JP2009119917A - Register integrated type container holder device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a register integrated type container holder device arrangable in a narrow space and suppressing abutment of a container with a register. <P>SOLUTION: The register integrated type container holder device is provided with: a register 2, a main supporter 3, a protector 4, a first ring 6, and a second ring 7. In a holder using state, the register 2 is moved to an air passage upstream side portion of the retainer 1, and at least one part of the main supporter 3 is moved to an air passage downstream side of the retainer 1 and at least one part of the protector 4 is protruded to the air passage downstresm side of the register 2. A holder is formed in the air passage downstream side of the register 2 by a frame inner wall 30a of the main supporter 3 and one part of a bottom wall 100 of the retainer 1, and the protector 4 is interposed between the holder and the register 2. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a container holder device integrated with a register.

  The container holder device is a device for holding containers such as plastic bottles, cans, and cups. On the other hand, the register is an apparatus that is connected to the air conditioner and adjusts the flow direction of the air for air conditioning. In recent years, techniques for integrating a container holder device with a register have been proposed (see, for example, Patent Documents 1 and 2).

  By integrating the container holder device into the register, the container and the beverage contained in the container can be cooled or heated by the air for air conditioning. In general, the register for the vehicle is disposed at a position where the passenger can easily reach his / her hand, such as in front of or on the side of the seat. For this reason, if the container holder device is integrated with the register, the occupant can easily pick up the container. Hereinafter, the container holder device integrated with the register is referred to as a register-integrated container holder device.

  Patent Document 1 introduces a register-integrated container holder device in which a portion constituting a register (hereinafter referred to as a register portion) and a portion constituting a container holder device (hereinafter referred to as a holder portion) are integrated. Has been. The holder part in the register-integrated container holder device is pivotally supported with respect to the register part, and is developed downstream of the air flow path of the register part when holding the container. For this reason, when this register-integrated container holder device is disposed in a narrow space such as a passenger compartment, there is a problem that the holder portion protrudes greatly to the downstream side of the air flow path of the register portion and interferes with the flow line of the occupant.

  The register unit in the register-integrated container holder device introduced in Patent Document 2 is slidably attached to the retainer. The holder portion has an opening frame that rotates relative to the retainer. When holding the container in the holder part, the opening frame rotates and protrudes to the downstream side of the air flow path from the retainer, and the register part slides to the upstream side of the air flow path of the retainer and the air flow path of the retainer. An accommodation space is formed on the downstream side. The container is held in the holder portion by being inserted into the opening frame and partially entering the accommodation space. In other words, the register-integrated container holder device introduced in Patent Document 2 slides the register portion to the upstream side of the air flow path of the retainer so that the portion of the retainer on the downstream side of the air flow path is part of the holder portion. It is used as. For this reason, the register-integrated container holder device introduced in Patent Document 2 has a smaller amount of protrusion of the holder portion than the register-integrated container holder device of Patent Document 1. Therefore, the register-integrated container holder device introduced in Patent Document 2 is unlikely to interfere with the occupant's flow line even when disposed in the passenger compartment.

By the way, in the register-integrated container holder device introduced in Patent Documents 1 and 2, the container is held by a holder part provided on the downstream side of the air flow path of the register part. Therefore, depending on the insertion angle of the container, the container may come into contact with the register portion. In this case, there is a possibility that the container presses the fins of the register portion, the angle of the fins changes, and the flow direction of the air for air conditioning is adjusted in a direction different from the intended direction. If the sliding amount of the register portion is increased, it is considered that the contact between the container and the register portion can be avoided. However, in this case, since the size of the register-integrated container holder device becomes large, there is a problem that it is difficult to dispose the register-integrated container holder device in a narrow space such as a passenger compartment.
JP-A-7-195937 JP 2007-30840 A

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a register-integrated container holder device that can suppress contact between a container and a register portion and can be disposed in a narrow space.

  The register-integrated container holder device of the present invention that solves the above-described problems has a cylindrical retainer 1 that forms at least a part of a flow path for air conditioning air and a blow-off opening, and a plurality of fins. Air-conditioning air that is mounted and displaced between a register output position that is disposed at the downstream end of the air flow path of the retainer 1 and a register input position that is disposed upstream of the register output position from the register flow position A register portion 2 for adjusting the flow direction of the main supporter, a frame-like shape, attached to the retainer 1, and at least a part of the main supporter protruding position protruding to the downstream side of the air flow path from the retainer 1; The main supporter 3 that is displaced between the main supporter insertion position disposed on the upstream side of the flow path and the retainer 1 are attached to the retainer 1, and at least a part of the retainer is located on the downstream side of the air flow path with respect to the register unit 2. A protector 4 that is displaced between a protector protruding position that protrudes into the interior of the retainer 1 and a protector insertion position in which the amount of protrusion into the retainer 1 is smaller than the amount of protrusion at the protector extended position; In conjunction with the displacement from the supporter entry position to the main supporter exit position, the first link 6 for displacing the register unit 2 from the register exit position to the register entry position, and from the main supporter entry position of the main supporter 3 to the main supporter exit position And a second link 7 for displacing the protector 4 from the protector entry position to the protector exit position in conjunction with the displacement of the protector. At the main supporter exit position, the frame inner wall 30a of the main supporter 3 and the bottom wall 100 of the retainer 1 are provided. A holder part is formed on the downstream side of the air flow path of the register part 2, and the protector 4 is interposed between the holder part and the register part 2. That.

The register-integrated container holder device of the present invention preferably includes one of the following configurations (1) to (2). It is more preferable to provide both of the following configurations (1) to (2).
(1) The main supporter 3 is rotatably attached to the retainer 1, and constitutes a part of the air-conditioning air blowing opening at the main supporter entrance position.
(2) A sub-supporter outlet position attached to the retainer 1 and projecting at least partially at the downstream side of the air channel from the retainer 1, and a sub-supporter arranged at the upstream side of the air channel from the sub-supporter outlet position The secondary supporter 5 has a secondary supporter 5 that is displaced between the secondary supporter 5 and the secondary supporter 5 in conjunction with the displacement of the primary supporter 3 from the primary supporter entry position to the primary supporter exit position. A part of the holder part is formed by being displaced to the protruding position.

  In the register-integrated container holder device according to the present invention, when the main supporter is displaced to the main supporter exit position (that is, when the container is held), the register unit moves the air flow from the downstream side of the air flow path to the inside of the retainer. Displaces upstream of the road. And the holder part which hold | maintains a container is formed with the part located in the downstream of an air flow path rather than a register | resistor part in the bottom wall of a retainer, and the frame inner wall of a main supporter. For this reason, a container can be hold | maintained, without protruding a holder part largely outside a retainer.

  When holding the container by displacing the main supporter to the main supporter exit position, the protector is interposed between the register part and the holder part, so the register part does not have to be greatly displaced upstream of the air flow path. In addition, the contact between the container and the register portion can be suppressed. Hereinafter, in this specification, the state in which the main supporter of the register-integrated container holder apparatus is displaced to the main supporter exit position is referred to as a holder use state. A state in which the main supporter of the register-integrated container holder device is moved to the main supporter entry position is referred to as a holder storage state.

  When the register-integrated container holder device of the present invention includes the above (1), the outer shape of the register-integrated container holder device in the holder retracted state can be reduced, and the size of the holder portion in the holder used state can be increased. . Therefore, the register-integrated container holder device having the above (1) can be disposed in a narrow space and can stably hold the container.

  The register-integrated container holder device of the present invention having the above (2) can hold the container more stably due to the presence of the auxiliary supporter. In addition, since the auxiliary supporter is displaced upstream of the air flow path in the holder retracted state, the outer shape of the register-integrated container holder device in the holder retracted state can be reduced. Therefore, the register-integrated container holder device including the above (2) can be disposed in a narrow space and can stably hold the container.

  Hereinafter, a register-integrated container holder device of the present invention will be described with reference to the drawings.

(Example)
The register-integrated container holder device of the embodiment is disposed on an instrument panel of an automobile. The register-integrated container holder device of the embodiment includes the above (1) to (2). 1 and 2 are perspective views schematically showing the register-integrated container holder device of the embodiment. Explanatory drawing explaining operation | movement of the register | resistor integrated container holder apparatus of an Example is shown in FIGS. 1 and 3 show the register-integrated container holder device of the embodiment in the holder storage state. 2, FIG. 4, and FIG. 5 show the register-integrated container holder device of the embodiment in the holder use state. FIG. 6 shows the register-integrated container holder device of the embodiment in a state between the holder use state and the holder storage state. Hereinafter, in this embodiment, the upper, lower, left, right, air flow path upstream side, and air flow path downstream side are the upper, lower, left, right, air flow path upstream side, and air flow path downstream shown in FIG. Point to the side. Further, in this embodiment, clockwise and counterclockwise refer to clockwise and counterclockwise in FIG.

  As shown in FIGS. 1 to 2, the register-integrated container holder device of the embodiment includes a retainer 1, a register unit 2, a main supporter 3, a protector 4, a sub supporter 5, a first link 6, The second link 7, main supporter urging means (not shown), protector urging means (not shown), auxiliary supporter urging means (not shown), and main supporter locking means 8 are provided.

  The retainer 1 has a retainer body 10 and a bezel 11. The retainer body 10 has a substantially rectangular tube shape. The bezel 11 has a frame shape and is integrated with the downstream end portion of the retainer body 10 on the air flow path. The air channel upstream end of the retainer body 10 is connected to an air conditioner (not shown). In the register-integrated container holder device of the embodiment, the bezel 11 constitutes a part of the blowing opening. As shown in FIG. 3, the retainer 1 is inclined from the lower side on the upstream side of the air channel toward the upper side on the downstream side of the air channel. The plane including the blowout opening crosses at an acute angle with respect to the direction in which the retainer 1 extends. Therefore, a portion of the bottom wall 100 of the retainer 1 on the downstream side of the air flow path projects further to the downstream side of the air flow path than the upper wall 101 of the retainer 1. This protruding part is called a holder bottom wall 102. A portion of the bottom wall 100 of the retainer 1 on the upstream side of the air flow path with respect to the holder bottom wall portion 102 is referred to as a general bottom wall portion 103. The holder bottom wall portion 102 is thinner than the general bottom wall portion 103, and a step is formed at the boundary between the general bottom wall portion 103 and the holder bottom wall portion 102.

  As shown in FIG. 3, the register unit 2 includes a register retainer 20, a vertical fin group 21, a horizontal fin group 22, and an operation knob 23. The register retainer 20 has a rectangular tube shape shorter than the retainer 1 and extends in the same direction as the retainer 1.

  The vertical fin group 21 and the horizontal fin group 22 are attached to the inside of the register retainer 20. The vertical fin group 21 has a plurality of vertical fins 210 and vertical fin links (not shown). Each vertical fin 210 has a plate shape extending from the upper side of the air channel upstream toward the lower side of the air channel downstream, and is pivotally supported by the upper wall and the lower wall of the register retainer 20. The vertical fin link connects the vertical fins 210 to each other. The vertical fin group 21 is a member for adjusting the flow direction of the air-conditioning air to the left and right. The vertical fin link is a member for causing the vertical fins 210 to swing in synchronization. The horizontal fin group 22 is disposed downstream of the vertical fin group 21 in the air flow path. The lateral fin group 22 has a plurality of lateral fins 220 and lateral fin links (not shown). Each lateral fin 220 has a plate shape extending in the left-right direction, and is pivotally supported by the left wall and the right wall of the register retainer 20. The horizontal fin link connects the horizontal fins 220 to each other. The horizontal fin group 22 is a member for adjusting the flow direction of the air-conditioning air up and down. The horizontal fin link is a member for swinging each horizontal fin 220 in synchronization. The operation knob 23 is slidably attached to an operation horizontal fin 220 a that is one of the horizontal fins 220, and is swingably attached to an operation vertical fin 210 a that is one of the vertical fins 210. The operation knob 23 slides in the left-right direction with respect to the operation horizontal fin 220a. The operation vertical fin 210a swings in conjunction with the slide displacement of the operation knob 23 in the left-right direction.

  The register unit 2 is slidably held inside the retainer 1. Specifically, the register portion 2 is slidable along the direction in which the retainer 1 extends (that is, the air flow path upstream side-the air flow path downstream direction).

  The main supporter 3 has a frame portion 30 having a frame shape (frame shape) and a pair of leg portions 31 which are plate-shaped and integrated with the left and right end portions of the frame portion 30, respectively. Eggplant. Each leg 31 is pivotally supported on the upper wall 101 of the retainer 1. Accordingly, the main supporter 3 rotates with respect to the retainer 1. A main supporter urging means (not shown) is attached to the rotation shaft of the main supporter 3. The main supporter urging means is composed of a coil spring, and urges the main supporter 3 counterclockwise (that is, toward the main supporter 3 exit position described later). The main supporter lock means 8 is attached to the frame portion 30 of the main supporter 3. The main supporter locking means 8 has a lock part 80 and an operation part 81. The lock part 80 has two lock convex parts (not shown). The two lock projections can be engaged with two lock recesses 800 formed on the left and right side walls of the retainer 1, respectively. The operation unit 81 is attached to the frame unit 30 so as to be able to enter and exit. When the main supporter 3 is moved to a main supporter entering position to be described later, the lock convex part and the lock concave part 800 are engaged, and the main supporter 3 is locked at the main supporter entering position. When the unlocking operation is performed on the operation portion 81, the engagement between the lock convex portion and the lock concave portion 800 is released.

  The protector 4 has a plate shape extending in the left-right direction. As shown in FIG. 3, one end of the protector 4 is pivotally supported on the lower wall of the retainer 1. Specifically, one end portion of the protector 4 is disposed below the register portion 2, and is pivotally supported on the air flow channel upstream end portion of the holder bottom wall portion 102. The protector 4 rotates with respect to the retainer 1. A protector urging means (not shown) is attached to the rotation shaft of the protector 4. The protector urging means comprises a coil spring, and urges the protector 4 counterclockwise (that is, toward a protector exit position described later).

  The sub supporter 5 has a supporter base portion 50 having a plate shape and a sub support portion 51 having a plate shape. The auxiliary support portion 51 is pivotally supported by the supporter base portion 50 and rotates with respect to the supporter base portion 50. The auxiliary supporter 5 is disposed below the upper wall 101 of the retainer 1 and above the register unit 2. The sub supporter 5 is slidably held inside the retainer 1. Specifically, the auxiliary supporter 5 is slidable along the direction in which the retainer 1 extends (that is, the air flow path upstream side-the air flow path downstream direction). The sub support part 51 is arrange | positioned rather than the support base at the air flow path downstream. A sub supporter urging means (not shown) is attached to the rotation shaft of the sub support portion 51. The auxiliary supporter urging means is composed of a coil spring, and urges the auxiliary support portion 51 to the auxiliary support portion protruding position described later.

  As shown in FIG. 3, the first link 6 has two main supporter side rack portions 60, two register side first rack portions 61, and two first pinion portions 62. The main supporter side rack portion 60 is formed on each leg portion 31 of the main supporter 3. Specifically, the main supporter-side rack portion 60 has an arc shape centered on the rotation shaft of the main supporter 3, and the tooth row is directed in the outer peripheral direction of the rotation shaft of the main supporter 3. The register-side first rack portion 61 is formed on the left side wall lower portion and the right side wall lower portion of the register retainer 20, respectively. Specifically, the register-side first rack portion 61 extends along the direction in which the register retainer 20 extends, and the tooth row is directed upward. The first pinion unit 62 is formed by coaxially integrating two pinions (a main support pinion 620 and a register pinion 621). The first pinion portion 62 is pivotally supported by the lower left wall portion and the lower right wall portion of the retainer 1. Each main supporter pinion 620 meshes with each corresponding main supporter side rack portion 60. Each register pinion 621 meshes with each corresponding register-side first rack portion 61. The main support pinion 620 has a smaller diameter than the register pinion 621.

  The second link 7 has two register-side second rack portions 70, two sub-supporter-side rack portions 71, and two second pinion portions 72. The register-side second rack portion 70 is formed on the left side wall upper portion and the right side wall upper portion of the register retainer 20, respectively. Specifically, the register-side second rack portion 70 extends along the direction in which the register retainer 20 extends, and directs the dentition upward. The sub supporter side rack portion 71 is formed in the lower left portion and the lower right portion of the supporter base portion 50, respectively. Specifically, the auxiliary supporter side rack portion 71 extends along the direction in which the register retainer 20 extends, and directs the dentition downward. The second pinion unit 72 is composed of one pinion. The second pinion portion 72 is pivotally supported on the left side wall upper portion and the right side wall upper portion of the retainer 1. Each second pinion portion 72 meshes with each corresponding register-side second rack portion 70 and sub-supporter-side rack portion 71.

  The operation of the register-integrated container holder device of the embodiment will be described below.

  In the holder storage state shown in FIGS. 1 and 3, the main supporter 3 is disposed at the main supporter entry position, the register unit 2 is disposed at the register exit position, the protector 4 is disposed at the protector entry position, and the sub supporter 5 is disposed at the subsupporter 5 position. It is placed at the supporter entry position.

  At the main supporter entry position, the frame portion 30 of the main supporter 3 is disposed on the inner peripheral side of the bezel 11 and constitutes a blowout opening for air for air conditioning. At this time, the main supporter 3 is locked at the main supporter entering position by the main supporter locking means 8. For this reason, the counterclockwise rotation of the main supporter 3 is interfered by the main supporter lock means 8.

  At the register exit position, the register unit 2 is disposed at the downstream end of the retainer 1 on the air flow path. At this time, the downstream end portion of the operation knob 23 on the air flow path projects further to the downstream side of the air flow path than the frame portion 30.

  At the protector insertion position, the protector 4 is disposed in the gap between the holder bottom wall portion 102 and the register portion 2 with the end opposite to the rotation shaft facing the downstream side of the air flow path. At this time, since the protector 4 is in contact with the register unit 2, the counterclockwise rotation of the protector 4 is interfered by the register unit 2.

  In the sub supporter entry position, the sub supporter 5 is disposed in the gap between the upper wall 101 of the retainer 1 and the register unit 2. At this time, the downstream end portion of the sub-support portion 51 on the air flow path is disposed on the upstream side of the air flow path with respect to the downstream end portion of the register section 2. Further, at this time, the sub support portion 51 is urged by the sub supporter urging means and extends in substantially the same direction as the direction in which the retainer 1 extends.

  When the register-integrated container holder device of the embodiment is changed from the holder storage state to the holder use state, the operation portion 81 of the main supporter lock means 8 is unlocked. Then, the engagement between the lock projection and the lock recess 800 is released. Since the main supporter 3 is urged by the main supporter urging means, the main supporter 3 is rotated counterclockwise about the rotation axis and disposed at the main supporter exit position. At the main supporter exit position, the entire frame portion 30 of the main supporter 3 protrudes downstream of the retainer 1 toward the air flow path (FIG. 4). Specifically, the frame portion 30 is slightly inclined from the upper side on the upstream side of the air channel toward the lower side on the downstream side of the air channel, and the frame inner wall 30a of the main supporter 3 extends substantially in the vertical direction.

  The main supporter 3 is formed with a main supporter side rack portion 60, the register is formed with a register side first rack portion 61, and the main supporter side rack portion 60 and the register side first rack portion 61 are provided with a first pinion portion. 62 is engaged. Therefore, when the main supporter 3 rotates counterclockwise, the first pinion rotates clockwise, and the register-side first rack portion 61 slides to the left (that is, the air flow path upstream side). Therefore, the register unit 2 is also slid in the upstream direction of the air flow path and is disposed at the register entry position. When the register unit 2 is disposed at the register entry position, the register unit 2 does not contact the protector 4 and does not interfere with the counterclockwise rotation of the protector 4. For this reason, the protector 4 rotates counterclockwise, and is displaced to the protector exit position where the end on the downstream side of the air flow path protrudes above the register section 2 on the downstream side of the air flow path. At this time, the protector 4 is in contact with the air flow path downstream side wall surface of the general bottom wall portion 103 (that is, the boundary wall surface with the holder bottom wall portion 102 and the wall surface of the step portion in the general bottom wall portion 103). To stop the rotation. Therefore, the air flow path downstream side wall surface of the general bottom wall portion 103 functions as a stopper for the protector 4.

  Further, a register side second rack portion 70 is formed in the register portion 2, a sub supporter side rack portion 71 is formed in the sub supporter 5, and the register side second rack portion 70 and the sub supporter side rack portion 71 are provided in the sub supporter rack portion 71. The second pinion part 72 is engaged. Therefore, when the register unit 2 slides in the upstream direction of the air flow path, the second register-side rack portion 70 slides in the left direction in FIG. 3 (that is, in the upstream direction of the air flow path), and the second pinion portion 72 rotates clockwise. The auxiliary supporter side rack portion 71 slides in the right direction in FIG. 3 (that is, the air flow path downstream direction). Accordingly, the secondary supporter 5 is also slid in the downstream direction of the air flow path and is disposed at the secondary supporter exit position. At the auxiliary supporter exit position, the air flow path downstream end of the supporter base 50 and the entire sub support part 51 protrude further to the air flow path downstream than the retainer 1.

  The register portion 2 in the register-integrated container holder device of the embodiment is displaced to the upstream side of the air flow path when the holder is used. For this reason, the holder bottom wall portion 102 (that is, the portion on the downstream side of the air flow path in the bottom wall 100 of the retainer 1) is exposed. Therefore, at this time, in the register-integrated container holder device of the embodiment, the holder bottom wall portion 102, the frame inner wall 30a of the main supporter 3, and the sub support portion 51 of the sub supporter 5 form a holder portion. For this reason, the register-integrated container holder device of the embodiment can hold the container by the holder portion when the holder is used (FIGS. 4 and 5). Specifically, when holding the small-diameter container 90, as shown in FIG. 4, the bottom surface of the container 90 is supported by the holder bottom wall portion 102, and the frame inner wall 30a of the main supporter 3 and the end surface of the sub-supporter 5 are used. The side surface of the container 90 is clamped. Further, when holding the large-diameter container 91, as shown in FIG. 5, the sub-support part 51 rotates clockwise, so that the bottom surface of the container 91 is supported by the holder bottom wall part 102, and the main supporter The side surface of the container 91 is sandwiched between the inner wall 30 a of the frame 3 and the upper surface of the auxiliary support portion 51. Therefore, according to the register-integrated container holder device of the embodiment, various containers 90 and 91 can be stably held.

  When the register-integrated container holder device of the embodiment is changed from the holder use state to the holder retracted state, the frame 30 is pressed toward the retainer 1 to rotate the main supporter 3 clockwise. Then, as shown in FIG. 6, the first pinion portion 62 rotates counterclockwise, and the register side first rack portion 61 slides in the right direction (that is, the air flow path downstream side direction). Slides in the downstream direction of the air flow path and is arranged at the register exit position. When the register unit 2 slides in the downstream direction of the air flow path, the register-side second rack portion 70 slides in the right direction (that is, in the downstream direction of the air flow path), and the second pinion unit 72 rotates in the clockwise direction. The side rack portion 71 slides in the left direction (that is, the air flow path upstream side direction). Therefore, the secondary supporter 5 slides in the upstream direction of the air flow path and is arranged at the secondary supporter entry position. At this time, the register unit 2 abuts against the protector 4 and rotates the protector 4 clockwise against the urging force of the protector urging means. Therefore, the protector 4 is displaced to the protector insertion position. The main supporter 3 is locked by the main supporter locking means 8 when displaced to the main supporter entry position.

  In the register-integrated container holder device according to the embodiment, the holder bottom portion 102 of the retainer 1 is supported by the holder bottom wall portion 102 which is a part of the bottom wall 100 of the retainer 1 in the holder use state. The containers 90 and 91 can be held without protruding greatly to the outside. Therefore, the register-integrated container holder device of the embodiment can be disposed in a narrow space.

  Further, in the register-integrated container holder device of the embodiment, the protector 4 is interposed between the register portion 2 and the holder portion when the holder is used. For this reason, the contact between the containers 90 and 91 and the register unit 2 can be suppressed without greatly displacing the register unit 2 to the upstream side of the air flow path.

  Further, the main supporter 3 in the register-integrated container holder device of the embodiment forms a blowout opening for air for air conditioning in the holder retracted state (the state in which the main supporter 3 is moved to the main supporter entering position). The outer shape of the register-integrated container holder device can be reduced. Further, since the main supporter 3 rotates between the main supporter insertion position and the main supporter extraction position, the size of the holder portion in the holder usage state can be reduced even if the outer shape of the register-integrated container holder device in the holder storage state is reduced. You can increase the size. For this reason, the register-integrated container holder device of the embodiment can be disposed in a narrow space and can stably hold the container.

  Further, since the register-integrated container holder device of the embodiment holds the side surfaces of the containers 90 and 91 between the main supporter 3 and the sub-supporter 5, the containers 90 and 91 can be stably held. Further, since the auxiliary supporter 5 is displaced upstream of the air flow path in the holder retracted state, the outer shape of the register-integrated container holder device in the holder retracted state can be reduced. Also by this, the register-integrated container holder device of the embodiment can be disposed in a narrow space and can stably hold the containers 90 and 91.

  The main supporter 3 in the register-integrated container holder device of the embodiment rotates between the main supporter entrance position and the main supporter exit position, but the displacement method of the main supporter 3 in the register-integrated container holder device of the present invention. Is not limited to this. For example, the main supporter 3 may slide between the main supporter entrance position and the main supporter exit position. In this case, the sub supporter 5 may be integrated with the main supporter 3. Similarly, the sub-supporter 5 and the protector 4 may be rotated, slid, or displaced by other methods.

  The main supporter 3 in the register-integrated container holder device of the embodiment has a frame shape, but the main supporter 3 in the register-integrated container holder device of the present invention may have a frame shape, for example, a U-shape or an L-shape. You may make.

  In the register-integrated container holder device of the embodiment, the main supporter 3, the register unit 2, and the sub-supporter 5 are interlocked by a rack and pinion mechanism. However, in the register-integrated container holder device of the present invention, these interlocking mechanisms Is not limited to a rack and pinion mechanism.

It is a perspective view showing a register integrated container holder device of an example typically. It is a perspective view showing a register integrated container holder device of an example typically. It is explanatory drawing explaining operation | movement of the register integrated container holder apparatus of an Example. It is explanatory drawing explaining operation | movement of the register integrated container holder apparatus of an Example. It is explanatory drawing explaining operation | movement of the register integrated container holder apparatus of an Example. It is explanatory drawing explaining operation | movement of the register integrated container holder apparatus of an Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1: Retainer 2: Register part 3: Main supporter 4: Protector 5: Sub supporter 30: Frame part 30a: Frame inner wall of main supporter 102: Holder bottom wall part

Claims (3)

A cylindrical retainer constituting at least a part of the air-conditioning air flow path and the blowout opening;
A plurality of fins, attached to the interior of the retainer and disposed at the downstream end of the retainer on the air flow path; and a register entry disposed on the upstream side of the air flow path from the register out position And a register section that adjusts the flow direction of the air-conditioning air,
A main supporter outlet position that is in the shape of a frame and is attached to the retainer, at least a part of which protrudes to the downstream side of the air flow path than the retainer, and a main supporter disposed on the upstream side of the air flow path from the register outlet position A main supporter that is displaced between the entry position and
A protector exit position that is attached to the retainer and at least a portion projects into the retainer on the downstream side of the air flow path from the register portion, and a projecting amount into the retainer is a projecting amount at the protector ejecting position. A protector entering position that is smaller than the protector, and a protector that is displaced between,
A first link for displacing the register unit from the register exit position to the register entry position in conjunction with the displacement of the main supporter from the main supporter entry position to the main supporter exit position;
A second link that displaces the protector from the protector entry position to the protector exit position in conjunction with the displacement of the main supporter from the main supporter entry position to the main supporter exit position;
At the main supporter exit position, the inner wall of the main supporter and a part of the bottom wall of the retainer form a holder part on the downstream side of the air flow path of the register part, and the holder part and the register part A register-integrated container holder device, wherein the protector is interposed therebetween.   2. The register-integrated container holder device according to claim 1, wherein the main supporter is rotatably attached to the retainer and forms a part of the air-conditioning air blowing opening at the main supporter entrance position. An auxiliary supporter output position attached to the retainer, at least a part of which protrudes downstream of the retainer from the air flow path, and an auxiliary supporter input position disposed at the upstream side of the air flow path from the auxiliary supporter output position; With a secondary supporter that moves between
The sub-supporter is displaced from the sub-supporter entry position to the sub-supporter exit position in conjunction with the displacement of the main supporter from the main supporter entry position to the main supporter exit position. The register-integrated container holder device according to claim 1 or 2 to be formed.

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