KR101163138B1 - Ventilation device - Google Patents

Abstract

To provide a ventilation device that can easily move the closure member and is advantageous in increasing the durability of the elastic seal member.
When the obstruction member 20 moves from the obstruction position CP to the open position OP by the rotation operation of the operation knob 43, the obstruction member 20 is opened at the sealing surface 2004A and the inlet at the initial stage of the opening movement. The gap S between the edge portion 18A is moved from the closed position CP toward the open position OP while widening the distance S between the edge portion 18A, and thereafter, the gap S between the sealing surface 2004A and the inlet edge portion 18A. While keeping constant, move to reach the open position OP. When the occlusion member 20 moves from the open position OP to the occlusion position CP, the plane P is maintained while keeping the spacing S constant until the occlusion member 20 reaches the final stage of the occlusion movement. ), And in the final step, the gap S is reduced to reach the occlusion position CP to press the sealing surface 2004A against the inlet edge 18A.

Description

Ventilation device {VENTILATION DEVICE}

The present invention relates to a ventilation device that opens and closes an interior side opening of a ventilation hole communicated to the outside by moving a closure member.

A ventilation device comprising a housing provided with an interior side opening of a ventilation hole disposed in a room and communicating outdoors, wherein a closing member opens and closes the interior opening by moving an upper portion of the interior opening in the housing. It is known.

In this type of ventilation device, an elastic seal member is provided at the edge of the indoor side opening, and when the interior opening is closed, the closed position of the closing member closing the interior opening is blocked so that air does not flow through the interior opening. In this case, the closure member is elastically contacted with the elastic seal member so that the interior opening is hermetically closed.

Conventionally, this elastic seal material is extended in the direction orthogonal to the moving direction of a closure member, and the closure member is always in contact with an elastic seal material when the closure member moves at the time of opening / closing an interior side opening (patent document 1).

Japanese Patent Publication Hei 7-279553

Therefore, the conventional ventilation apparatus requires a large force in order to move a block member, and there existed a problem that a block member cannot be moved simply.

Moreover, since the blocking member is in constant contact with the elastic seal member, there is a problem that the durability of the elastic seal member is poor.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a ventilation device which is advantageous in that the closing member can be easily moved and the durability of the elastic seal member is improved.

In order to achieve the above object, the present invention provides a housing having an opening through which air for ventilation can be passed, a closing member for closing the opening arranged in the housing, and an opening position in which the closing member opens the opening. And an operating mechanism for moving between a closing position for closing the opening, the opening having an inlet edge portion defined by an elastic seal member and extending in a plane, wherein the closing member has the closing position. Has a flat sealing surface that closes the opening in close proximity to the inlet edge portion, the operation mechanism includes a drive mechanism for driving the closure member, the open position driven and generated by the drive mechanism, and the Guide to guide movement of the occlusion member between occlusion positions We have sphere.

And the guiding mechanism (1) when the closure member is driven by the drive mechanism to move from the occlusion position to the open position, the occlusion member is located between the sealing surface and the inlet edge at an initial stage of the opening movement. Guiding the closure member to reach the open position while moving away from the occluded position toward the open position while widening the gap thereafter, while maintaining a constant gap between the sealing surface and the inlet edge portion; (2) When the closure member is driven by the drive mechanism to move from the open position to the closure position, the gap between the sealing surface and the inlet edge portion is maintained until the closure member reaches the final stage of the closure movement. Move along the plane while keeping it constant, By reducing the distance between the sealing surface and the entrance edge portion is characterized in that for guiding the obstruction member to reach the closed position.

According to the present invention, since the closing member contacts the elastic seal member only at the initial stage when the indoor opening is opened, and only at the final stage when the interior opening is closed, the closing member contacts the elastic sealing member. When moving between the position and the occlusion position, a large force as in the prior art is not required, and the occlusion member can be easily moved with a small force, and since the occlusion member and the elastic seal member do not always come in contact with each other, It is also advantageous in increasing durability.

1 is a side view of the ventilation device of the first embodiment incorporated in the building skeleton.
Fig. 2 (A) is a plan view of the housing portion with the operation knob in the first rotational position, and (B) is a plan view of the operation mechanism, the closure member, and the interior side opening portion with the closure member located at the closed position.
Fig. 3 (A) is a plan view of the housing portion with the operation knob in the second rotational position, (B) is a plan view of the operation mechanism, the closure member, and the interior side opening portion with the closure member located at the open position.
4 is a side view of the ventilation device of the operation handle portion.
5 is a side view of the ventilation device in a state where the occlusion member is located at the occlusion position.
6 is a side view of the ventilation device with the closure member positioned in the open position.
7 is an explanatory view of the movement of the closure member, (A) is a plan view of the closure member and the interior side opening, and (B) is a front view of the closure member and the interior side opening.
8 is a plan view of the ventilation device of the second embodiment incorporated in the building skeleton.
9 is a plan view of the operating mechanism, the blocking member, and the interior side opening portion with the blocking member in the closed position.
10 is a plan view of the operation mechanism, the closure member, and the interior side opening portion with the closure member positioned in the open position.
Fig. 11 is a front view showing the relationship between the operation lever, the support plate, the upper plate, and the slide plate positioned at the dodging position.
It is a front view which shows the relationship of the operation lever, a support plate, an upper plate, and a slide plate located in a standing position.
13 is a side view of the ventilation device with the closure member positioned in the closed position.
14 is a side view of the ventilation device with the closure member positioned in the open position.
15 is an exploded perspective view of an operation lever, a support plate, an upper plate, a slide plate, and the like.
Fig. 16 is a plan view in which a slide plate is mounted on a support plate.
17 is a plan view in which a slide plate is mounted on a support plate, and an upper plate is mounted on a slide plate.
(A) is a top view of an operation lever, (B) is a front view, (C) is a side view.
(A) is a top view of a support plate, (B) is a front view, (C) is a side view.
(A) is a top view of an upper plate, (B) is a front view.
(A) is a top view of a slide plate, (B) is a front view, (C) is a side view.

Hereinafter, embodiments of the present invention will be described.

First, the first embodiment will be described with reference to FIGS. 1 to 7.

In FIG. 1, 2 is window glass, 4 is building skeleton, and the ventilation apparatus 10 is provided in the lower part of the window glass 2. As shown in FIG.

The ventilator 10 is disposed in a room and has a housing 16 provided with an interior opening 14 of the ventilation hole 12, and an elastic seal member (sealing material) 18 mounted to the edge of the interior opening 14. And the closing member 20 for opening and closing the interior opening 14, the open position OP for retracting the closure member 20 from the interior opening 14 to open the interior opening 14, and the interior. It is comprised including the operation mechanism 23 for moving between the closed position CP which closes the side opening 14. As shown in FIG.

Moreover, the operation mechanism 23 is the drive mechanism 24 which drives the closure member 20, and the closure member 20 between the opening position OP and the closure position CP which are driven by the drive mechanism 24, and generate | occur | produces. A guide mechanism 25 for guiding the movement of the head) is provided.

The ventilation hole 12 has an outdoor side opening 12A which opens to the outside, and communicates indoors and outdoors, and the indoor side opening 14 is an opening through which air for ventilation can pass.

As shown in FIGS. 4-6, 2, and 3, the housing 16 has the shape of an elongated, substantially rectangular parallelepiped suitable for incorporation into the window frame of a built-in window of a building.

The housing 16 includes a frame 32 having a rectangular parallelepiped shape, and an upper plate 34 that closes the upper opening of the frame 32, and the like, and as illustrated in FIGS. 2 and 3, the upper plate 34 includes: A plurality of slits 36 are formed for ventilation. In addition, it is arbitrary to provide an insect screen on the lower surface of the outdoor opening 12A and the upper plate 34 on which the slit 36 is located.

4 to 6, the bottom plate 38 of the frame 32 extends horizontally, and the interior side opening 14 is formed in the bottom plate 38. Therefore, in this embodiment, the indoor side opening 14 is located on a horizontal plane, and the air which passes through the ventilation hole 12 and is directed from the outdoors to the interior flows downward from the upper side in the indoor opening 14, and is indoors from the outdoor. The air toward the side flows from the upper side to the lower side in the indoor side opening 14.

The interior side opening 14 has a length and width as an elongate rectangular shape, and the longitudinal direction of the interior side opening 14 coincides with the longitudinal direction of the housing 16.

The elastic seal member 18 has a portion that expands and protrudes above the bottom plate 38, which is partitioned by the elastic seal member 18 and inlet edge portion extending in the plane P (see FIG. 6). It is formed in 18A, and therefore the indoor side opening 14 has 18A of entrance edges.

Of the two long sides forming the interior opening 14, the frame 20 is positioned outside the long side located at the end in the direction from the closed position CP toward the open position OP ( A projection 3210 is formed at the location 32.

The blocking member 20 is arranged in the housing 16 and has a length and a width in the shape of an elongated rectangle. The longitudinal direction of the blocking member 20 coincides with the longitudinal direction of the housing 16. The moving direction of the member 20 is the width direction of this blocking member 20.

As shown in Figs. 4 to 6, the closure member 20 has a hollow shape and has an upper wall 2002 and a lower wall 2004 parallel to each other.

The lower surface of the lower wall 2004 is formed with a flat sealing surface 2004A that closes the interior opening 14 close to the inlet edge portion 18A when the blocking member 20 is in the closed position CP.

Guide pins 40 are provided at two positions of the upper wall 2002 spaced apart in the long side direction of the blocking member 20, respectively.

The engagement protrusion 2010 in which the part of the lower wall 2004 protrudes outward of the short side direction rather than the upper wall 2002 is formed in one long side part among two long sides of the blocking member 20.

Moreover, the part of the lower wall 2004 which forms the other long side of two long sides protrudes outward of the short side direction rather than the part of the upper wall 2002, and the engaging piece 2012 is protruded by the lower surface.

The guide plate 26 extends in the housing 16 in a direction parallel to the short side direction of the interior opening 14 above the closure member 20, and as shown in FIGS. 2 and 3. 26 are provided in the long side direction of the indoor side opening 14 at intervals.

A long hole 42 extends in the guide plate 26 in a direction parallel to the short side direction of the interior opening 14, which is the moving direction of the closure member 20, and the long pin 42 has a guide pin 40. Is inserted in the longitudinal direction of the long hole 42 so as to be slidable.

As the guide pin 40 slides in the long hole 42, the closure member 20 is movably guided in the short side direction of the interior opening 14.

The drive mechanism 24 is provided with the operation handle 43 which is an operation handle attached to the housing 16, and the link mechanism 51 which connects the operation handle 43 and the closure member 20, and is operated by a user. The closing member 20 is configured to be driven by manually operating the handle 43.

Moreover, the link mechanism 51 is comprised including the pinion 44, the rack 46, the sliding motion member 48, the link arm 50, the guide pin 40, and the long hole 42. As shown in FIG.

The operation knob 43 is rotatably attached to the recess of the top plate 34 in the housing 16.

As shown in FIG. 4, the pinion 44 is attached to the lower portion of the operation knob 43 so as to rotate integrally with the operation knob 43.

The sliding movement member 48 extends in a direction parallel to the long side of the interior opening 14, and the guide 3202 of the frame 32 enables sliding movement in a direction parallel to the long side of the interior opening 14. It is supported, that is, it is supported so that sliding movement in the direction orthogonal to the moving direction of the blocking member 20 is possible.

The rack 46 is attached to the sliding motion member 48 and engaged with the pinion 44, so that the sliding motion member 48 reciprocates in accordance with the rotational operation of the operation knob 43.

Both ends of the link arm 50 are pivotally mounted to the sliding member 48 and the guide pin 40 to move the closure member 20 according to the movement of the sliding member 48.

More specifically, two link arms 50 are provided, and one end of each link arm 50 is rotatable through the shaft 4802 at two spaced intervals in the longitudinal direction of the sliding movement member 48. Connected. In addition, the other end of each link arm 50 is disposed to contact the upper surface of the guide plate 26 is rotatably connected to the guide pin 40 protruding from the long hole 42.

Then, the closing member 20 is positioned at the closing position CP at the first rotational position of the operating knob 43 shown in FIG. 2 (A), and the operating knob 43 shown in FIG. 3 (A). In the open position OP at the second rotational position.

In this embodiment, the link arm 50 is formed in the shape of a rod and has a longitudinal axis, and the angle between the extending direction of the longitudinal axis of the link arm 50 and the moving direction of the sliding movement member 48 is achieved. (theta) becomes an angle close to a right angle when the blocking member 20 is in the closing position CP, and gradually decreases as the closing member 20 reaches the open position OP from the closing position CP.

The guide mechanism 25 is equipped with the 1st cam surface 30, the 2nd cam surface 31, and the press mechanism 28. As shown in FIG.

The first cam surface 30 includes a housing side cam surface 30A and a closure member side cam surface 30B.

The housing side cam surface 30A has a long side positioned at an end portion of the two long sides forming the interior side opening 14 in which the closing member 20 is directed from the open position OP toward the closing position CP. It is provided in the location of the upper frame 32, and is formed in the inclined surface inclined with respect to the plane P. As shown in FIG.

The housing side cam surface 30A can be engaged with the engagement convex portion 2010 of the closure member 20.

The blocking member side cam surface 30B is formed in the inclined surface inclined with respect to the plane P on the inner surface of the engaging piece 2012 of the blocking member 20. As shown in FIG.

The closing member side cam surface 30B can be engaged with the projection 3210 of the frame 32.

As described above, in the present embodiment, the first cam surface 30 is configured to guide the two long side portions of the closure member 20, and the movement of the closure member 20 when the indoor opening 14 is opened and closed. Stabilization of is planned.

The second cam surface 31 is formed on the lower surface of the guide plate 26, and the second cam surface 31 extends parallel to the plane P. As shown in FIG.

As shown in FIG. 6, in the state where the blocking member 20 abuts on the second cam surface 31 of the guide plate 26, the sealing surface 2004A of the blocking member 20 and the elastic sealing material 18 are separated. The space | interval S of an up-down direction is ensured between 18 A of entrance edge parts.

The pressurizing mechanism 28 presses the closing member 20 to the housing 16 via the first cam surface 30 and the second cam surface 31.

In more detail, the pressurizing mechanism 28 is comprised including the guide pin 40 and the coil spring 28A.

The coil spring 28A is wound around and mounted between the head of the guide pin 40 and one end of the link arm 50 at the outer circumference of each guide pin 40, and one end of the guide plate 26 and the link arm 50. The guide pin 40 is urged upwards.

Then, at the initial stage when the blocking member 20 moves from the blocking position CP toward the open position OP, the engagement convex portion 2010 of the blocking member 20 is driven by the pressing mechanism 28. Is engaged with the side cam surface 30A, and the closure member side cam surface 30B is engaged with the projection 3210 of the frame 32, and then their engagement is released to release the upper wall 2002 of the closure member 20. The upper surface of is in contact with the second cam surface 31 to reach the open position (OP).

That is, the guide mechanism 25 guides the blocking member 20 by the 1st cam surface 30, and the 2nd cam surface (when the blocking member 20 moves from the blocking position CP to the open position OP). It is comprised so that the guidance of the blocking member 20 by 31) may alternate.

Therefore, the guide mechanism 25 is operated when the closing member 20 is driven by the drive mechanism 24 to move from the closing position CP to the open position OP, and the closing member 20 moves at the initial stage of the opening movement. Move from the closed position CP toward the open position OP while widening the spacing S between the sealing surface 2004A and the inlet edge 18A, after which the sealing surface 2004A and the inlet edge 18A The closing member 20 is guided to move and reach the open position OP while keeping the distance S between the constants constant.

In addition, when the closing member 20 moves from the open position OP to the closing position CP, the upper surface of the upper wall 2002 of the closing member 20 is fitted to the second cam surface 31 by the pressing mechanism 28. In the final step, the above-mentioned contact is released, and the engagement convex portion 2010 of the closure member 20 is engaged with the housing side cam surface 30A, and the closure member side cam surface 30B is connected to the frame 32. Engaged in the projection 3210 to reach the occlusion position (CP).

That is, the guide mechanism 25 guides the closure member 20 by the 1st cam surface 30, and the 2nd cam surface (when the closure member 20 moves from the open position OP to the closure position CP). It is comprised so that the guidance of the blocking member 20 by 31) may alternate.

Thus, the guide mechanism 25 is operated when the closing member 20 is driven by the driving mechanism 24 to move from the open position OP to the closing position CP, so that the closing member 20 is in the final stage of the closing movement. Until this, it moves along the plane P while keeping the spacing S between the sealing surface 2004A and the inlet edge 18A constant, and in the final step, the sealing surface 2004A and the inlet edge 18A. The closing member 20 is guided to reduce the space S therebetween to reach the closing position CP.

In addition, when the first cam surface 30 is installed to be inclined with respect to the plane P so as to be engaged with the other of the housing 16 and the blocking member 20 in one of the housing 16 and the closing member 20. do.

Moreover, the 2nd cam surface 31 is installed so that it may be extended in parallel with the plane P so that the 2nd cam surface 31 may be engaged with the other of the housing 16 and the closure member 20 in one of the housing 16 and the closure member 20. FIG. That's it.

That is, the first cam surface 30 and the second cam surface 31 may be provided so as to be engaged with the other of the housing 16 and the closure member 20 in one of the housing 16 and the closure member 20, It is not limited to the structure of embodiment, Various conventionally well-known engagement structures are employable.

According to the first embodiment, when the operation knob 43 is rotated, the closing member 20 is moved through the drive mechanism 24 and the guide mechanism 25 as shown in FIGS. 7A and 7B. It is driven between the open position OP and the closed position CP.

And, when the blocking member 20 moves from the closing position CP to the open position OP, the blocking member 20 is disposed between the sealing surface 2004A and the inlet edge 18A at the initial stage of the opening movement. While moving away from the closed position CP toward the open position OP while widening the gap S, thereafter moving while maintaining a constant gap S between the sealing surface 2004A and the inlet edge portion 18A. The open position OP is reached.

In addition, when the blocking member 20 moves from the open position OP to the closing position CP, the sealing surface 2004A and the inlet edge portion 18A until the closing member 20 reaches the final stage of the closing movement. Moving along the plane P while keeping the spacing S therebetween constant, and in the final step, the spacing S between the sealing surface 2004A and the inlet edge 18A is reduced to a closed position CP. And press the sealing surface 2004A against the inlet edge 18A.

Therefore, at the time of the opening operation for moving the blocking member 20 from the closing position CP to the opening position OP, the closing member 20 and the elastic seal member 18 do not contact except for the initial stage. In addition, at the closing operation for moving the blocking member 20 from the open position OP to the closing position CP, the closing member 20 and the elastic seal member 18 do not contact each other except for the final step.

Therefore, the operation knob 43 can be rotated with a small force, and the opening / closing of the interior side opening 14 can be performed easily.

In addition, since the elastic seal member 18 and the closure member 20 do not always contact when the closure member 20 moves, it is advantageous in increasing the durability of the elastic seal member 18.

In addition, since the angle θ formed between the link arm 50 and the sliding movement member 48 is set to be an angle close to the right angle at the closing position CP of the blocking member 20, the initial stage of the opening movement of the blocking member 20 is performed. Although the closing member 20 and the elastic seal member 18 are in contact with each other at the final stage of the closing and closing movement, even if the force applied to the operation knob 43 is small, the guide pin 40 opens and closes the closing member 20. A large force acts in the direction, which is advantageous in simply opening and closing the interior opening 14.

Moreover, even if the pressure by external air acts at the time of occlusion, the obstruction member 20 is hard to move, and it is advantageous in maintaining the airtightness at the time of occlusion.

Next, a second embodiment will be described with reference to FIGS. 8 to 21.

The ventilation apparatus 60 of 2nd Embodiment is also provided in the building frame of the lower part of window glass similarly to 1st Embodiment.

The ventilator 60 includes a housing 66 in which an interior side opening 64 of the ventilation hole 62 communicates with the outside, and an elastic seal member (sealing material) 68 mounted to the edge of the interior opening 64. And a closing member 70 for opening and closing the interior opening 64, an open position OP for retracting the closure member 70 from the interior opening 64 to open the interior opening 64, and an interior. It is comprised including the operation mechanism 71 for moving between the closed position CP which closes the side opening 64. As shown in FIG.

Moreover, the operation mechanism 71 is the drive mechanism 74 which drives the closure member 70, and the closure member 70 between the opening position OP and the closure position CP which are driven by the drive mechanism 74, and generate | occur | produces. A guide mechanism 75 for guiding the movement of the "

The ventilation hole 62 has an outdoor side opening that is opened to the outside, and communicates with the inside and outside, and the indoor side opening 64 is an opening through which air for ventilation can pass.

As shown in Figs. 8 to 10, 13 and 14, the housing 66 has a shape of an elongated substantially rectangular parallelepiped suitable for incorporation into a window frame of a built-in window of a building.

As shown in FIGS. 8 and 13, the housing 66 includes a frame 82 having a rectangular parallelepiped shape, a rectangular top plate 84 that closes the upper opening of the frame 82, and the like.

The upper plate 84 is provided with a plurality of slits 8402 for ventilation, and an opening is formed in the middle portion in the longitudinal direction.

A frame-shaped makeup plate 8404 is fitted in the opening.

As shown in FIG. 13, the bottom plate 8202 of the frame 82 extends horizontally, and the indoor side opening 64 is formed in this bottom plate 8202 in a rectangle. Therefore, in this embodiment, the indoor side opening 64 extends on a horizontal plane, and the air which passes through the ventilation hole 62 and is directed from the outdoors to the interior flows downward from the top in the indoor side opening 64, Air toward the outside flows from the upper side to the lower side in the indoor side opening 64.

The interior side opening 64 has a length and width as an elongate rectangular shape, and the longitudinal direction of the interior side opening 64 corresponds to the longitudinal direction of the housing 66.

Of the two long sides forming the interior side opening 64, at the location of the frame 82 located outside the long side in the direction in which the blocking member 70 faces the open position OP from the closed position CP. A projection 8210 is formed.

The elastic seal member 68 has a portion that expands and protrudes above the bottom plate 8102, which is partitioned by the elastic seal member 68 and inlet edge portion extending in the plane P (see FIG. 6). It is formed in 68A, and therefore, the interior opening 64 has an inlet edge portion 68A.

The blocking member 70 is arranged in the housing 66 and has a length and a width as an elongated rectangular shape. The longitudinal direction of the blocking member 70 coincides with the longitudinal direction of the housing 66. The moving direction of the member 70 is the width direction of this blocking member 70.

As shown in FIG. 13, FIG. 14, the blocking member 70 is hollow, and has the upper wall 7002 and the lower wall 7004 parallel to each other.

The lower surface of the lower wall 7004 is formed of a flat sealing surface 7004A that closes the interior opening 64 in close proximity to the inlet edge portion 68A when the closing member 70 is in the closing position CP.

Guide pins 86 protrude from two positions of the upper wall 7002 spaced in the long side direction of the blocking member 70, respectively.

The engagement protrusion 7010 in which the part of the lower wall 7004 protrudes outward of the short side direction rather than the upper wall 7002 is formed in one long side part among two long sides of the blocking member 70.

Moreover, the part of the lower wall 7004 which forms the other long side of two long sides protrudes outward of the short side direction rather than the part of the upper wall 7002, and the engaging piece 7082 protrudes on the lower surface.

The guide plate 76 extends in the housing 66 in the short side direction of the indoor side opening 64 above the closure member 70. As shown in Figs. 9 and 10, the guide plate 76 is indoor. Two are provided at intervals in the long side direction of the side opening 64.

The long hole 88 extends in the guide plate 76 in a direction parallel to the short side direction of the indoor side opening 64, which is the moving direction of the closure member 70, and the long hole 88 has a guide pin 86. ) Is inserted in the longitudinal direction of the long hole 88 so as to be slidable.

As the guide pin 86 slides in the long hole 88, the closing member 70 is movably guided in the short side direction of the indoor opening 64.

The drive mechanism 74 is provided with the operation lever 90 which is an operation handle attached to the housing 66, and the link mechanism 91 which connects the operation lever 90 and the closure member 70, and is operated by a user. The closing member 70 is configured to be driven by manually operating the lever 90.

The link mechanism 91 includes a support plate 94, a link 96, a slide plate 98, an upper plate 100, a sliding member 92, a link arm 89, a guide pin 86, and a long hole ( 88).

In more detail, as shown in FIGS. 9-12 and 19, the support plate 94 extended in the short side direction of the indoor side opening 64 is attached to the middle part of the longitudinal direction of the frame 82. As shown in FIG.

The support plate 94 has a width along the short side direction of the interior side opening 64 and a length along the long side direction of the interior side opening 64.

The bent piece portions 9402 and 9404 at both ends in the width direction of the support plate 94 are attached to the frame 82, and a guide pin attachment hole 9906 is formed at one side in the width direction, and a guide groove at the other side in the width direction. 9408 is provided so that it may be located in a straight line.

In addition, a pair of bent pieces 9410 is standing at the end portion in the longitudinal direction of the support plate 94, and a support shaft hole 9412 is formed in the bent piece 9410.

The operation lever 90 is formed in the rectangle which has the long side along the longitudinal direction of the indoor side opening 64, and the operation lever 90 is arrange | positioned inside the opening 8406 of the makeup board 8404. As shown in FIG.

As shown in FIG. 15, the operating lever 90 is a bent piece 9410 through a hole 9002 at a lower portion of its base and a pin 9004 inserted into a support shaft hole 9412 of the bent piece 9410. And, therefore, the operation lever 90 is swingably attached to the housing 66 so that it can stand upright.

The lower end of the intermediate portion of the operating lever 90 and one end of the link 96 are rotated by a pin 9006 inserted into the pin insertion hole and the hole 9004 of the lower portion of the longitudinal intermediate portion of the operating lever 90. It is possibly connected.

15 and 16, the slide plate 98 is arrange | positioned on this support plate 94, and as shown in FIGS. 11, 12, and 17 on the slide plate 98 on the support plate 94 is shown. The upper plate 100 is disposed.

The top plate 100 has shown the rectangle which has the width along the short side direction of the indoor side opening 64, and the length along the long side direction of the indoor opening 64, as shown in FIG.

The upper plate 100 is for hiding the inside of the housing 66 in the opening 8206 of the makeup plate 8404, and is formed to have a larger contour than the opening 8206.

The upper plate 100 has a first plate portion 100A formed close to one end in the longitudinal direction, a second plate portion 100C connected to the first plate portion 100A via a bend portion 100B, and a first plate portion 100A. ) And the second plate portion 100C are displaced by the thickness of the slide plate 98 in the thickness direction of the plate portions 100A and 100C, and are parallel to each other.

Two elongated grooves 1002 are formed at the end of the second plate portion 100C, and the elongated grooves 1004 are formed at a portion near the first plate portion 100A of the second plate portion 100C.

In the upper plate 100, the bent piece 9210 of the support plate 94 is inserted into two long grooves 1002, the first plate portion 100A is mounted on the support plate 94, and the second plate portion 100C. ) Is mounted on the slide plate 98 and arranged.

In addition, the upper plate 100 is supported by the long groove 1002 in such a way that the bent piece 9410 of the support plate 94 is inserted in a non-movable direction in the long side direction of the interior side opening 64, and the bent piece 9410 The link 96 connected to the connecting piece 9804 of the slide plate 98 described later by the base of the operating lever 90 connected through the support shaft hole 9412 and the pin 9004 on the upper plate 100. The end of) is prevented from being pulled out upward and is arrange | positioned.

The slide plate 98 has a main plate portion 9802 that slides on the support plate 94, as shown in FIG. 21, and the main plate portion 9802 has a width along the short side direction of the interior opening 64; And the length along the long side direction of the indoor side opening 64.

The connecting piece 9904 is protruded at a position near the end portion in the longitudinal direction of the main body plate portion 9802, and a pin insertion hole and a hole 9806 are formed at the end of the connecting piece 9804.

In addition, a guide groove 9808 extending in the longitudinal direction of the body plate portion 9802 is formed on one side in the width direction of the body plate portion 9802.

Further, two guide pin attaching holes 9810 are formed at the other side in the width direction of the main body plate portion 9802 in the longitudinal direction, and a sliding movement member attaching hole 9812 is formed.

The main plate portion 9802 of the slide plate 98 is mounted on the support plate 94, and the connecting piece 9804 is inserted into the elongated groove 1004 of the upper plate 100 to pass through the second plate portion of the upper plate 100. It is disposed under 100C.

Then, the end of the connecting piece 9804 is rotatably connected to the other end of the link 96 by a pin 9814 inserted through the pin insertion passage hole 9806.

15 to 17, the guide pin 102 is inserted into the guide groove 9808 so as to be slidable from above the body plate portion 9802, and the lower portion of the guide pin 102 is supported by the support plate 94. ) Is attached to the guide pin attachment hole 9906 of the " The head of the guide pin 102 is formed with a diameter larger than the width of the guide groove 9808 and is located on the body plate portion 9802, and the body plate portion 9802 is formed by the head of the guide pin 102. I support it impossible to move upward.

As shown in Figs. 16 and 17, the guide pin 104 is inserted into the guide pin attaching hole 9810 from above the main body plate portion 9802, and the upper portion of the guide pin 104 has a guide pin attaching hole ( 9810, the lower portion of the guide pin 104 is inserted through the guide groove (9408) of the support plate 94 so as to slide.

Therefore, the slide plate 98 is driven in the direction parallel to the long side of the indoor side opening 14 via the link 96 by the standing doping operation of the operation lever 90.

The sliding movement member 92 is extended in the direction parallel to the long side of the indoor side opening 64, and is arrange | positioned on the other side of the width direction of the main-body plate part 9802 of the slide plate 98. As shown in FIG.

As shown in Figs. 9 and 10, the middle part of the longitudinal direction of the sliding member 92 and the main plate portion 9802 are connected by connecting pins 106 inserted into the sliding member attachment hole 9812. have.

In addition, the other ends of the link arms 89 are rotatably coupled to the opposite ends of the sliding movement member 92 through the guide pins 108, respectively.

These guide pins 108 are inserted through the long holes 7802 extending in a direction parallel to the long sides of the indoor side opening 64 of the guide plate 76 so as to be slidable.

Therefore, the sliding member 70 is supported by the guide pin 108 and the long hole 7702 so as to be slidably movable in a direction parallel to the long side of the indoor opening 64, that is, of the closure member 70. The sliding arm is supported in a direction orthogonal to the movement direction, and both ends of the link arm 89 are pivotally mounted on the sliding member 92 and the guide pin 86, and the link arm 89 is closed according to the movement of the sliding member 92. The member 70 is moved.

Then, as shown in Figs. 9 and 11, the operation lever 90 is accommodated in the opening 8206, and in a closed position parallel to the upper plate 84, the closed position CP for closing the interior opening 64 is closed. The opening position OP which positions the blocking member 70 in the opening position, and opens the indoor side opening 64 in the standing position in which the operation lever 90 stood up obliquely upward as shown to FIG. 10, FIG. Position the blocking member 70 in the.

In the present embodiment, the link arm 89 is formed in a rod shape and has a longitudinal axis, and the angle between the extending direction of the longitudinal axis of the link arm 89 and the moving direction of the sliding movement member 70 forms ( θ) becomes an angle close to a right angle when the blocking member 70 is in the closing position CP, and gradually decreases as the blocking member 70 reaches the open position OP from the closing position CP.

The guide mechanism 75 is provided with the 1st cam surface 80, the 2nd cam surface 81, and the press mechanism 78. As shown in FIG.

The first cam surface 80 includes a housing side cam surface 80A and a closure member side cam surface 80B.

The housing side cam surface 80A is formed of the long side located at the end of the two long sides forming the interior side opening 64 in the direction in which the closing member 70 faces the closed position CP from the open position OP. It is provided in the location of the upper frame 82, and is formed in the inclined surface inclined with respect to the plane P. As shown in FIG.

The housing side cam surface 80A can be engaged with the engagement convex portion 7010 of the closure member 70.

The blocking member side cam surface 80B is formed in the inclined surface inclined with respect to the plane P on the inner surface of the engaging piece 7082 of the blocking member 70.

The closing member side cam surface 80B can be engaged with the projection 8210 of the frame 82.

As described above, in the present embodiment, the first cam surface 80 is configured to guide the two long side portions of the closure member 70, and the movement of the closure member 70 when the indoor opening 64 is opened and closed. Can be stabilized.

The 2nd cam surface 81 is formed in the lower surface of the guide plate 76, and the 2nd cam surface 81 extends in parallel with respect to the plane P. As shown in FIG.

As shown in FIG. 14, the sealing surface 7004A of the closure member 70 and the elastic seal member 68 are formed while the upper surface of the closure member 70 abuts on the second cam surface 81 of the guide plate 76. The space | interval S of an up-down direction is ensured between 68 A of inlet edge parts of ().

In addition, the first cam surface 80 and the second cam surface 81 may be provided on one side of the housing 66 and the closure member 70 so as to be engaged with the other of the housing 66 and the closure member 70. It is not limited to the structure of embodiment, Various conventionally well-known engagement structures are employable.

The pressing mechanism 78 presses the closing member 70 to the housing 66 via the first cam surface 80 and the second cam surface 81.

In more detail, the pressurizing mechanism 78 is comprised including the guide pin 80 and the coil spring 78A.

The coil spring 78A is wound between the head of the guide pin 80 and one end of the link arm 89 at the outer circumference of each guide pin 80 and is mounted on one end of the guide plate 76 and the link arm 89. The guide pin 86 is urged upward.

Then, in the initial stage when the blocking member 70 moves from the blocking position CP toward the open position OP, the engagement convex portion 7010 of the blocking member 70 is moved by the pressing mechanism 78. Is engaged with the side cam surface 80A, the closure member side cam surface 80B is engaged with the projection 8210 of the frame 82, and then their engagement is released to release the upper wall 7002 of the closure member 70. ), The upper surface of the) touches the second cam surface 81 to reach the open position OP.

That is, the guide mechanism 75 guides the closure member 70 by the first cam surface 80 and the second cam surface (when the closure member 70 moves from the closure position CP to the open position OP). The guide of the blocking member 70 by 81 is alternately comprised.

Therefore, the guide mechanism 75 is operated when the closing member 70 is driven by the drive mechanism 74 to move from the closing position CP to the open position OP, so that the closing member 70 is in the initial stage of the opening movement. Move from the closed position CP toward the open position OP while widening the spacing S between the sealing surface 7004A and the inlet edge 68A, and thereafter, the sealing surface 7004A and the inlet edge 68A. The closing member 70 is guided to move and reach the open position OP while keeping the distance S between the constants constant.

When the closing member 70 moves from the open position OP to the closing position CP, the upper surface 7002 of the upper wall 7002 of the closing member 70 is fitted to the second cam surface 81 by the pressing mechanism 78. In the final step, the above-mentioned contact is released, and the engagement convex portion 7010 of the closure member 70 is engaged with the housing side cam surface 80A, and the closure member side cam surface 80B is connected to the frame 82. Engaged in the projection 8210 to reach the occlusion position (CP).

That is, the guide mechanism 75 guides the closing member 70 by the first cam surface 80 and the second cam surface (when the closing member 70 moves from the open position OP to the closing position CP). The guide of the blocking member 70 by 81 is alternately comprised.

Therefore, the guide mechanism 75 is operated when the closing member 70 is driven by the driving mechanism 74 to move from the open position OP to the closing position CP, so that the closing member 70 is in the final stage of the closing movement. Until this, move along the plane P while keeping the spacing S between the sealing surface 7004A and the inlet edge 68A constant, and in the final step, the sealing surface 7004A and the inlet edge 68A. The closing member 70 is guided to reduce the space S therebetween to reach the closing position CP.

Moreover, the 1st cam surface 80 is installed so that it may incline with respect to the plane P so that the 1st cam surface 80 may engage with the other of the housing 66 and the blocking member 70 in one of the housing 66 and the blocking member 70. That's it.

Moreover, the 2nd cam surface 81 is installed so that it may be extended in parallel with the plane P so that the 2nd cam surface 81 may engage with the other of the housing 66 and the blocking member 70 in one of the housing 66 and the blocking member 70. That's it.

That is, the first cam surface 80 and the second cam surface 81 may be provided so as to be engaged with the other of the housing 66 and the closure member 70 on one of the housing 66 and the closure member 70, It is not limited to the structure of embodiment, Various conventionally well-known engagement structures are employable.

According to the second embodiment, when the operation lever 90 is rocked, the closing member 70 is moved through the drive mechanism 74 and the guide mechanism 75 as shown in Figs. 7A and 7B. It is driven between the open position OP and the closed position CP.

And, when the occlusion member 70 moves from the occlusion position CP to the open position OP, the occlusion member 70 is moved between the sealing surface 7004A and the inlet edge 68A at the initial stage of the opening movement. While moving away from the closed position CP toward the open position OP while widening the gap S, thereafter moving while maintaining a constant gap S between the sealing surface 7004A and the inlet edge 68A. The open position OP is reached.

In addition, when the blocking member 70 moves from the open position OP to the closing position CP, the sealing surface 7004A and the inlet edge 68A until the closing member 70 reaches the final stage of the closing movement. Move along the plane P while keeping the spacing S therebetween constant, and in the final step the gap S between the sealing surface 7004A and the inlet edge 68A is reduced to the occlusion position CP. And press the sealing surface 7004A against the inlet edge 68A.

Therefore, at the time of the opening operation for moving the blocking member 70 from the closing position CP to the opening position OP, the closing member 70 and the elastic seal member 68 do not contact except for the initial stage. In addition, at the closing operation for moving the blocking member 70 from the open position OP to the closing position CP, the closing member 70 and the elastic seal member 68 do not contact each other except at the final step.

Therefore, the operation lever 90 can be rocked and operated with a small force, and the opening and closing of the interior side opening 64 can be easily performed.

In addition, since the elastic seal member 68 and the closure member 70 do not always contact when the closure member 70 moves, it is also advantageous in increasing the durability of the elastic seal member 68.

In addition, since the angle θ formed between the link arm 89 and the sliding movement member 92 is set at an angle close to the right angle at the closing position CP of the blocking member 70, the initial stage of the opening movement of the blocking member 70 is performed. Although the closing member 70 and the elastic seal member 68 contact with each other at the final stage of the closing and closing movement, even if the force applied to the operation lever 90 is small, the guide pin 86 is opened and closed in the direction of opening and closing the closing member 70. A large force acts and is advantageous in simply opening and closing the indoor opening 64.

Moreover, even if the pressure by external air acts at the time of occlusion, the obstruction member 70 is hard to move, and it is advantageous in maintaining the airtightness at the time of occlusion.

10, 60... … Ventilator 12, 62. … Ventilation hole
14, 64... … Interior openings 16, 66... … housing
18, 68... … Elastic seal member 20, 70... … Occlusion member
24, 74... … Drive mechanism 25, 75... … Guide
26, 76... … Guide plates 28, 78... … Pressure mechanism
30, 80... … First cam surface 31, 81... … 2nd cam surface

Claims (8)

A housing having an opening through which air for ventilation can be passed,
A closing member for closing the opening arranged in the housing;
An operation mechanism for moving the closure member between an open position for opening the opening and a closed position for closing the opening;
In the ventilation device provided with,
The opening is defined by an elastic seal material and has an inlet edge extending in the plane,
The closure member has a flat sealing surface that closes the opening close to the inlet edge portion when in the closure position,
The operation mechanism includes a drive mechanism for driving the closure member, and a guide mechanism for guiding movement of the closure member between the open position and the closure position generated by being driven by the drive mechanism,
The guide mechanism,
A first cam surface provided on one side of the housing and the closure member and coupled to a protrusion provided on the other side of the housing and the closure member, the first cam surface being inclined with respect to the plane;
A second cam surface installed in the housing so as to be coupled to the closure member and extending in parallel with the plane;
And a pressurizing mechanism for pressing the closing member to the housing through the first cam surface and the second cam surface.
The guide mechanism,
(1) When the closure member is driven by the drive mechanism to move from the closure position to the open position, the closure member is located between the sealing surface and the inlet edge portion through the first cam surface in the initial stage of the opening movement. Moving from the closed position toward the open position while widening the gap therebetween; thereafter moving through the second cam surface while maintaining a constant distance between the sealing surface and the inlet edge portion to reach the open position. Guide the occlusion member,
(2) When the closure member is driven by the drive mechanism and moves from the open position to the closure position, the sealing surface and the inlet through the second cam surface until the closure member reaches the final stage of the closure movement. The obstruction member is moved along the plane while keeping the distance between the edges constant, and in the final step, the obstruction member is reduced to reach the closed position by reducing the distance between the sealing surface and the inlet edge portion through the first cam surface. Ventilation device, characterized in that guide. The method of claim 1, wherein the drive mechanism,
An operation handle attached to the housing,
And a link mechanism connecting the handle member and the closure member.
A ventilation device, characterized in that the closure member is driven by a user manually operating the operation handle. The method of claim 2, wherein the operation handle is an operation handle rotatably attached to the housing,
The link mechanism,
A pinion attached to the operation knob and rotating integrally with the operation knob;
The rack engaged with the pinion,
A sliding movement member which is supported by the housing so as to be slidable in a direction orthogonal to the movement direction of the closure member, the rack is attached, and which reciprocates according to a rotation operation of the operation knob;
A long hole formed in the housing and extending in a movement direction of the closure member;
A guide pin inserted into the long hole protruding from the closure member and capable of sliding in the longitudinal direction of the long hole;
Both ends are pivotally mounted to the sliding member and the guide pin, and have a link arm that moves the closure member according to the movement of the sliding member.
And the closure member is in the closed position when the operating knob is in the first rotational position and in the open position when the operating knob is in the second rotational position. 3. The operating handle according to claim 2, wherein the operation handle is an upright coatable operation lever rotatably attached to the housing,
The link mechanism,
A sliding movement member supported by the housing so as to be slidable in a direction orthogonal to the movement direction of the closure member, connected to the operation lever through a connecting arm, and reciprocating in accordance with the standing doping operation of the operation lever;
A long hole formed in the housing and extending in a movement direction of the closure member;
A guide pin inserted into the long hole protruding from the closure member and capable of sliding in the longitudinal direction of the long hole;
Both ends are pivotally mounted to the sliding member and the guide pin, and have a link arm that moves the closure member according to the movement of the sliding member.
And the closing member is in the closing position when the operating lever is in the doped position, and is in the open position when the operating lever is in the standing position. The link arm according to claim 3 or 4, wherein the link arm is formed in a rod shape and has a longitudinal axis.
The angle formed between the extending direction of the longitudinal axis of the link arm and the moving direction of the sliding movement member is an angle close to a right angle when the occlusion member is in the occlusion position, and the occlusion member is located from the occlusion position. Ventilation device characterized in that it gradually decreases as it reaches the open position. 2. The ventilation device of claim 1 wherein the housing has a shape of an elongated approximately rectangular parallelepiped suitable for incorporation into a window frame of a built-in window of a building. The method of claim 6, wherein the opening has a shape of elongated rectangle having a length and a width, the longitudinal direction of the opening coincides with the longitudinal direction of the housing,
The blocking member has a shape of an elongated rectangle having a length and a width, the longitudinal direction of the blocking member corresponds to the longitudinal direction of the housing,
The moving direction of the said blocking member is the width direction of this blocking member, The ventilation apparatus characterized by the above-mentioned.
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