that is formed along the outer surface of the inner cylindrical main body 221a and covers the cutout 223c. Further, guide body guide receiving portions 232c slidably engaged with the guide body guide portions 223d are formed at both ends of each outer body portion 232b. In this manner, each guide body main portion 232 is slidably guided by the inner cylinder 221 and is supported so as to be able to advance and retreat along the predetermined direction A. Further, the guide portion 233 extends from the downstream end of the guide body main portion 232 so as to form an inclined surface toward the center of the fluid passage B toward the downstream side. Further, in the present embodiment, each guide portion 233 is formed in a curved shape that is a part of a truncated cone that can be continuous with the fixed guide portion 225. Further, from each guide body 231, a link receiving portion 235 protrudes perpendicularly to a predetermined direction A toward the inner peripheral side. In the vicinity of the distal end of the link receiving portion 235, a columnar link shaft portion 236 is formed.
[0055]
Further, the operation means 214 includes a dial 241, an intermediate gear 242, and a cam gear 243 which constitute a link mechanism and rotate while meshing with each other. The dial 241 has a disk shape, and is fitted by inserting a circular concave portion or a circular bearing portion 241 a provided in the center so as to be sandwiched between the shaft portions 230, and turns to the finisher 222 of the case body 211. It is pivotally supported. When the dial 241 is attached to the finisher 222, a portion protruding downstream from the finisher 222 becomes a knob portion 244, and an engagement portion 241 b is provided on the opposite side of the knob portion 244 across the bearing portion 241 a. Is formed. Further, the intermediate gear 242 has a disk shape, a circular recess or a hole-shaped bearing portion 242a is formed at the center portion, and a meshing portion 242b is formed over the entire outer periphery. As shown, a projection 242c for reducing sliding resistance is formed on one surface. As shown in FIG. 7 and the like, the cam gear 243 has a disc-shaped cam plate portion 243a, a toothed portion 243b formed coaxially on one surface of the cam plate portion 243a, and an axial center of the cam plate portion 243a. A cylindrical shaft portion 243c protruding from both sides of the shaft portion 243, and pin portions 243d protruding from both ends of the shaft portion 243c. Further, a first cam groove 245, which is a concave groove having a predetermined shape, is formed on one surface of the cam plate portion 243a, and a concave groove having a predetermined shape is formed on the other surface. A second cam groove 246, which is a groove, is formed. The cam gear 243 has upper and lower pin portions 243d fitted between the first shaft supporting portions 223f and 223f of the inner cylinder main body 221a of the case body 211, and is rotatably supported by the inner cylinder 221. Further, in a state where the dial 241 is attached to the finisher 222 and the cam gear 243 is attached to the inner cylinder 221, the intermediate gear 242 is engaged with the engagement portion 241 b of the dial 241 and the engagement portion 243 b of the cam gear 243. Are arranged. In the intermediate gear 242, the pin 226 c of the shaft support 226 is fitted to the bearing 242 a provided on one surface, and the protrusion 242 c provided on the other surface is provided on one surface of the cam plate 243 a of the cam gear 243. It is slidably supported. Further, the link shaft portion 236 of the link receiving portion 235 of the one guide body 231 is rotatably and movably engaged with the first cam groove 245 of the cam gear 243, and the second cam groove 246 of the cam gear 243 is The guide members 231 and 231 are connected to the link mechanism by rotatably and movably engaging the link shaft portion 236 of the link receiving portion 235 of the other guide member 231.
[0056]
The assembling work of the outlet device 210 is performed by engaging the bearing portion 241 a with the shaft portion 230 of the finisher 222 so as to sandwich the dial 241 in the finisher 222. Further, the pin portion 243d of the cam gear 243 is engaged with and sandwiched between the first shaft support portion 223f of the first inner cylinder portion 223a and the first shaft support portion 223f of the second inner cylinder portion 223b. The link shaft portions 236 and 236 of the guides 231 and 231 are engaged with the cam grooves 245 and 246. Further, the intermediate gear 242 is applied to the cam gear 243 so as to mesh with the engagement portion 243b, and the pin portion 226c of the shaft support 226 inserted from the second shaft support 223g is inserted into the bearing portion 242a, and the intermediate gear 242 rotates. It is freely supported to form an assembly. Then, this assembly is inserted into the outer cylinder 221, and further, the finisher 222 and the dial 241 are assembled to the assembly so that the engagement portion 241b of the dial 241 meshes with the intermediate gear 242, and the mounting projection 221c is mounted. By engaging with the hole 222c, the outlet device 210 is easily configured.
[0057]
In the air outlet device 210 configured as described above, by rotating the dial 241, the guides 231 and 231 forming a pair move forward and backward in conjunction with each other, and the wind direction and the concentrated diffusion state are adjusted. That is, as shown in FIG. 9A, by rotating the dial 241 to the rotation limit in one direction, the pair of guides 231 and 231 move to the opposing position and to the forward limit on the downstream side. I do. In this state, the positions of the guide portions 233 of the guides 231 and 231 and the fixed guide portions 225 of the inner cylinder 221 are aligned in a truncated cone shape, which is a substantially continuous surface, and are concentrated toward the front. Can guide the wind.
[0058]
Further, as shown in FIG. 9B, by rotating the dial 241 to the intermediate position, one of the guides 231 relatively moves forward, and the other guide 231 relatively retracts. That is, the guides 231 and 231 are located apart from each other along the predetermined direction A, and the guide moved to the downstream side including the air-conditioned wind whose direction was changed by the guide portion 233 moved to the upstream side. The conditioned air is guided by the unit 233 to be collected, and the conditioned air can be bent. Further, in this state, by grasping and rotating the finisher 222 and the like, the guides 231 and 231 rotate freely 360 degrees together with the inner cylinder 221 with respect to the outer cylinder 220, and the guides 231 forming a pair. The wind direction can be freely adjusted by 360 degrees while maintaining the positional relationship.
[0059]
Further, as shown in FIG. 9C, by rotating the dial 241 to the rotation limit in the other direction, the paired guides 231 and 231 move to the opposing positions and to the retreat limit on the upstream side. I do. In this state, the positions of the guide portions 233 of the guides 231 and 231 and the fixed guide portions 225 of the inner cylinder 221 are shifted, and the wind can be guided in a state of being diffused toward the front.
[0060]
As described above, according to the third embodiment of the present invention, the guides 231 and 231 provided with the guides 233 and 233 are disposed inside the case body 211 so as to be able to advance and retreat, and these guides are operated by the operating means 214. By displacing the portions 233 and 233, the wind direction can be easily controlled in a desired direction. Furthermore, since the inner cylinder 221 is rotatably provided with respect to the outer cylinder 220, the wind direction can be freely adjusted by 360 degrees. Further, the guide portions 233 and 233 can be moved to a plurality of positions in a state of being aligned, and the positional relationship with the fixed guide portion 225 provided on the case body 211 can be changed to control the concentration and diffusion of wind. Therefore, as compared with a configuration using a large number of louvers, the structure can be simplified, the manufacturing cost can be reduced, the size and weight can be easily reduced, and it is easy to support a round outlet.
[0061]
Further, even in the case of a round shape, the structure is simple, and there is no need to dispose a complicated link device or the like for driving a large number of louvers in the fluid passage B inside the case body 211, and the flow of the air-conditioned wind is reduced. Since the inclined surface having the opposite direction is not formed, the ventilation resistance can be reduced, the efficiency of the air conditioner can be improved, and the noise can be reduced.
[0062]
Next, a fourth embodiment will be described with reference to FIGS.
[0063]
This fourth embodiment also realizes a so-called round ventilator attached to a circular opening, as in the second embodiment.
[0064]
The outlet device 310 includes a case body 311, a guide means 312 housed in the case body 311, and an operation means 314 for operating the guide means 312. In the present embodiment, the case body 311 includes a cylindrical outer cylinder (outer case) 320 and an inner cylinder (inner case) 321 made of a synthetic resin, and a downstream end of the outer cylinder 320 and the inner cylinder 321. And a finisher 322 made of synthetic resin attached to the portion, and a fluid passage B is formed inside. In the present embodiment, the inner cylinder 321 also functions as a guide, that is, a baffle plate, and includes a substantially cylindrical inner cylinder main body 321a having cutouts 323c on both sides, and an inner cylinder main body 321a. A flange 321b is formed at the upstream end so as to protrude outward. A plurality of claw-shaped elastically deformable mounting projections 321c are integrally formed from the vicinity of the downstream end of the inner cylinder main body 321a toward the outer peripheral side.
[0065]
Further, a second inclined surface is formed from the downstream end of the inner cylinder main body 321a toward the center of the fluid passage B toward the downstream outlet 324 in a curved shape that is a part of a truncated cone. The fixed guide portion 325 as a guide portion is formed alternately with the cutout portion 323c. Further, on the outer peripheral surface of the inner cylinder main body 321a, a guide body guide portion 323d is formed as a concave groove along the predetermined direction A, which is located on the upstream side of the cutout portion 323c. Further, a second mounting projection 321d is provided in a pair from the distal end of each fixed guide 325 toward the inner peripheral side.
[0066]
The outer cylinder 320 has a cylindrical shape fitted to the outer peripheral portion of the inner cylinder main body 321a at a predetermined interval, and has a mounting portion 320a mounted on the vehicle body on the outer peripheral surface.
[0067]
Further, the finisher 322 is formed with a fitting portion 322a that fits into the distal end portion of the inner cylinder main body 321a, and a guard portion 322b that covers a part of the circular outlet 324 with a crosspiece. The fitting portion 322a has a mounting hole 322c that engages with the mounting protrusion 321c and a mounting rib 322d that engages with the second mounting protrusion 321d. Further, a display section 322e indicating the blowing direction is formed around the guard section 322b. Therefore, in a state where the finisher 322 is fitted to the distal end of the inner cylinder main body 321a, the engagement between the mounting projection 321c and the mounting hole 322c and the engagement between the second mounting projection 321d and the mounting rib 322d cause the internal The finisher 322 is fixed to the cylinder 321.
[0068]
The guide unit 312 includes a pair of guides 331 and 331. Each guide body 331 is a so-called baffle plate integrally formed of a synthetic resin, and is a guide body main part 332 and a first guide part integrally protruded from the guide body main part 332 and is a movable guide. And a guide section 333 serving as a section. The guide body main portion 332 has a shape substantially along the inner cylinder main body 321a of the inner cylinder 321 and is formed into a curved surface forming a part of the cylinder, and is fitted to the notch 323c so as to be able to advance and retreat in the predetermined direction A. The main body 332a includes an outer main body 332b and an outer main body 332b that is continuous with the middle main body 332a and that is formed along the outer surface of the inner cylinder main body 321a and covers the notch 323c. Further, a guide guide receiving portion 332c slidably engaged with the guide guide portion 323d is formed on the inner peripheral surface of each outer body portion 332b as a pair of ribs, that is, in a groove shape along the predetermined direction A. Have been. In this way, each guide body main portion 332 is slidably guided by the inner cylinder 321 and is supported so as to be able to advance and retreat along the predetermined direction A. The guide portion 333 extends from the downstream end of the guide body main portion 332 so as to form an inclined surface toward the center of the fluid passage B toward the downstream side. Further, in the present embodiment, each guide portion 333 is formed in a curved surface that is a part of a truncated cone that can be continuous with the fixed guide portion 325. Further, a link connection portion 335 is formed on the outer peripheral surface of each outer body portion 332b. Each link connecting portion 335 is configured by a pair of connecting pins protruding toward the outer peripheral side, and the connecting pins are separated from each other in the predetermined direction A with a predetermined interval.
[0069]
Further, the operation means 314 includes a pair of guides 341 and 341 constituting a link mechanism, and an operation ring 343. Each of the guide members 341 has a semi-cylindrical shape, and is provided with a guide member main body 341a which is combined with each other to form a substantially cylindrical rotating cylinder that is slidably fitted in the outer cylinder 320. In addition, engaging portions 341b and 341c that are engaged with each other and connected are formed in a protruding and concave manner at the side end of each guide body main body 341a. Further, a protrusion 341d is provided integrally or separately on the inner peripheral surface of each guide body 341a, and a guide groove 344 as a guide means inclined with respect to the predetermined direction A is formed. The link connecting portion 335 of each guide body 331 is movably engaged with the guide groove 344. In the vicinity of the downstream end of each guide body 341a, an engagement receiving portion 341e, which is an operation portion attaching portion, is formed. On the other hand, the operation ring 343 includes an annular operation portion 343a and a pair of engagement portions 343b projecting from the operation portion 343a and respectively engaging with the engagement receiving portions 341e.
[0070]
The assembling work of the outlet device 310 is performed in a state where the guides 331 and 331 and the finisher 322 are combined with the inner cylinder 321 and the link connecting portion 335 is connected to the guide groove 344 from the outer peripheral side of the guides 331 and 331. The guides 341 and 341 are combined so as to form an assembly. Then, this assembly is inserted into the outer cylinder 320 from the upstream side. Next, the finisher 322 is engaged with and attached to the guide bodies 341 and 341 from the upstream side. In this state, the guide members 341 and 341 are slidably and rotatably supported inside the outer cylinder 320, and are prevented from falling off between the flange portion 321b and the operation portion 343a. Easy to configure.
[0071]
By rotating the operation ring 343, the pair of guides 331 and 331 move forward and backward in the air outlet device 310 thus configured, and the wind direction and the concentrated diffusion state are adjusted. In other words, as shown in FIG. 13A, by rotating the operation ring 343 to the rotation limit in one direction, the pair of guides 331 and 331 are at the position where they face each other and the forward movement limit on the downstream side. Moving. In this state, the positions of the guide portions 333 of the guide members 331 and 331 and the fixed guide portions 325 of the inner cylinder 321 are aligned in a truncated cone shape, which is a substantially continuous surface, and are concentrated toward the front. Can guide the wind.
[0072]
Further, as shown in FIG. 13B, by rotating the operation ring 343 to the intermediate position, one of the guides 331 relatively moves forward and the other guide 331 relatively moves backward. That is, the positions of the guides 331 and 331 are separated from each other along the predetermined direction A, and the guides 331 and 331 move to the downstream side, including the conditioned air whose direction has been changed by the guide portion 333 moved to the upstream side. The guide section 333 guides the conditioned air to be collected, and can bend the conditioned air. Further, in this state, by gripping and rotating the finisher 322 and the like, the guides 331 and 331 rotate freely 360 degrees with the outer cylinder 320 together with the guides 341 and 341 and the inner cylinder 321. The wind direction can be freely adjusted by 360 degrees while maintaining the positional relationship of the guide body 331 which makes the following.
[0073]
Further, as shown in FIG. 13 (c), by rotating the operation ring 343 to the rotation limit in the other direction, the pair of guides 331 and 331 are at the opposing positions and at the upstream retreat limit. Moving. In this state, the positions of the guide portions 333 of the guides 331 and 331 and the fixed guide portions 325 of the inner cylinder 321 are shifted, and the wind can be guided in a state of being diffused toward the front.
[0074]
As described above, according to the fourth embodiment of the present invention, the guide members 331 and 331 having the guide portions 333 and 333 are arranged inside the case body 311 so as to be able to advance and retreat, and these guide members are operated by the operating means 314. By displacing the parts 333 and 333, the wind direction can be easily controlled in a desired direction. Furthermore, since the inner cylinder 321 is rotatably provided with respect to the outer cylinder 320, the wind direction can be freely adjusted by 360 degrees. Further, the guide portions 333 and 333 can be moved to a plurality of positions in a state of being aligned, and the positional relationship with the fixed guide portion 325 provided on the case body 311 can be varied to control the concentrated and diffused state of the wind. Therefore, as compared with a configuration using a large number of louvers, the structure can be simplified, the manufacturing cost can be reduced, the size and weight can be easily reduced, and it is easy to support a round outlet.
[0075]
Further, even in the case of a round shape, the structure is simple and there is no need to arrange a complicated link device or the like for driving a large number of louvers in the fluid passage B inside the case body 311. Further, in the present embodiment, Since no link mechanism is disposed in the fluid passage B, a smooth structure can be obtained, and no inclined surface that is opposite to the flow of the conditioned air is formed, so that the ventilation resistance can be reduced and the efficiency of the air conditioner can be improved. , Noise can be reduced.
[0076]
Note that the structures described in the above embodiments can be combined as appropriate. In addition, the shape of the case body is not limited to a square rectangular tube or a cylindrical shape, and an appropriate configuration can be adopted.
[0077]
For example, as in the fifth embodiment shown in FIG. 14, an outlet device 410 provided with a substantially L-shaped outlet 401 in front view can also be easily formed. That is, a pair of guide members 412a, 412a, which are substantially L-shaped when viewed from the front and constitute a guide means 412, are arranged in a thin case body 411 that is substantially L-shaped when viewed from the front so as to be able to advance and retreat, respectively. You. In this embodiment, the operating means 413 is constituted by a link mechanism having a dial 413a, and the dial 413a is arranged outside the case body 411. Further, the guard portion 422a of the finisher 422 is formed in a lattice shape.
[0078]
As described above, since the outlet device of the present invention can easily take various shapes, the place where the outlet is arranged is limited, and as an outlet device for an automobile with a large design requirement, Can be easily used.
[0079]
Further, in each of the above-described embodiments, in addition to the configuration including the two guides that move in the predetermined direction at the same time, the two guides that simultaneously move in the predetermined direction, and the two guides that do not move in the predetermined direction. Although the configuration including the guide portion has been described, the present invention is not limited to this configuration. For example, a guide portion that moves in a predetermined direction and a predetermined direction, such as a configuration that includes three or four or more guide portions that move in a predetermined direction at the same time. The number of guide portions that do not move to the position can be appropriately selected.
[0080]
【The invention's effect】
According to the outlet device of the first aspect, the operating means is operated to relatively move one guide portion toward the outlet port from the other guide portion. The direction of the balloon can be guided. Further, by arranging the plurality of guide portions at the same position with respect to the outlet, the fluid can be guided in the front direction. The structure is simple, the manufacturing cost can be easily reduced, and the degree of freedom of the shape can be improved. The structure that blocks the fluid inside the fluid passage can be suppressed, and the ventilation resistance can be easily reduced.
[0081]
According to the outlet device of the second aspect, in addition to the effect of the first aspect, by moving the plurality of guide portions in directions separated from each other along the predetermined direction, the amount of operation of the operating means can be reduced. As a result, the wind direction can be greatly changed, and the operability can be easily improved.
[0082]
According to the outlet device of the third aspect, in addition to the effect of the first aspect, by moving the plurality of guide portions to positions where these guide portions are continuous with each other, it is possible to guide the fluid to concentrate, You can adjust the concentration diffusion state.
[0083]
According to the blow-out device according to the fourth aspect, in addition to the effect according to any one of the first to third aspects, the swing direction of the knob can adjust the blow-out direction of the fluid. The structure is simple, and the manufacturing cost can be easily reduced.
[0084]
According to the blow-out device according to the fifth aspect, in addition to the effect according to any one of the first to third aspects, by rotating the knob, the blow-out direction of the fluid can be adjusted.
[0085]
According to the outlet device of the sixth aspect, in addition to the effect of the fifth aspect, by rotating the knob body along the outer edge portion of the outlet, the direction of fluid ejection can be adjusted. There is no need to dispose a knob body in the fluid passage, so that the ventilation resistance can be easily reduced and the appearance can be improved.
[0086]
According to the outlet device described in claim 7, in addition to the effect described in any one of claims 1 to 6, in addition to the configuration described in any one of claims 1 to 6, the inner cylinder is rotated with respect to the outer cylinder. This allows the fluid to be guided in any direction.
[Brief description of the drawings]
FIG. 1 is an explanatory view of an operation of a cross section taken along line II of FIG. 2 showing a first embodiment of an air outlet device of the present invention.
FIG. 2 is a perspective view of the outlet device.
FIG. 3 is an exploded perspective view showing a second embodiment of the outlet device of the present invention.
FIG. 4 is a perspective view of the outlet device.
FIG. 5 is an explanatory view of the operation of the above outlet device in a section taken along line II-II of FIG. 4;
FIG. 6 is a sectional view of the above outlet device taken along line III-III of FIG. 4;
FIG. 7 is an exploded perspective view showing a third embodiment of the outlet device of the present invention.
FIG. 8 is a perspective view of the above outlet device.
FIG. 9 is an explanatory view of the operation of the above outlet device in a section taken along line IV-IV of FIG. 8;
FIG. 10 is a sectional view taken along line VV of FIG. 8 of the outlet device.
FIG. 11 is an exploded perspective view showing a fourth embodiment of the outlet device of the present invention.
FIG. 12 is a perspective view of the outlet device.
FIG. 13 is an explanatory diagram of an operation of the above outlet device in a section taken along line VI-VI of FIG. 12;
FIG. 14 is a perspective view showing a fifth embodiment of the outlet device of the present invention.
[Explanation of symbols]
10 Blow outlet device
11 Case body
12 Guidance means
14 Operation means
24 outlet
31 Guide
33 Guide
44 Knob
45 Link connection
120 outer cylinder
121 inner cylinder
225 Fixed guide as guide
A Predetermined direction
B fluid passage

Claims (7)

An outlet, and a case body provided with a fluid passage through which fluid flows in a predetermined direction toward the outlet,
A plurality of guides are provided in the fluid passage, each having a guide portion inclined and protruding in a direction approaching each other toward the outlet, and at least one of these guides is provided along the predetermined direction. An outlet device comprising: a guide means guided so as to be able to advance and retreat; and an operating means for relatively moving the other guide part along the predetermined direction with respect to the one guide part. The outlet device according to claim 1, wherein the operation unit moves the plurality of guide units in a direction away from each other along the predetermined direction. The outlet device according to claim 1, wherein the operation unit moves the plurality of guides to a position where the guides are continuous with each other. The operating means comprises a knob body which is swingably supported and has a operable knob portion and a link connecting portion rotatably and slidably connected to each guide portion. The outlet device according to any one of claims 3 to 3. The operation means includes a knob body provided with an operable knob portion rotatably supported, and a cam rotated in accordance with the rotation of the knob body and connected to each guide portion so as to be rotatable and slidable. The outlet device according to any one of claims 1 to 3, further comprising a cam body having a groove. The outlet device according to claim 5, wherein the knob body is formed in an annular shape that rotates along the outer edge of the outlet. The air outlet device according to any one of claims 1 to 6, wherein the case body includes an inner cylinder provided with a fluid passage, and an outer cylinder that rotatably fits the inner cylinder.

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