JP2012180976A - Ventilating opening cover - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique for smoothly performing indoor/outdoor air intake and discharge even when a front surface has an angular shape such as a quadrilateral shape, with respect to a ventilating opening cover which includes a base body having a back plate along a wall surface of a building, and an air flow adjusting plate for adjusting a supply air flow by being moved back or forth with respect to the base body and which is provided on an indoor wall surface of the building.SOLUTION: On a corner position of the air flow adjusting plate 15, a turbulence preventing plate 17 is provided projecting from the rear side toward the base body 12 up to the inside thereof. Thus, smooth air intake and discharge can be performed without producing turbulence even if the air flow adjusting plate 15 has a rectangular form.

Description

  The present invention relates to a vent cover that is attached to the indoor side of a vent that leads from the outside to the room.

  Houses in recent years have become highly airtight, and the concentration of carbon dioxide in the room may become high unless sufficient ventilation is provided. In addition to these phenomena, the presence of volatile organic compounds (VOC) contained in wall materials or the like may be a problem in newly built houses. Furthermore, if the indoor humidity becomes too high, mold is likely to occur. Against the backdrop of these problems, it was obliged to install ventilation system equipment so that outside air could be taken into the room from the 2003 revision of the Building Standards Law, and a vent cover was also installed on the indoor side of the building. It was. As such a ventilation port cover, for example, a ventilation register described in JP 2007-192428 A (Patent Document 1) is known.

JP 2007-192428 A

However, since such a vent cover is provided indoors, its design is also important. Unlike the round vent cover described in Japanese Patent Laid-Open No. 2007-192428, a vent cover with a square front is used. was suggested. However, since the quadrilateral surface of the quadrangular ventilation port cover faces the supply air through hole, turbulent flow is generated in the blow-out of the outside air, and there is a problem that appropriate ventilation is difficult to be performed.
Therefore, the present invention has been made to solve this problem, and proposes a vent cover that can smoothly supply air into the room even if the front surface is a square such as a square. .

In order to achieve the above object, a vent cover having the following configuration is provided.
That is, it has a back plate that runs along the wall of the building and a cylindrical outer tube portion that is inserted into the air supply through hole, and a base body that is fixed to the hole edge of the air supply through hole, and an air supply through hole. An air volume adjustment plate that adjusts the amount of air supply before and after the back plate, and a mechanism that has a cylindrical inner cylinder portion that supports the air flow adjustment plate and is housed in the base body A ventilation port cover comprising: a main body, and a turbulent flow prevention plate provided with a turbulent flow prevention plate that protrudes rearward toward the mechanism main body and reaches the inside of the inner cylinder portion at an angular position thereof. .

It has a back plate that runs along the wall of the building and a cylindrical outer cylinder that is inserted into the air supply through hole, and is opposed to the air supply through hole and a base body that is fixed to the hole edge of the air supply through hole. An air volume adjustment plate that is a rectangular lid member and adjusts the air supply amount before and after the back plate, and a mechanism main body having a cylindrical inner cylinder portion that supports the air volume adjustment plate and is housed in the base body, Since the airflow adjustment plate is provided with a turbulent flow prevention plate at the corner of the airflow adjustment plate that protrudes rearward toward the mechanism body and reaches the inner cylinder of the mechanism body, Smooth air supply can be performed without causing a flow.
Moreover, since the turbulent flow prevention plate reaches into the inner cylinder portion of the mechanism main body, the air flow outlet in the angular direction of the air volume adjusting plate can be suitably closed. Therefore, an excellent turbulent flow prevention effect can be exhibited.

Further, such a turbulent flow prevention plate can be provided so as to protrude from the air volume adjustment plate along the wall surface of the inner cylinder portion of the mechanism main body.
If the turbulent flow prevention plate is installed inside the mechanism main body without being along the inner peripheral surface of the mechanism main body, air flows in the inner cylindrical portion so as to avoid the turbulent flow prevention plate. The flow becomes complicated. Compared with such a case, since the turbulent flow prevention plate is provided along the inner peripheral surface of the inner cylinder portion of the mechanism main body, the airflow flowing in the inner cylinder portion is stabilized, and the pressure loss can be reduced. Moreover, since the turbulent flow prevention plate serves as a movement guide when adjusting the air volume by pushing and pulling the air volume adjusting plate, the air volume adjusting plate can be pushed and pulled without difficulty, and can be made difficult to break.

  Furthermore, the mechanism body has a slider coupled to the air volume adjusting plate, a slider receiving cylinder into which the slider is fitted, and an inner cylinder portion and a slider receiving cylinder so that the slider receiving cylinder is positioned at the center of the mechanism body inner cylinder portion. A ventilation port cover having a supporting arm to be connected, wherein a turbulent flow prevention plate can be inserted into a gap formed between the support arm and the inner cylinder portion at a front end portion of the supporting arm. Can do.

  A slider that connects the mechanism main body to the air volume adjusting plate, a slider receiving cylinder that fits the slider, and a support that connects the inner cylinder section and the slider receiving cylinder so that the slider receiving cylinder is positioned at the center of the inner cylinder section of the mechanism main body. Since the vent cover has an arm, the air volume adjusting plate can be slid relative to the mechanism body while the air volume adjusting plate is supported by the mechanism body. In addition, by removing the mechanism main body from the base main body, the air volume adjusting plate can be removed together, and the ventilation port cover 11 can be easily cleaned.

Further, since the slider can be pushed and pulled in the slider receiving cylinder, the air volume adjusting plate can block the opening of the base body, and the air supply amount can be adjusted by moving away from the opening.
And since the turbulent flow prevention plate can be inserted into the gap formed between the support arm and the inner cylinder portion at the front end portion of the support arm, the support arm and the turbulent flow prevention plate are stacked in the inner cylinder portion. Can be arranged. Therefore, the support arm and the turbulent flow prevention plate can be placed in the same direction along the air flow direction, and the pressure loss can be reduced.

The air volume adjusting plate bulges out in a dome shape toward the mechanism body, and an air flow guide can be provided in which the central portion of the rear surface of the air volume adjusting plate is the top of the dome. Since the airflow guide plate has an airflow guide that bulges toward the mechanism body in the form of a dome and the central portion of the rear surface of the airflow adjustment plate is the top of the dome, it is possible to supply air in a direction away from the wall surface along the airflow guide. . Therefore, air supply and exhaust can be performed more smoothly.
Further, since air is supplied along the airflow guide, it is possible to make it more difficult to cause turbulence in combination with the blockage of the airflow in the angular position direction by the turbulence prevention plate.

It is attached to the rear surface of the air volume adjustment plate so as to protrude rearward toward the mechanism body, and has a wind direction controller that blocks a part of the supply / exhaust port formed between the opening of the base body and the air volume adjustment plate. The airflow direction controller can be a ventilation port cover that can change the blocking position of the supply / exhaust port by changing the mounting position.
It is attached to the rear surface of the air volume adjusting plate so as to protrude rearward toward the mechanism body, and has a wind direction controller that blocks a part of the supply / exhaust port formed between the opening of the base body and the air volume adjusting plate. Therefore, air supply in the direction in which the wind direction controller exists can be suppressed. Therefore, wall surface contamination of the wall surface adjacent to the direction where the wind direction controller exists can be prevented by the inflow of outside air.

Since the mounting position of the wind direction controller is variable so that the blocking position of the supply / discharge port can be changed, a part of the supply / discharge port can be blocked at a desired position. Thus, the position of the supply / exhaust port can be selected according to the mounting position of the ventilation port cover.
Such a wind direction controller can be formed in a length extending from the air volume adjusting plate to the inner cylinder portion of the mechanism main body. Even when the air volume adjustment plate is pulled out the most, if all the predetermined direction of the air supply / exhaust port between the air volume adjustment plate and the base body opening can be blocked, the flow of outside air in the predetermined direction is more effectively suppressed. can do.

Furthermore, a base water stop plate is provided at the rear side of the mechanism main body and in the outer cylindrical portion of the base main body, and a water stop plate inside the mechanism is provided at the front side edge of the mechanism main body so that moisture accumulated inside can be stopped. Provide a vent cover that can be evaporated between the water plates.
Since the water stop plates are installed on both the front and rear sides of the vent cover, even if moisture is generated inside the vent cover due to condensation, the generated moisture is transferred from the vent cover to the front and rear sides. It can be kept in the vent cover without flowing and evaporated naturally. Therefore, it is possible to prevent wall contamination and water leakage caused by the dew condensation water immediately flowing to the front side or the rear side of the ventilation port cover.

  According to the ventilation port cover of the present invention, even if it is a square shape, turbulent flow hardly occurs and good air supply can be performed. Further, wall contamination can be prevented.

It is a disassembled perspective view of the ventilation port cover of this invention. It is a center sectional view which shows the use condition which opened the air volume adjustment board of the ventilation port cover of FIG. It is a center sectional view which shows the use condition which closed the air volume adjustment board of the ventilation port cover of FIG. It is a partially expanded sectional view of a mechanism main body. It is a perspective view of an air volume adjustment board provided with a wind direction controller and a turbulent flow prevention board. It is a rear view of the air volume adjusting plate of FIG. It is an enlarged view equivalent to the area | region R of FIG. 6 which shows the deformation | transformation form of a turbulent flow prevention board. It is a perspective view of a wind direction controller. It is an exploded sectional view of an air volume adjustment board provided with a wind direction controller. It is a photograph figure which shows the state into which the external air from a side view flows in (there is no wind direction controller). It is a photograph figure which shows the state into which the external air from a front view flows in (there is no wind direction controller). It is a photograph figure which shows the state into which the external air from a side view flows when a wind direction controller is arrange | positioned down. It is a photograph figure which shows the state into which the external air from a front view flows in when arrange | positioning a wind direction controller below. It is explanatory drawing explaining the state which the air blown out from the ventilation port cover stains an adjacent wall surface.

Embodiments of the present invention will be described below with reference to the drawings. Note that the description of the same configuration as the prior art is omitted.
As shown in FIG. 1, the vent cover 11 of the present embodiment includes a base body 12, a mechanism body 13, and an air volume adjusting plate 15.

  As shown in FIGS. 1 to 3, the base main body 12 is formed into a flat back plate 12 a covering the wall surface along the wall surface w <b> 1 of the building at the hole edge of the air supply through hole h and the air supply through hole h. It consists of the cylindrical outer cylinder part 12b to insert. The back plate 12a covers the air supply through-hole h and forms the outer surface of the ventilation port cover 11. In the present embodiment, the back plate 12a is formed in a rectangular shape. The outer cylinder part 12b is accommodated in the supply air through-hole h and serves as an introduction path for the outside air. The outer cylinder portion 12b is provided with a base water stop plate 12c for preventing water accumulated in the ventilation port cover 11 from flowing out to the rear side of the ventilation port cover at the lower rear side of the inner periphery. ing.

The mechanism main body 13 is a member that supports an air volume adjusting plate 15 that serves as a lid for the ventilation port cover 11. Moreover, it is configured to be removable from the base body 12 together with the air volume adjusting plate 15 so that the inside of the ventilation port cover 11 can be cleaned.
The mechanism main body 13 includes a cylindrical inner cylinder portion 13b accommodated in the base main body 12, a slider receiving cylinder 13a that receives the slider 16 connected to the air volume adjusting plate 15, and the slider receiving cylinder 13a at the center of the inner cylinder portion 13b. It is formed of four support arms 13d that connect the slider receiving cylinder 13a and the inner cylinder part 13b.
The slider receiving cylinder 13a has a cylindrical shape which is a hollow quadrangular column, and supports a piston-like slider 16 described later in a slidable manner. 2 shows a state in which the air volume adjusting plate 15 is pulled out, and FIG. 3 shows a state in which the air volume adjusting plate 15 is pushed in and the opening 12d of the base body 12 is closed.

The support arm 13d extends in a plate shape from the four corners of the slider receiving cylinder 13a toward the inner cylinder part 13b, and is joined to the inner cylinder part 13b. However, since a turbulent flow prevention plate 18 to be described later is inserted into the front end portion of the support arm 13d, as shown in FIG. 4, a notch is provided between the inner cylinder portion 13b and a gap 13e is formed.
Further, an inward flange that is bent toward the center is formed on the front side edge of the inner cylinder portion 13b, thereby forming a mechanism water stop plate 13c. An outside air purification filter 19 is attached to the rear side edge of the inner cylinder portion 13b.

The outside air purification filter 19 provided at the rear end of the mechanism main body 13 is configured by stretching a filter material 19b that prevents dust and the like flowing in along with outside air on the filter frame 19a.
The outer peripheral edge of the filter frame 19 a bent downward from the outer periphery to the front side is fitted to the inner cylinder portion 13 b of the mechanism main body 13.

The air volume adjusting plate 15 is a portion that is sized to cover the opening 12d of the base body 12 and is formed in a square shape so as to face the air supply through-hole h, and closes the opening 12d of the base body 12 so that the ventilation port is closed. It is an air volume adjusting material that adjusts the air volume flowing into and out of the room by being separated from the opening 12d. A slider 16 protruding from the mechanism main body 13 is attached to the air volume adjusting plate 15 at the center thereof, and the air volume adjusting plate 15 is integrated with the mechanism main body 13. Further, since the slider 16 connected to the air volume adjusting plate 15 can move in the slider receiving cylinder 13a, the air volume can be adjusted by moving the air volume adjusting plate 15 back and forth with respect to the back plate 12a.
The air volume adjusting plate 15 has a quadrangular shape while the opening 12d is circular. By making it square, it is possible to imagine freshness and sharpness that are not found in conventional round shapes. However, the quadrangle is an example of a shape and may be various squares such as a hexagon.

As shown in FIGS. 2, 3, 5, and 6, the rear surface 15 g of the air volume adjusting plate 15 protrudes rearward from the angular position forming a square toward the mechanism main body 13, and the inner cylinder portion of the mechanism main body 13. There are four turbulent flow prevention plates 17 reaching 13b. Further, the air volume adjusting plate 15 has an airflow guide 15a that bulges out in a dome shape from the rear surface 15g toward the mechanism main body 13, and the central portion of the rear surface of the air volume adjusting plate 15 is the top of the dome.
Further, similarly to the turbulent flow prevention plate 17, the air volume adjusting plate 15 has an arcuate wind direction controller 18 that protrudes toward the mechanism main body 13 and extends along the wall surface of the inner cylindrical portion 13 b of the mechanism main body 13.

In the present embodiment, since the air volume adjusting plate 15 is formed in a quadrangular shape, four turbulent flow prevention plates 17 are formed at the four corners that are the corner positions of the air volume adjusting plate 15.
Here, the “corner position” refers to a position where the shape seen from the front includes a line connecting a vertex and a center of a square and does not include a line connecting the middle and the center of adjacent vertices.
As shown in FIG. 6, the blocking angle θ blocked by one turbulent flow prevention plate 17 (the angle at the center of the inner cylindrical portion 13b from one end to the other end of one turbulent flow prevention plate 17) is 15. ° to 40 ° is preferable, and 20 ° to 30 ° is more preferable. This is because turbulent flow is likely to occur when the angle is less than 15 °, and the pressure loss of the air current increases when the angle exceeds 40 °. And if it is set to 20 ° to 30 °, a large amount of blowout can be performed without resistance without causing turbulent flow. The magnitude of the cut-off angle θ is considered to be similarly applicable to a square other than a quadrangle.
Moreover, it is preferable to place the turbulent flow prevention plate 17 at all corner positions of the square. This is because the effect of preventing turbulent flow is the highest. However, if the blowing in the predetermined direction can be smoothly performed, the blowing in the other direction may not be smooth, or the angular position where the turbulent flow prevention plate 17 is not provided in consideration of the installation position of the wind direction controller 18. There may be.

The turbulent flow prevention plate 17 has a protruding piece shape toward the supply air through-hole h side, but has an arc shape as shown in FIG. 6 along the inner peripheral surface of the inner cylinder portion 13b of the mechanism body 13. It is preferable to form so as to protrude. The gap with the mechanism main body 13 can be reduced, the air flow toward the angular position of the air volume adjusting plate 15 can be cut off with an appropriate width, and the gap between the wind direction controller 18 and the center side is an arc surface 17a. This is because it can be reduced. Furthermore, the pressure loss can be suppressed by taking the inside of the cylindrical portion 13b widely, and the gap 13e provided between the cylindrical portion 13b and the support arm 13d can be reduced.
However, in order to smoothly flow the airflow that hits the turbulent flow prevention plate 17 through the portion of the turbulent flow prevention plate 17 that faces the virtual central axis of the cylindrical portion 13b, as shown in FIG. It is also preferable to form 17b.

Similarly to the turbulent flow prevention plate 17, the wind direction controller 18 is a protruding piece that protrudes from the air flow adjustment plate 15 toward the air supply through hole h, but the turbulent flow prevention plate 17 is fixed at the angular position of the air flow adjustment plate 15. In contrast to the arrangement, it is formed to be rotatable along the opening edge of the mechanism main body 13.
As shown in FIG. 8, the wind direction controller 18 is formed by being fixed to a slide substrate 18a formed in an annular shape. Then, as shown in FIG. 9, the air volume adjusting plate 15 is formed by being sandwiched between three assembled plates of a front plate 15b, an intermediate plate 15c, and a rear plate 15d that form the air volume adjusting plate 15. When the wind direction controller 18 is assembled to the air volume adjusting plate 15, the slide substrate 18a is assembled so that the outer peripheral surface of the cylindrical roller 18f fitted in the pin 18e is in contact with the inner periphery of the slide substrate 18a. 18a is easy to rotate.

As for the movement of the wind direction controller 18 to a desired position, as shown in FIG. 8, a finger hook 18b that is slightly thinned or uneven is provided at the end of the wind direction controller 18 on the slide substrate 18a side. By turning the finger hook 18b, the finger force is easily transmitted to the slide substrate 18a. In addition, the slide substrate 18a is provided with a ratchet 18c that forms a stepped surface, so that it can be notified by sound and sense that it has been rotated to a predetermined position.
The wind direction controller 18 shown in FIGS. 6 and 8 is formed in a substantially quadrant arc shape so as to block between the two adjacent turbulent flow prevention plates 17, 17, but is not limited to such a size. . For example, if it is formed in a substantially semicircular arc shape, it can be used to supply air only on one side, such as the right half or the left half, or the upper half or the lower half.

  It is preferable to provide appropriate packings p1 and p2 between the mechanism main body 13 and the external purification filter 19 or between the mechanism main body 13 and the air flow rate adjusting plate 15 in order to maintain airtightness or stop water. This is because if liquid droplets leak from the gaps between the respective members, they are transmitted to the wall surface, and the wall surface may be soiled.

The operation and effect of the vent cover 11 of the present embodiment as described above will be described.
The slider 16 connected to the air volume adjusting plate 51 is slidable within the cylindrical slider receiving cylinder 13a. For this reason, the air volume adjusting plate 15 is supported by the mechanism main body 13 and completely closes the opening 12d of the base main body 12 when pushed in most. The interval with 15 changes. Since the front surface 15h of the air volume adjusting plate 15 is not provided with a louver (slit air inlet / outlet) for allowing air to enter and exit, air supply is not performed when the opening 12d of the base body 12 is blocked, and the air volume adjusting plate 15 is projected. In this case, the amount of air supplied can be adjusted at the interval between the opening 12d and the air volume adjusting plate 15. If the gap between the opening 12d and the air volume adjusting plate 15 is a supply / exhaust port, the outside air blown from the air supply / exhaust port flows around the air volume adjusting plate 15 and flows into the room.

  At this time, since the air volume adjusting plate 15 has a square shape, unlike the case of the circular shape, turbulent flow is likely to occur without the turbulent flow preventing plate 17. In this way, turbulence is unlikely to occur because the air is supplied into the room. In addition, since air is supplied along the dome-shaped airflow guide 15a provided on the rear surface 15g of the air volume adjusting plate 15, it is possible to increase the flow in the direction away from the wall surface of the room, and it is less likely to cause turbulence. Smooth intake is possible. 10 and 11 show a state in which air is smoothly supplied from four directions without turbulent flow without the wind direction controller 18 being provided. FIGS. 12 and 13 show a state in which air is smoothly supplied from three directions except the lower side when the wind direction controller is disposed below.

  Also, in the case where there is a vertical wall surface w2 that intersects the wall surface w1 to which the ventilation port cover is attached, as shown in FIG. The dirt D may adhere to the vertical wall surface w2. However, since the ventilation port cover 11 includes the rotatable wind direction controller 18h, it is possible to close a desired portion of the supply / exhaust port. Therefore, in the case shown in FIG. It is possible to block the flow of the airflow that moves in the direction of and blows out toward the vertical wall surface w2. Thereby, the wall surface stain | pollution | contamination D that the vertical wall surface w2 becomes dirty by inflow of the dust etc. which were mixed in external air can be prevented.

  As shown in FIG. 6, the outer surface of the wind direction controller 18 and the inner surface of the turbulence prevention plate 17 are circular so that the outer surface of the wind direction controller 18 can rotate along the inner surface of the turbulence prevention plate 17. Since it has an arc-like relative shape, if the wind direction controller 18 and the turbulent flow prevention plate 17 are provided at a position where they overlap, the gap can be eliminated. Therefore, the entry and exit of the airflow from this gap can be blocked, and it can contribute to both the control of the wind direction and the prevention of turbulence at the same time.

  Since the in-mechanism water stop plate 13 c is provided on the front side of the mechanism main body 13 and the in-base water stop plate 12 c is provided on the rear side of the base main body 12, moisture generated for some reason inside the vent hole cover 11 is removed from the vent hole cover 11. It can be left in the vent cover 11 without flowing from the inside to the front side or the rear side, and can be evaporated naturally. Therefore, it is possible to prevent moisture generated inside the ventilation port cover 11 from flowing out from the wall surface and to prevent wall surface contamination. Further, even if the vent cover 11 is tilted and attached at the construction stage, moisture does not flow into the room side or the rear side, and can be stopped in the vent cover 11. Therefore, even if there is a construction mistake that is inclined and installed when the ventilation port cover 11 is installed, water leakage, wall contamination, and the like can be prevented.

Next, a modification of the above embodiment will be described.
Although the shape of the slide substrate 18a that supports the wind direction controller 18 is an annular shape, it can be replaced with an arc shape or the wind direction controller 18 itself can be eliminated. In such a case, an annular groove for sandwiching the wind direction controller 18 may be provided in the air volume adjusting plate 15 so that the arc-shaped slide substrate 18a can be inserted into any part of the groove. When the slide substrate 18a is not provided, the wind direction controller 18 itself may be inserted and held in such a groove.
The width of the wind direction controller 18 can also be set arbitrarily. In the above embodiment, the gap between adjacent turbulent flow prevention plates 17 is closed, that is, a width corresponding to a quadrant arc, but the half is closed, that is, a half arc. You may form in the width | variety corresponded to. Moreover, the shape of the wind direction controller 18 may not be an arc shape but may be a flat plate shape.

  In addition, the example shown by the said embodiment and its modification is an illustration, and is not limited to such a form, The arbitrary modification which does not contradict the meaning of this invention is included.

DESCRIPTION OF SYMBOLS 11 Ventilation hole cover 12 Base main body 12a Back plate 12b Outer cylinder part 12c Base water stop plate 12d Opening 13 Mechanism main body 13a Slider receiving cylinder 13b Inner cylinder part 13c Intra mechanism water stop plate
13d Support arm 13e Clearance (notch)
DESCRIPTION OF SYMBOLS 15 Air volume adjusting plate 15a Airflow guide 15b Front plate 15c Middle plate 15d Rear plate 15e Pin 15f Roller 15g Rear surface 15h Front surface 16 Slider 17 Turbulence prevention plate 17a Circular surface 17b Inclined surface 18 Wind direction controller 18a Slide board 18b Finger rest 18c Air ratchet 19c Purification filter 19a Filter frame 19b Filter material h Air supply through-hole w1, w2 Wall surface p1, p2 Packing D Wall surface contamination θ Blocking angle

Claims (6)

A base body that has a back plate extending along the wall surface of the building and a cylindrical outer cylinder portion that is inserted into the air supply through hole, and is fixed to a hole edge of the air supply through hole;
An air volume adjusting plate that is a rectangular lid material facing the air supply through hole, and adjusts the air supply amount before and after the back plate;
In the vent cover provided with a mechanism main body having a cylindrical inner cylinder portion that supports the air volume adjusting plate and is accommodated in the base main body,
A ventilation port cover, characterized in that the air volume adjusting plate includes a turbulent flow prevention plate protruding rearward toward the mechanism main body at the corner position and reaching the inner cylinder portion.   The ventilation port cover according to claim 1, wherein the turbulent flow prevention plate protrudes from the air volume adjustment plate so as to follow the wall surface of the inner cylinder portion of the mechanism main body. A slider that connects the mechanism main body to the air volume adjusting plate, a slider receiving cylinder that fits the slider, and a support that connects the inner cylinder section and the slider receiving cylinder so that the slider receiving cylinder is positioned at the center of the inner cylinder section of the mechanism main body. A vent cover having an arm,
The ventilation port cover according to claim 1 or 2, wherein the turbulent flow prevention plate can be inserted into a gap formed between the support arm and the inner cylinder portion at a front end portion of the support arm.   The ventilation port cover according to any one of claims 1 to 3, further comprising an airflow guide in which the air volume adjusting plate bulges toward the mechanism body in a dome shape, and a central portion of the rear surface of the air volume adjusting plate is a top portion of the dome. .   It is attached to the rear surface of the air volume adjustment plate so as to protrude rearward toward the mechanism body, and has a wind direction controller that blocks a part of the supply / exhaust port formed between the opening of the base body and the air volume adjustment plate. The ventilation port cover according to any one of claims 1 to 4, wherein the wind direction controller is capable of changing the attachment position and changing the shut-off position of the supply / exhaust port.   A base water stop plate is provided in the outer cylinder of the base body at the rear side of the mechanism main body, and a water stop plate in the mechanism is provided at the front side edge of the mechanism main body, so that the water accumulated in both of the water stop plates can be stored inside. The ventilation opening cover according to any one of claims 1 to 5, wherein the ventilation port cover is allowed to evaporate and can be evaporated.