JP2021036121A - Ventilation device - Google Patents

Abstract

To provide a ventilation device having a function for being closed by wind pressure and being opened and closed manually with a single operation plate.SOLUTION: An operation plate 20 is arranged at an outdoor side of a dividing wall 13 of a device body 10 with a ventilation port 14 formed. The operation plate 20 rotates by an operation of a cam structure 60 along a slide. The cam structure 60 has a first cam part 61 provided at the device body 10 and a second cam part 62 provided at the operation plate 20. A slider and the operation plate 20 slidably supported by the device body 10 are coupled by a coupling mechanism M. The coupling mechanism M has a first engaging part 42 provided at the slider and a second engaging part 50 provided at the operation plate 20. The operation plate 20 is biased in an opening direction by a spring 55 and configured to be closed by wind pressure. A manual operation mechanism slides the operation plate 20 via the slider and the coupling mechanism M.SELECTED DRAWING: Figure 5A

Description

The present invention relates to a ventilation device that can be closed by wind pressure and can be opened and closed by manual operation.

The ventilation device disclosed in Patent Document 1 includes an elongated device main body having a partition wall in which a ventilation port is formed, and a first operating plate that is slidably supported by the device main body on the indoor side of the partition wall to open and close the ventilation port. It is provided with a manual operation mechanism for manually opening and closing the first operating plate. Further, the ventilation device includes a second actuating plate rotatably supported by the device body on the outdoor side of the partition wall, and a spring that holds the second actuating plate in an open position away from the partition wall. .. If the wind and rain become severe while the first operating plate is open and absent by the manual operation mechanism, the second operating plate is pushed by the wind pressure and comes into contact with the partition wall against the force of the spring, and the ventilation port. Therefore, it is possible to prevent wind and rain from entering the room.

The ventilation device of Patent Document 2 includes an elongated device body having a partition wall in which a ventilation port is formed, an operating plate that is rotatably supported by the device body and opens and closes the ventilation port as it rotates, and a temperature-sensitive actuator. Equipped. This temperature-sensitive actuator is made of a slider that is slidably supported by the main body of the apparatus, a moving cam that is slidably supported by the slider, and a shape memory alloy that is provided on the slider and urges the moving cams in opposite directions. It has a spring and a bias spring and is unitized. When the moving cam moves according to the air temperature, the operating plate engaged with the moving cam rotates to open and close the ventilation port. Further, this ventilation device is provided with a manual operation mechanism, and the operating plate is forcibly closed by sliding the entire unitized temperature-sensitive actuator.

WO2015 / 198416 WO2013 / 128658

The ventilation device of Patent Document 1 has a function of closing the operating plate by wind pressure and a function of opening and closing by manual operation, but requires two operating plates.
The ventilation device of Patent Document 2 does not have a function of closing the operating plate by wind pressure.

The present invention has been made to solve the above problems, and in a ventilation system,
The main body of the device, which has a partition wall with ventilation openings,
An actuating plate that is arranged on the outdoor side of the partition wall, has a shaft portion that is rotatably and slidably supported by the device body, and opens and closes the ventilation port as it rotates.
A cam mechanism that is arranged on the outdoor side of the operating plate and rotates the operating plate as the operating plate slides.
A slider supported on the main body of the device so as to be slidable in the sliding direction of the operating plate,
A connecting mechanism that connects the operating plate and the slider so as to allow rotation of the operating plate,
A manual operation mechanism provided on the main body of the device and connected to the slider, the slider is slid by manual operation, and the operating plate is slid via the connection mechanism.
A spring that urges the operating plate in the opening direction,
With
The cam mechanism has a first cam portion provided on the main body of the apparatus and a second cam portion provided on the operating plate.
The second cam portion is arranged so as to face the indoor side of the first cam portion, and is separated from the first cam portion when the operating plate rotates in the closing direction against the spring due to wind pressure. It is characterized by moving in a direction.

According to the above configuration, although it has a function of closing by wind pressure and a function of opening and closing by manual operation, only one operating plate is required.

Preferably, the connecting mechanism has a first engaging portion arranged on the slider and a second engaging portion protruding from the operating plate in the indoor direction, and the first engaging portion and the second engaging portion. The engaging portion is connected so as to be relatively movable in a direction orthogonal to the sliding direction of the operating plate and not relatively movable in the sliding direction.
According to the above configuration, the configuration of the connecting mechanism can be simplified.

Preferably, the spring is arranged between the first engaging portion and the second engaging portion.
According to the above configuration, since the spring moves together with the sliding of the operating plate, the force of the spring can be reliably transmitted to the operating plate. Further, since the force of the spring is transmitted to the operating plate by using the connecting mechanism, the configuration for this transmission can be simplified.

More preferably, the first engaging portion has an accommodating space, the second engaging portion is inserted into the accommodating space and the spring is accommodated, the spring is composed of a tension coil spring, and one end thereof is formed. It is hung on the first engaging portion, and the other end is hung on the second engaging portion.
According to the above configuration, the configuration for transmitting the force of the connecting mechanism and the spring can be further simplified.

Preferably, the first cam portion has a cam surface facing the operating plate, and the second cam portion comprises a contact portion that protrudes from the operating plate in the outdoor direction and is in contact with the cam surface.

More preferably, the cam mechanism is arranged in the vicinity of the shaft portion.
According to the above configuration, the operating plate can be opened and closed with a relatively small displacement of the second cam member.

In one specific embodiment of the present invention, the first engaging portion is configured by an engaging block that is separate from the slider, and the engaging block is slidably supported by the slider in the sliding direction. Further, the slider is provided with a shape memory alloy spring and a bias spring that urge the engagement block in opposite directions along the slide direction, and the engagement block and the shape memory alloy spring are provided. The bias spring constitutes a temperature-sensitive actuator.
According to the above configuration, the temperature-sensitive actuator can control the opening degree of the operating plate by sliding the operating plate according to the air temperature.

In another specific aspect of the present invention, the first engaging portion is fixed to the slider, and the connecting mechanism connects the operating plate and the slider so as not to be relatively movable in the sliding direction.
According to the above configuration, when the slider is slid by the manual operation mechanism, the operating plate can be slid at the same time.

In the other specific embodiment, preferably, a temperature-sensitive actuator is further provided, and the temperature-sensitive actuator is provided on the slider with a moving member slidably supported in the sliding direction, and the slider. It has a shape memory alloy spring and a bias spring that urge the moving member in opposite directions along the sliding direction, and a second cam mechanism that rotates the operating plate as the moving member slides. The second cam mechanism has a third cam portion provided on the moving member and a fourth cam portion provided on the operating plate, and the fourth cam portion is subjected to the force of the spring to the second cam portion. 3 It is in contact with the cam part.
According to the above configuration, the temperature-sensitive actuator can control the opening degree of the operating plate according to the air temperature. Moreover, since this control does not involve sliding of the operating plate, the load on the temperature-sensitive actuator can be reduced.

More preferably, the moving member has a hollow frame shape, the first engaging portion is arranged in the internal space of the moving member, and the third cam portion crosses the first engaging portion. It has a cam surface extending in the sliding direction, and the fourth cam portion is formed of a contact portion formed in the second engaging portion and in contact with the cam surface of the third cam portion.
According to the above configuration, since the fourth cam portion is formed in the second engaging portion, the configuration can be simplified.

According to the present invention, one operating plate can be provided with a function of closing by wind pressure and a function of opening and closing by manual operation.

It is a front view which looked at the sash window which incorporated the ventilation system which concerns on 1st Embodiment of this invention from the room side. FIG. 2 is an enlarged cross-sectional view taken along the line II-II of FIG. It is a front view which shows the said ventilation system with the cover plate removed. FIG. 3 is an enlarged cross-sectional view taken along the line IV-IV in FIG. 3, showing a state in which the operating plate is in the fully open position when the temperature is high. FIG. 4A is a diagram corresponding to FIG. 4A showing a state in which the operating plate is in the 1/3 open position when the temperature is low. FIG. 3 is an enlarged cross-sectional view taken along the line VV in FIG. 3, showing a state in which the operating plate is in the fully open position when the temperature is high. FIG. 5A is a view corresponding to FIG. 5A showing a state in which the operating plate is in a fully closed position due to wind pressure. It is a perspective view of a working plate. It is a front view which shows the sliding unit incorporated in the said ventilation system. It is a top view which shows the temperature sensitive actuator of the sliding unit, the actuating plate, and a cam mechanism. FIG. 3 is an enlarged cross-sectional view taken along the line IX-IX in FIG. It is an enlarged sectional view of the main part of the ventilation apparatus which concerns on 2nd Embodiment of this invention, and shows the state which the operating plate was fully opened position when the temperature is high. Some components have been omitted in this figure for brevity. FIG. 10A is a diagram corresponding to FIG. 10A showing a state in which the operating plate is in the 1/3 open position when the temperature is low. FIG. 5 is a side sectional view showing a slider, an engaging block, and a moving block of a sliding unit in an exploded manner in the ventilation device according to the second embodiment. It is a side sectional view which shows the slider, the engaging block and the moving block in an assembled state. It is a front view which shows the engaging block, the moving block, and the engaging projection of the actuating plate disassembled in the ventilation apparatus which concerns on the 2nd Embodiment. It is a front view which shows the engaging block, the moving block, and the engaging projection of an actuating plate in an assembled state.

Hereinafter, the first embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a sash window installed in a closed state by fitting it into an opening in a wall of a building. The sash window includes a vertically long rectangular frame 1, four center rails 2a to 2d incorporated in the frame 1 and arranged in order from the top, and an upper glass plate 3a arranged between the center rails 2a and 2b. It is provided with a lower glass plate 3b arranged between the middle rails 2c and 2d.
Ventilation portions 4 having the same configuration are incorporated between the upper frame portion of the frame 1 and the middle rail 2a, between the middle rails 2b and 2c, and between the middle rail 2d and the lower frame portion of the frame 1. ..

As shown in FIG. 2, the ventilation unit 4 includes an extruded mold material (hereinafter, simply referred to as a mold material) 5 having an internal space connecting the outside and the inside. A filter 6 made of punching metal is provided on the outdoor side of the mold material 5, and the ventilation device 7 according to the present invention is housed on the indoor side of the mold material 5.

As shown in FIG. 3, the ventilation device 7 includes an elongated device main body 10 extending horizontally to the left and right. The main part of the apparatus main body 10 is made of an aluminum alloy mold material. As shown in FIGS. 4 and 5, the apparatus main body 10 has an upper wall 11, a lower wall 12, and a vertical partition wall 13 connecting an intermediate portion between the upper wall 11 and the lower wall 12. The outdoor side of the upper wall 11 and the lower wall 12 and the partition wall 13 form an outdoor space 15 in which the outdoor side is open, and the indoor side of the upper wall 11 and the lower wall 12 and the partition wall 13 form an indoor side. An open indoor space 16 is formed. A plurality of ventilation ports 14 arranged in the longitudinal direction are formed on the partition wall 13.

The indoor space 16 of the device main body 10 is covered with a cover plate 8 (shown only in FIGS. 1 and 2) that is detachably attached to the device main body 10. A large number of vertically long vents 8a are formed side by side on the cover 8.

As shown in FIGS. 4 and 5, the ventilation device 7 includes an operating plate 20 extending in the longitudinal direction of the device main body 10. The operating plate 20 is also made of an aluminum alloy mold and is arranged in the outdoor space 15 (that is, the outdoor side of the partition wall 13). The operating plate 20 has a shaft portion 21 on the upper edge (one side edge in the width direction). The apparatus main body 10 has a bearing portion 17 at the intersection of the upper wall 11 and the partition wall 13. By accommodating the shaft portion 21 of the actuating plate 20 in the bearing portion 17, the actuating plate 20 is supported so as to be slidable in the longitudinal direction and rotatable in a direction approaching / separating from the partition wall 13. ..

A packing 30 is attached to the indoor surface of the operating plate 20 so as to surround a region corresponding to the formation regions of the plurality of ventilation ports 14 in the partition wall 13.
L-shaped holding pieces 22 and 23 separated vertically are formed on the outdoor surface of the operating plate 20, and a sound absorbing pad 35 is housed between the holding pieces 22 and 23. A projecting piece 24 projecting to the outdoor side is formed on the tip edge of the upper holding piece 22, and a contact member 62 described later is fixed to the projecting piece 24.

The ventilation device 7 has a function of automatically opening and closing the operating plate 20 according to the air temperature, a function of closing the operating plate 20 by outdoor wind pressure even when the operating plate 20 is open, and manually forcibly closing the operating plate 20. It has a function. The details will be described below.

As shown in FIGS. 3 and 4, the sliding unit 40 is slidably housed in the indoor space 16 of the apparatus main body 10 in the longitudinal direction of the apparatus main body 10 (sliding direction of the operating plate 20).
As shown in FIGS. 7 and 8, the sliding unit 40 includes an elongated slider 41 extending in the longitudinal direction of the apparatus main body 10 and a resin engaging block 42 (first engaging portion) supported by the slider 41. It includes two shape memory alloy springs 43 (hereinafter referred to as shape memory springs) and two bias springs 44. The shape memory spring 43 and the bias spring 44 are in the form of a tension coil spring. The shape memory spring 43 and the bias spring 44 may be arranged one by one.
In the present embodiment, the engagement block 42, the shape memory spring 43, and the bias spring 44 constitute a temperature-sensitive actuator 49 that performs the actions described below.

The slider 41 has a slider main body 41a obtained by processing a thin metal plate into a U-shaped cross section, and resin spring holders 41b and 41c fixed to both ends of the slider main body 41a. The spring holder 41b on the right side is formed with a convex portion 41x that projects vertically. As shown in FIG. 4, the slider 41 is a device in a state where these convex portions 41x are supported by the locking flange portions 11a and 12a formed on the indoor side edges of the upper wall 11 and the lower wall 12 of the apparatus main body 10. It is slidably supported by the main body 10 in the sliding direction of the operating plate 20.

As shown in FIG. 5, convex portions 42a are formed on the upper and lower surfaces of the engaging block 42, and the convex portions 42a are inserted into the engaging holes 41y formed in the upper and lower plate portions of the slider main body 41a. ing. The engaging hole 41y has a larger dimension in the sliding direction of the operating plate 20 than the convex portion 42a, so that the engaging block 42 is slidably supported with respect to the slider 41 in the sliding direction of the operating plate 20. The convex portion 42a and the elongated hole 41y are provided as regulatory means for determining the stroke of the engaging block 42 with respect to the slider 41 and the left and right movement limit positions.

As shown in FIGS. 7 and 8, the shape memory spring 43 hung between the engaging block 42 and the spring holder 41b on the right side urges the engaging block 42 to the right. The bias spring 44 hooked between the engaging block 42 and the left spring holder 41c urges the engaging block 42 to the left.

As shown in FIGS. 5 and 7, the engagement block 42 has a storage space 42b. On the other hand, an engaging protrusion 50 (second engaging portion) is fixed to the indoor surface of the intermediate portion in the longitudinal direction of the operating plate 20, and this engaging protrusion 50 is one of the ventilation ports 14 of the partition wall 13. Through, it enters the accommodation space 42b. When the engaging protrusions 50 are in contact with both side surfaces of the accommodation space 42b, the engaging protrusions 50 are prohibited from moving relative to the engaging block 42 in the left-right direction (movement in the sliding direction of the operating plate 20 and the slider 41), and the room is indoors. Relative movement in the outward direction (direction orthogonal to the sliding direction) is allowed.
The engaging block 42 and the engaging protrusion 50 form a connecting mechanism M for connecting the slider 41 and the operating plate 20.

A spring 55 is accommodated in the accommodating space 42b of the engaging block 42. The spring 55 is composed of a tension coil spring, one end of which is hung on the bottom of the engaging block 42, and the other end of the spring 55 is hung on the indoor end of the engaging protrusion 50 while being inserted into the slit 50a of the engaging protrusion 50. Has been done. The actuating plate 20 is urged in the opening direction by the spring 55.

As shown in FIGS. 4, 5, and 8, the ventilation device 7 further includes a plurality of, for example, two cam mechanisms 60 arranged at intervals in the longitudinal direction of the device body 10. These cam mechanisms 60 are arranged in the outdoor space 15 on the outdoor side of the operating plate 20 and in the vicinity of the shaft portion 21 (positions close to the shaft portion 21 in the width direction of the operating plate 20).
Each cam mechanism 60 has a resin cam member 61 (first cam portion) fixed to the apparatus main body 10 and a resin contact member 62 (first cam portion) as a cam follower fixed to the projecting piece 24 of the operating plate 20. It has 2 cams).

The cam member 61 has a fixing portion 61a fixed to the lower surface of the upper wall 11 of the apparatus main body 10 and a hanging portion 61b hanging from the fixing portion 61a. The surface of the hanging portion 61b facing the operating plate 20 is provided as the cam surface 61c. As shown in FIG. 8, in the cam surface 61c, the central portion 61x is the farthest from the operating plate 20, the left and right end portions 61y are closest to the operating plate 20, and the inclined portion 61z is between the central portion 61x and the left and right end portions 61y. It has become. The central portion 61x extends linearly in the longitudinal direction of the apparatus main body 10 and has a predetermined length. In this embodiment, only the central portion 61x, the left inclined portion 61z, and the left end portion 61y are used.

As shown in FIGS. 6 and 8, a pair of notches 24a are formed in the projecting pieces 24 of the operating plate 20, and a contact member 62 is attached to the remaining portion of the projecting pieces 24 between the notches 24a. There is. The notch 24a is formed to avoid interference with the cam member 61.
Since the operating plate 20 is urged in the opening direction by the spring 55, the contact member 62 is in contact with the cam surface 61c of the cam member 61 by the force of the spring 55.
The tip edge of the abutting member 62 extends linearly in the longitudinal direction of the operating plate 20. The longitudinal dimension of the abutting member 62 is substantially equal to the longitudinal dimension of the central portion 61x of the cam surface 61c. The cross-sectional shape of the tip edge of the abutting member 62 is an arc.

As shown in FIGS. 3 and 9, the ventilation device 7 further includes a manual operation mechanism 70 provided at the left end of the device main body 10. More specifically, one end of the link 71 is connected to the spring holder 41c on the left side of the sliding unit 40, and the operation lever 72 (operation member) is rotatably connected to the other end of the link 71.

On the other hand, the holder 75 is fixed to the apparatus main body 10. The holder 75 has a support hole 75a formed substantially in the center, a finger insertion recess 75b formed in the left portion, and a spring holding portion 75c formed in the right portion. A leaf spring 76 forming a chevron shape is attached to the spring holding portion 75c. The link 71 is formed with two recesses 71a and 71b that receive the central top of the leaf spring 76.

The operation lever 72 is exposed to the indoor side through the support hole 75a of the holder 75, and is rotatably supported between the opening operation position and the closing operation position around the support hole 75a. At the opening operation position, the operation lever 72 is tilted along the operation body 10 as shown in FIG. When a finger is inserted into the finger insertion recess 75b of the holder 75, the operating lever 72 is hung on the operating lever 72, and the operating lever 72 is pulled up as shown by the arrow A, the operating lever 72 reaches the closing operation position. In this process, the connecting portion between the operating lever 72 and the link 71 moves to the left as shown by the arrow B, and the sliding unit 40 slides to the left accordingly.

The opening operation position and the closing operation position of the operation lever 72 are maintained by selectively fitting the top of the leaf spring 76 into the recesses 71a and 71b of the link 71.
As shown in FIG. 1, the cover plate 8 is formed with an operation hole 8b for exposing the operation lever 72.

The operation of the ventilation device 7 having the above configuration will be described.
When the operating lever 72 of the manual operating mechanism 70 is in the opening operating position shown in FIG. 9, the slider 41 of the sliding unit 40 is located on the far right side. At this position, the temperature-sensitive actuator 49 automatically opens and closes the operating plate 20 according to the air temperature.

Since the elastic force of the shape memory spring 43 is strong when the temperature is high, the engaging block 42 is located on the far right with respect to the slider 41. Further rightward movement of the engaging block 42 is restricted by the convex portion 42a of the engaging block 42 hitting the right end of the elongated hole 41x of the slider body 41a.
When the slider 41 is located on the rightmost side with respect to the apparatus main body 10 and the engaging block 42 is located on the rightmost side with respect to the slider 41 as described above, the actuating plate urged in the opening direction by the spring 55. As shown in FIG. 4A, the contact member 62 of 20 is in contact with the central portion 61x of the cam surface 61c of the cam member 61. As a result, the operating plate 20 is in the fully open position farthest from the partition wall 13.

When the temperature drops below, for example, 18 ° C, the elastic force of the shape memory spring 43 weakens, and the force of the bias spring 44 becomes relatively stronger than that of the shape memory spring 43, so that the engagement block 42 becomes the slider 41. On the other hand, slide to the left. Along with the sliding of the engaging block 42, the operating plate 20 slides in the same direction through the engagement between the engaging block 42 and the engaging projection 50. As the actuating plate 20 slides, the contact member 62 shifts from the central portion 61x of the cam surface 61c to the inclined portion 61z. As the air temperature decreases, the contact member 62 moves to the left while being in contact with the inclined portion 61z. Therefore, the operating plate 20 gradually approaches the partition wall 13 and its opening degree decreases.

When the air temperature further drops to, for example, 12 ° C, the contact member 62 is located in the middle of the inclined portion 61z, and the opening degree of the operating plate 20 reaches a position of 1/3 of the fully opened position as shown in FIG. 4B. .. At this time, since the convex portion 42a of the engaging block 42 is locked to the left end of the elongated hole 41y of the slider body 41a, further leftward sliding of the engaging block 42 is prevented even if the temperature further drops below 12 ° C. The actuating plate 20 does not reach the position where the ventilation port 14 is completely closed (fully closed position), and the opening degree of 1/3 is maintained.

As described above, when a strong wind pressure is applied to the operating plate 20 from the outside when the automatic opening / closing control of the operating plate 20 is executed according to the air temperature, the operating plate 20 closes in the closing direction against the force of the spring 55. Rotates to. As a result, the operating plate 20 reaches the fully closed position shown in FIG. 5B from the fully open position shown in FIG. 5A or the opening position corresponding to the air temperature, and the packing 30 comes into contact with the partition wall 13 to completely close the ventilation port 14. Close. This makes it possible to prevent wind and rain from entering the room even when the resident is away. In addition, excessive ventilation in strong winds can be prevented.

During the closing operation of the operating plate 20 due to the wind pressure, the contact member 62 is separated from the cam surface 61c of the cam member 61, so that the cam mechanism 60 does not interfere with the closing operation of the operating plate 20.
Even if the operating plate 20 strongly hits the partition wall 13, the sound absorbing pad 35 provided on the operating plate 20 can absorb the impact sound.

The resident can also intentionally close the actuating plate 20 by manual operation when operating the air conditioner to adjust the room temperature or in the event of a storm. More specifically, the operating lever 72 of the manual operating mechanism 70 is raised to close the operating lever 72 to the operating position. As a result, the slider 41 slides to the left by a predetermined distance. At the time of this sliding, the right end of the elongated hole 41x of the slider main body 41a hits the convex portion 42a of the engaging block 42, so that the engaging block 42 moves to the left together with the slider 41. The slide distance of the slider 41 is slightly longer than the distance from the left end of the central portion 61x of the cam surface 61c to the left end portion 61y. As a result, even when the operating plate 20 is in the fully open position (that is, when the temperature is high, the engaging block 42 is located on the far right side, and the contact member 62 is located at the central portion 61x of the cam surface 61c). The contact member 62 can be reliably moved to the left end 61y of the cam surface 61c, and the operating plate 20 can be in the fully closed position.

When the temperature is low, for example, the engaging block 42 is located on the leftmost side with respect to the slider 41 and the contact member 62 is located on the inclined portion 61z of the cam surface 61c (the position where the operating plate 20 is 1/3 open). When the lever 72 is closed and the operating position is set, the right end of the elongated hole 41x of the slider body 41a hits the convex portion 42a of the engaging block 42, so that the engaging block 42 is moved to the slider 41. It can be moved to the left together with, and the operating plate 20 can be in the fully closed position in the same manner as described above.

Next, the second embodiment of the present invention will be described with reference to FIGS. 10 to 14. In the second embodiment, the components corresponding to the first embodiment are not shown or have the same numbers in the drawings, and detailed description thereof will be omitted. In the description of the components not shown in FIGS. 10 to 14, the same reference numerals as those in the first embodiment are used.

In the present embodiment, the sliding unit 40A includes a slider 41, a moving block 45 (moving member) provided on the slider 41, an engaging block 47 (first engaging portion), a shape memory spring 43, and a bias spring 44. Has been done.

The moving block 45 is slidably supported by the slider main body 41a along its longitudinal direction. The moving block 45 has a pair of left and right side plates 45a and a cross-linked portion 45b that connects the pair of side plates 45a at the upper and lower ends. The moving block 45 has a vertically long rectangular hollow frame shape when viewed from the front. As shown in FIG. 13, a hook 45c on which one end of the shape memory spring 43 is hooked is formed on the outer surface of the right side plate 45a, and one end of the bias spring 44 is connected to the outer surface of the left side plate 45a. The portion 45d is formed.

A cam member 81 (third cam portion) extending in the left-right direction is hung between the inner surfaces of the intermediate portions of the pair of side plates 45a. The upper surface of the cam member 81 is provided as the cam surface 81a. The cam surface 81a has a left lowermost portion 81x extending horizontally, an inclined portion 81y extending diagonally upward from the right end of the lowermost portion 81x, and an uppermost portion 81z connected to the right end of the inclined portion 81y. There is.

The engaging block 47 has a pair of left and right side plates 47a and upper and lower plates 47b, has a vertically long rectangular hollow frame shape when viewed from the front, and has an accommodation space 47c.
The engaging block 47 has convex portions 47d on its upper and lower surfaces, and the convex portions 47d are fitted into the engaging holes 41z of the slider main body 41a. In the present embodiment, since the convex portion 47d and the engaging hole 41z have substantially the same dimensions, the engaging block 47 is immovably fixed to the slider main body 41a.

The engagement block 47 is narrower than the moving block 45 and is housed in the internal space of the moving block 45. The stroke of the slide of the moving block 45 is limited by the left and right side plates 45a of the moving block 45 hitting the left and right side plates 45a of the engaging block 45 fixed to the slider main body 41a.
The side plate 47a of the engaging block 47 is formed with a recess 47e for passing the cam member 81.
A pin 47g on which the lower end of the spring 55 is hung is attached to the lower plate 47b of the engaging block 47.

The engaging projection 51 (second engaging portion) fixed to the indoor surface of the operating plate 20 is accommodated in the accommodation space 47c of the engaging block 47, whereby the engaging projection 51 with respect to the engaging block 47. Relative movement in the left-right direction (slide direction) is prohibited, and relative movement in the direction orthogonal to the slide direction is allowed.
A pin 51a on which the upper end of the spring 55 is hooked is attached to the indoor end of the engaging protrusion 51.

The lower surface of the indoor portion of the engaging projection 51 is provided as an abutting portion 82 (fourth cam portion) in contact with the cam surface 81a of the cam member 81 of the moving block 45. The second cam mechanism 80 is formed by the cam member 81 and the contact portion 82.
In the present embodiment, the temperature-sensitive actuator is configured by the moving block 45, the shape memory spring 43, the bias spring 44, and the second cam mechanism 80.

In the above configuration, when the operating lever 72 of the manual operating mechanism 70 is in the opening operating position shown in FIG. 9, the slider 41 of the sliding unit 40 is located on the far right side. In this state, the contact portion 62 of the cam mechanism 60 is located at a position facing the central portion 61x of the cam surface 61a. The abutting portion 62 may be in contact with the central portion 61x, or may be slightly separated and opposed to each other.

When the temperature is high, the elastic force of the shape memory spring 43 on the right side is strong, so that the moving block 45 is located on the far right side with respect to the slider 41. Further rightward movement of the engaging block 42 is restricted by the left side plate 45a of the moving block 45 hitting the engaging block 47.
When the moving block 45 is located on the far right side with respect to the slider 41, the contact portion 82 of the engaging projection 51 of the operating plate 20 urged in the opening direction by the spring 55 is shown in FIGS. 10A and 14. As described above, the cam member 81 is in contact with the lowermost portion 81x of the cam surface 81a. As a result, the operating plate 20 is in the fully open position farthest from the partition wall 13.

When the temperature drops below, for example, 18 ° C, the elastic force of the shape memory spring 43 weakens, and the force of the bias spring 44 becomes relatively stronger than that of the shape memory spring 43. And slide to the left. As the moving block 45 slides, the contact portion 82 of the engaging projection 51 shifts from the lowermost portion 81x of the cam surface 81a to the inclined portion 81y. As the air temperature decreases, the contact portion 82 advances to the right relative to the cam surface 81a while being in contact with the inclined portion 81y. As a result, the contact portion 82 is pushed up by the cam surface 81a, the operating plate 20 gradually rotates so as to approach the partition wall 13, and the opening degree thereof decreases. As the operating plate 20 rotates, the contact portion 62 moves in a direction away from the cam surface 61a.

When the air temperature further drops to, for example, 12 ° C, the contact portion 82 reaches the uppermost portion 81z of the cam surface 81a, and the opening degree of the operating plate 20 reaches the position of 1/3 opening as shown in FIG. 10B. At this time, since the side plate 45a on the right side of the moving block 45 hits the engaging block 47, even if the temperature drops further below 12 ° C, the moving block 45 is prevented from sliding further to the left, and the operating plate 20 closes the ventilation port 14. It does not reach the completely closed position (fully closed position), and the 1/3 opening is maintained.

In the present embodiment, as described above, the opening degree of the operating plate 20 can be automatically controlled only by rotating the operating plate 20 without sliding the operating plate 20, so that the burden on the temperature-sensitive actuator is increased. Can be reduced.

Since the fully closing operation of the operating plate 20 in a strong wind is the same as that of the first embodiment, the description thereof will be omitted.
The operation of forcibly closing the operating plate 20 by the operating lever 72 is similar to that of the first embodiment. However, in the present embodiment, the slider 41 and the operating plate 20 are connected to each other via the engaging block 47 and the engaging projection 51 so as not to be relatively movable in the sliding direction. The operating plate 20 can be slid at the same time as the slider 41 is slid even at the opening position.

The present invention is not limited to the above embodiment, and various aspects are possible.
The function of automatically opening and closing the operating plate according to the temperature may be omitted. That is, the shape memory spring and the bias spring may be omitted, and the engaging block (first engaging portion) may be fixed at a predetermined position of the slider. In this case, the manual operation mechanism can directly adjust the slide position of the operating plate via the slider and the connecting mechanism, and finely control the opening degree of the operating plate.
The operating member of the manual operating mechanism may be configured to slide with respect to the operating body.
When a temperature-sensitive actuator is used, the operating plate may be fully closed when the temperature is low.
In the cam mechanism, a cam member (second cam member) having a cam surface facing the outside may be provided on the operating plate, and a contact member (first cam member) in contact with the cam surface may be provided on the main body of the device.
The ventilation device of the present invention can be incorporated not only into a sash window that is fitted and killed, but also into a sash window that can be opened and closed and a sliding sash door.

The present invention can be applied to a ventilation device that can be automatically closed in a strong wind and can be manually opened and closed.

7 Ventilation device 10 Device body 13 Partition wall 14 Ventilation port 20 Actuating plate 21 Shaft 41 Slider 42 Engagement block (first engagement part)
42b Storage space 43 Shape memory alloy spring 44 Bias spring 45 Moving block (moving member)
47 Engagement block (first engagement part)
47c Accommodation space 49 Temperature sensitive actuators 50, 51 Engagement protrusions (second engagement part)
55 Spring 60 Cam mechanism 61 Cam member (1st cam part)
61c Cam surface 62 Contact member (second cam part)
70 Manual operation mechanism 80 Second cam mechanism 81 Cam member (third cam part)
81a Cam surface 82 Contact part (4th cam part)
M connection mechanism

The ventilation device of Patent Document 1 has a function of closing by wind pressure and a function of opening and closing by manual operation, but requires two operating plates.
The ventilation device of Patent Document 2 does not have a function of closing the operating plate by wind pressure.

As shown in FIG. 5, convex portions 42a are formed on the upper and lower surfaces of the engaging block 42, and the convex portions 42a are elongated holes ( engaging holes ) formed in the upper and lower plate portions of the slider main body 41a. It is inserted in 41y. The engaging hole 41y has a larger dimension in the sliding direction of the operating plate 20 than the convex portion 42a, so that the engaging block 42 is slidably supported with respect to the slider 41 in the sliding direction of the operating plate 20. The convex portion 42a and the elongated hole 41y are provided as regulatory means for determining the stroke of the engaging block 42 with respect to the slider 41 and the left and right movement limit positions.

Since the elastic force of the shape memory spring 43 is strong when the temperature is high, the engaging block 42 is located on the far right with respect to the slider 41. Further rightward movement of the engaging block 42 is restricted by the convex portion 42a of the engaging block 42 hitting the right end of the elongated hole 41y of the slider body 41a.
When the slider 41 is located on the rightmost side with respect to the apparatus main body 10 and the engaging block 42 is located on the rightmost side with respect to the slider 41 as described above, the actuating plate urged in the opening direction by the spring 55. As shown in FIG. 4A, the contact member 62 of 20 is in contact with the central portion 61x of the cam surface 61c of the cam member 61. As a result, the operating plate 20 is in the fully open position farthest from the partition wall 13.

The resident can also intentionally close the actuating plate 20 by manual operation when operating the air conditioner to adjust the room temperature or in the event of a storm. More specifically, the operating lever 72 of the manual operating mechanism 70 is raised to close the operating lever 72 to the operating position. As a result, the slider 41 slides to the left by a predetermined distance. At the time of this sliding, the right end of the elongated hole 41y of the slider body 41a hits the convex portion 42a of the engaging block 42, so that the engaging block 42 moves to the left together with the slider 41. The slide distance of the slider 41 is slightly longer than the distance from the left end of the central portion 61x of the cam surface 61c to the left end portion 61y. As a result, even when the operating plate 20 is in the fully open position (that is, when the temperature is high, the engaging block 42 is located on the far right side, and the contact member 62 is located at the central portion 61x of the cam surface 61c). The contact member 62 can be reliably moved to the left end 61y of the cam surface 61c, and the operating plate 20 can be in the fully closed position.

When the temperature is low, for example, the engaging block 42 is located on the leftmost side with respect to the slider 41 and the contact member 62 is located on the inclined portion 61z of the cam surface 61c (the position where the operating plate 20 is 1/3 open). When the lever 72 is closed and the operating position is set, the right end of the elongated hole 41y of the slider body 41a hits the convex portion 42a of the engaging block 42, so that the engaging block 42 is moved to the slider 41. It can be moved to the left together with, and the operating plate 20 can be in the fully closed position in the same manner as described above.

The engagement block 47 is narrower than the moving block 45 and is housed in the internal space of the moving block 45. The stroke of the slide of the moving block 45 is limited by the left and right side plates 45a of the moving block 45 hitting the left and right side plates 47a of the engaging block 47 fixed to the slider main body 41a.
The side plate 47a of the engaging block 47 is formed with a recess 47e for passing the cam member 81.
A pin 47g on which the lower end of the spring 55 is hung is attached to the lower plate 47b of the engaging block 47.

When the temperature is high, the elastic force of the shape memory spring 43 on the right side is strong, so that the moving block 45 is located on the far right side with respect to the slider 41. Further rightward movement of the moving block 45, the left side plate 45a of the movable block 45 is restricted by striking the engaging block 47.
When the moving block 45 is located on the far right side with respect to the slider 41, the contact portion 82 of the engaging projection 51 of the operating plate 20 urged in the opening direction by the spring 55 is shown in FIGS. 10A and 14. As described above, the cam member 81 is in contact with the lowermost portion 81x of the cam surface 81a. As a result, the operating plate 20 is in the fully open position farthest from the partition wall 13.

The present invention is not limited to the above embodiment, and various aspects are possible.
The function of automatically opening and closing the operating plate according to the temperature may be omitted. For example, in the first embodiment , the shape memory spring and the bias spring may be omitted, and the engaging block (first engaging portion) may be fixed at a predetermined position of the slider. In this case, the manual operation mechanism can directly adjust the slide position of the operating plate via the slider and the connecting mechanism, and finely control the opening degree of the operating plate.
The operating member of the manual operating mechanism may be configured to slide with respect to the device body.
When a temperature-sensitive actuator is used, the operating plate may be fully closed when the temperature is low.
In the cam mechanism, a cam member (second cam member) having a cam surface facing the outside may be provided on the operating plate, and a contact member (first cam member) in contact with the cam surface may be provided on the main body of the apparatus.
The ventilation device of the present invention can be incorporated not only into a sash window that is fitted and killed, but also into a sash window that can be opened and closed and a sliding sash door.

Claims (10)

The main body of the device, which has a partition wall with ventilation openings,
An actuating plate that is arranged on the outdoor side of the partition wall, has a shaft portion that is rotatably and slidably supported by the device body, and opens and closes the ventilation port as it rotates.
A cam mechanism that is arranged on the outdoor side of the operating plate and rotates the operating plate as the operating plate slides.
A slider supported on the main body of the device so as to be slidable in the sliding direction of the operating plate,
A connecting mechanism that connects the operating plate and the slider so as to allow rotation of the operating plate,
A manual operation mechanism provided on the main body of the device and connected to the slider, the slider is slid by manual operation, and the operating plate is slid via the connection mechanism.
A spring that urges the operating plate in the opening direction,
With
The cam mechanism has a first cam portion provided on the main body of the apparatus and a second cam portion provided on the operating plate.
The second cam portion is arranged so as to face the indoor side of the first cam portion, and is separated from the first cam portion when the operating plate rotates in the closing direction against the spring due to wind pressure. A ventilator characterized by moving in a direction. The connecting mechanism has a first engaging portion arranged on the slider and a second engaging portion protruding from the operating plate in the indoor direction, and the first engaging portion and the second engaging portion. The ventilation device according to claim 1, wherein the ventilator is connected so as to be relatively movable in a direction orthogonal to the sliding direction of the operating plate and not relatively movable in the sliding direction. The ventilation device according to claim 2, wherein the spring is arranged between the first engaging portion and the second engaging portion. The first engaging portion has an accommodating space, the second engaging portion is inserted into the accommodating space, the spring is accommodated, the spring is composed of a tension coil spring, and one end thereof is engaged with the first engaging portion. The ventilation device according to claim 3, wherein the ventilation device is hung on a joint portion and the other end is hung on the second engaging portion. The first cam portion has a cam surface facing the operating plate, and the second cam portion comprises a contact portion that protrudes from the operating plate in the outdoor direction and is in contact with the cam surface. The ventilation device according to claim 2. The ventilation device according to claim 2, wherein the cam mechanism is arranged in the vicinity of the shaft portion. The first engaging portion is composed of an engaging block that is separate from the slider, and the engaging block is slidably supported by the slider in the sliding direction.
Further, the slider is provided with a shape memory alloy spring and a bias spring that urge the engaging block in opposite directions along the slide direction.
The ventilation device according to any one of claims 2 to 6, wherein a temperature-sensitive actuator is formed by the engagement block, the shape memory alloy spring, and the bias spring. Any of claims 2 to 6, wherein the first engaging portion is fixed to the slider, and the connecting mechanism connects the operating plate and the slider so as to be relatively immovable in the sliding direction. Ventilation device described in Crab. In addition, it is equipped with a temperature-sensitive actuator, and this temperature-sensitive actuator is
A moving member supported by the slider so as to be slidable in the sliding direction,
A shape memory alloy spring and a bias spring provided on the slider and urging the moving member in opposite directions along the slide direction.
A second cam mechanism that rotates the operating plate as the moving member slides,
Have,
The second cam mechanism has a third cam portion provided on the moving member and a fourth cam portion provided on the operating plate, and the fourth cam portion is subjected to the force of the spring to the third cam portion. The ventilation device according to claim 8, wherein the ventilation device is in contact with a cam portion. The moving member has a hollow frame shape, and the first engaging portion is arranged in the internal space of the moving member.
The third cam portion has a cam surface extending in the slide direction so as to cross the first engaging portion.
The ventilation device according to claim 9, wherein the fourth cam portion is formed of a contact portion formed on the second engaging portion and in contact with the cam surface of the third cam portion.

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