JP6254047B2 - Building exterior louver - Google Patents

Description

  The present invention relates to a building outer wall louver.

  As louvers such as lattices, armor doors, and louvers are well known as those provided on the outer wall to block sunlight and line of sight. Since the shape is important for the exterior design of the building, there are various shapes, and the outer wall louver for building has a hollow louver blade having a wall portion and a hollow portion surrounded by the wall portion. There is something.

  In a conventional building outer wall louver, each louver blade is, for example, supported in a vertical manner at both longitudinal ends of the louver blade. However, depending on the length of the louver blade, the louver blade may be shaken or bent near the center in the longitudinal direction. And in order to suppress this deformation | transformation, it was necessary to provide another stand and to support each louver blade | wing in this other stand even in the said longitudinal direction center part.

No. 7-51588

  However, it is cumbersome to provide another stand and fix each louver blade to the stand one by one, so the following measures can be considered as an alternative. That is, an interval holding tube that holds the interval between the two louver blades is arranged between two adjacent louver blades, and a single rod body is provided so as to penetrate both the louver blade and the interval holding tube. It is conceivable to apply a compressive force to the louver blades and the spacing tube that are alternately arranged by bolts and nuts installed on the louver and press the spacing tube against the louver blade. According to this measure, since the louver blades can be connected by the rod body and the interval holding tube, it is possible to appropriately suppress the shake and the deflection as in the case of the other method described above. Moreover, since it is only necessary to tighten the nut with respect to the bolt at only one place, the installation work is greatly simplified, which is a simpler measure than the method using the other vertical.

  However, this measure suffices if the louver blade is a solid member, but there are the following problems when the louver blade is a hollow member. That is, since the louver blade is hollow, the louver blade may be crushed and damaged when the interval holding tube is pressed against the louver blade.

  This invention is made | formed in view of this subject, The place made into the objective is to suppress deformation | transformation, such as a shake | deflection and bending of an outer wall louver for buildings, without damaging a hollow louver blade | wing.

In order to achieve such an object, the building outer wall louver of the present invention has a wall portion and a hollow portion surrounded by the wall portion, and louver blades arranged at intervals,
An interval holding pipe that is provided in a state of penetrating the wall portion between two adjacent louver blades, and holds an interval between the two louver blades;
An abutting member provided in the hollow portion of the louver blade and abutting against an end of the spacing tube;
A plurality of
A rod body inserted into the plurality of spacing tubes in a state of penetrating each of the contact members;
A pressing portion provided on the rod body, for pressing the spacing tube against the contact member;
It is an exterior wall louver for buildings characterized by comprising.

  According to such a building outer wall louver, a contact member is provided in the hollow portion of the louver blade, and the end portion of the spacing tube that penetrates the wall portion of the louver blade is contacted to the contact member. . Therefore, it is not the louver blade that is pressed against the spacing tube, but an abutting member located in the hollow portion of the louver blade, so that the louver blade is not crushed and damaged. Moreover, since each louver blade | wing can be connected with a space | interval holding | maintenance pipe | tube, a contact member, and a rod body, the effect that deformation | transformation, such as a shake | deflection, a bending, and a twist is suppressed appropriately is also show | played. In this way, it is possible to suppress deformation of the building outer wall louver without damaging the hollow louver blade.

In this building outer wall louver, the contact member has a flat surface,
It is desirable that the flat surface is in contact with the end of the spacing tube.

  According to such a building outer wall louver, stable contact is realized, and deformation of the building outer wall louver can be suppressed more appropriately.

In this building outer wall louver, the contact member is a plate material,
The plate material is provided in the hollow portion so that the thickness direction thereof is along the longitudinal direction of the spacing tube,
It is desirable that the front surface and the back surface, which are the flat surfaces of the plate material, come into contact with the end portion of the spacing tube.

  According to such a building outer wall louver, in the plate material, since both the front surface and the back surface are flat surfaces instead of one side, more stable contact is realized, and the deformation of the building outer wall louver is more appropriately performed. It becomes possible to suppress. Moreover, since a board | plate material is an easily available material, a cost merit also arises.

In this building outer wall louver, the wall portions located at both ends in the width direction of the louver blades are provided with gripping portions for gripping the plate material,
It is desirable that the side portion of the plate material is held by the holding portion.

  According to such a building outer wall louver, the plate material is reliably fixed to the louver blade in the hollow portion in an appropriate posture.

Such an outer wall louver for buildings, wherein both ends in the longitudinal direction of the louver blade are openings,
A lid for closing the opening;
The wall portions located at both ends in the width direction of the louver blade are provided with projecting portions formed from one end to the other end in the longitudinal direction of the louver blade and projecting in the width direction toward the hollow portion side. And
A central portion in the longitudinal direction of the protruding portion is used as the gripping portion,
It is preferable that both end portions in the longitudinal direction of the protruding portions are used as screw holes for fixing the lid portion to the louver blade with screws.

  According to such a building outer wall louver, the projecting portion can be efficiently used in two applications.

Such a building outer wall louver further comprises a vertical,
It is desirable that the louver blade is attached to the housing via the vertical.

  According to such a building outer wall louver, each louver blade is appropriately fixed to the housing.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to suppress deformation | transformation, such as a shake | deflection, bending, a twist, etc. of the outer wall louver for buildings, without damaging a hollow louver blade | wing.

2 is a schematic front view of a louver unit 10. FIG. FIG. 4 is a schematic longitudinal sectional view showing a state where the louver unit 10 is attached to a housing 80. 3 is a schematic cross-sectional view showing a state where a louver unit 10 is attached to a housing 80. FIG. FIG. 3 is a perspective view showing a state of the louver unit 10 in the longitudinal central portion of the louver blade 20. FIG. 3 is an exploded view showing a state of the louver unit 10 in the longitudinal center of the louver blade 20. FIG. 3 is a cross-sectional view of the louver unit 10 when it is cut at the longitudinal center of the louver blade 20. FIG. 3 is a cross-sectional view of the louver unit 10 when cut at a non-central portion in the longitudinal direction of the louver blade 20. FIG. 3 is a perspective view showing a state of the louver unit 10 at the longitudinal end of the louver blade 20. FIG. 4 is a schematic diagram showing a first variation of the cross-sectional shape of louver blade 20. FIG. 6 is a schematic diagram showing a second variation of the cross-sectional shape of the louver blade 20. FIG. 6 is a schematic diagram showing a third variation of the cross-sectional shape of the louver blade 20. FIG. 6 is a schematic diagram showing a fourth variation of the cross-sectional shape of the louver blade 20. FIG. 6 is a schematic diagram showing a fifth variation of the cross-sectional shape of louver blade 20.

=== About Louver Unit 10 According to the Present Embodiment ===
A horizontal blade type louver unit 10 as an example of a building outer wall louver according to the present embodiment will be described with reference to FIGS. 1 to 8. FIG. 1 is a schematic front view of the louver unit 10. FIG. 2 is a schematic vertical cross-sectional view showing a state in which the louver unit 10 is attached to the housing 80. FIG. 3 is a schematic cross-sectional view showing a state in which the louver unit 10 is attached to the housing 80. FIG. 4 is a perspective view showing a state of the louver unit 10 in the central portion in the longitudinal direction of the louver blade 20. FIG. 5 is an exploded view of FIG. 6 and 7 are cross-sectional views of the louver unit 10, FIG. 6 is a view of the louver blade 20 taken along the longitudinal center, and FIG. 7 is a non-central portion of the louver blade 20 in the longitudinal direction. It is a figure when cut | disconnecting by. FIG. 8 is a perspective view showing a state of the louver unit 10 at the longitudinal end of the louver blade 20.

  In the following description, when the louver unit 10 attached to the housing 80 is viewed from the indoor side, the vertical direction is the vertical direction, the horizontal direction is the horizontal direction, and the depth is the indoor / outdoor direction. The direction is shown as the prospective direction.

  As shown in FIGS. 2 and 3, the louver unit 10 faces the window 82 in a state of being positioned on the outdoor side of the window 82 in the prospective direction. That is, the window 82 is provided in an opening 80a formed by a concrete casing 80, and a part of the casing 80 extends outside the window 82 in the prospective direction (extension portion). 80b). The louver unit 10 is fixed to the extending portion 80b via a fixing bracket 84.

  The louver unit 10 includes a plurality of louver blades 20, a plurality of verticals 30, a plurality of round pipes 40 as an example of a spacing tube, a plurality of liner plates 50 as an example of a contact member, and a rod body 60. And a nut 76 as an example of a pressing portion.

  The louver unit 10 mainly has three functions. That is, the louver unit 10 has a decoration function, a solar radiation shielding function that blocks sunlight, and a blindfold function that makes the room difficult to see from the outside.

  The louver blade 20 according to the present embodiment is a long and hollow aluminum extruded profile. That is, the louver blade 20 has a wall portion 22 (that is, a portion forming the outer peripheral shape of the louver blade 20) and a hollow portion 26 surrounded by the wall portion 22, as shown in FIGS. ing. In addition, the cross section of the louver blade 20 according to the present embodiment (the cross section in the out-of-plane direction along the longitudinal direction of the louver blade 20) has an elliptical shape.

  In the present embodiment, as shown in FIGS. 1, 2, and 4, a plurality of louver blades 20 are arranged in the vertical direction at intervals. All the louver blades 20 have the same shape and the same dimensions. As shown in FIG. 4, each louver blade 20 has its longitudinal direction along the left-right direction (horizontal direction), the elliptical major axis direction is along the prospective direction, and the minor axis direction is up and down. It is arranged along the direction. That is, the plurality of louver blades 20 are arranged in a state where they all face the same direction.

  The stand 30 is for supporting the louver blade 20. This stand 30 is a long aluminum extruded profile. The cross section of the vertical 30 according to the present embodiment (the cross section in which the out-of-plane direction is along the longitudinal direction of the vertical 30) is rectangular.

  As shown in FIGS. 1, 3, and 8, the vertical 30 is located at a position corresponding to both ends of the louver blade 20 in the left-right direction. All the verticals 30 have the same shape and the same dimensions. As shown in FIG. 3, each of the verticals 30 is provided such that its longitudinal direction is along the vertical direction. Further, as shown in FIG. 2, each of the verticals 30 is located on the indoor side of the louver blade 20 in the prospective direction.

  As shown in FIG. 8, a small lid 37 as an example of a plurality of lids is supported on the vertical 30. Since the louver blade 20 is a hollow aluminum extruded shape, both ends in the longitudinal direction are openings 20a. Therefore, in order to improve the appearance of the louver blade 20, the opening 20 a is closed by the fore cover 37.

  The fore cover 37 is a thin plate-like member, and is located outside the longitudinal direction of each louver blade 20 as shown in FIGS. 3 and 8. That is, the fore cover 37 is provided on the outer side of each longitudinal end of each louver blade 20. Accordingly, two small edge lids 37 are provided for each louver blade 20. In addition, all the small edge lids 37 have the same shape and the same dimensions.

  Further, as shown in FIG. 8, the outdoor portion 37a in the prospective direction of the fore edge lid 37 has a function of closing the opening 20a. That is, the outdoor portion 37 a closes the opening 20 a in a state where the outdoor portion 37 a is in contact with the wall portions 22 at both ends in the longitudinal direction of the louver blade 20. In this state, the small lid 37 is screwed to the louver blade 20, but a screw hole for fixing the small lid 37 to the louver blade 20 with the screw 38 is provided on the wall portion 22 of the louver blade 20. 25a is provided.

  That is, as shown in FIGS. 4 and 7, the wall portion 22 located at both end portions 20 b in the width direction (expected direction) of the louver blade 20 is provided with a protruding portion 25 protruding in the expected direction toward the hollow portion 26. The protrusion 25 serves as a screw hole 25a. The protruding portion 25 is formed integrally with the wall portion 22 and also serves as a grip portion 25b in addition to the screw hole 25a (details will be described later). Therefore, the fore edge lid 37 is screwed (fixed) to the louver blade 20 at both end portions 20b in the width direction (expected direction) of the louver blade 20.

  Further, the indoor side portion 37 b in the prospective direction of the small mouth lid 37 has a function as a supported portion supported by the vertical 30. In other words, the indoor lid portion 37 b is fixed to the vertical 30, so that the fore edge lid 37 is supported by the vertical 30. In addition, the small lid 37 corresponding to each louver blade 20 is fixed to the vertical 30 so as to be arranged at intervals in the vertical direction. Further, each of the small lids 37 is attached to the outdoor side surface 30 a of the vertical 30 and is positioned on the outdoor side of the vertical 30.

  In this way, each fore edge lid 37 supported by the vertical 30 is fixed to each louver blade 20. Therefore, the stand 30 supports the louver blades 20 via the fore cover 37. That is, the louver blade 20 is supported by the vertical 30 via the small edge lid 37 at both ends in the longitudinal direction (both ends in the left-right direction).

  Further, the point that the louver unit 10 having the stand 30 is fixed to the housing 80 via the fixing bracket 84 has already been described. However, as shown in FIGS. 30 is fixed to the housing 80 via a fixing metal fitting 84. Therefore, the louver blade 20 is fixed to the housing 80 through the vertical 30.

  The round pipe 40 is a tubular member for maintaining a distance between two adjacent louver blades 20 in cooperation with a liner plate 50 described later. In addition, together with the liner plate 50 and the rod body 60 to be described later, the louver blade 20 plays a role of steadying (described in detail later). The round pipe 40 is an aluminum extruded shape having a through hole 40a. The cross section of the round pipe 40 according to the present embodiment (the cross section along the longitudinal direction of the round pipe 40) is circular.

  In the present embodiment, as shown in FIGS. 4 to 7, the plurality of round pipes 40 are arranged in the vertical direction at intervals (intervals corresponding to the thickness of a liner plate 50 described later). All the round pipes 40 have the same shape and the same dimensions. The respective round pipes 40 are arranged so that their centers (circular centers of circular cross sections) are aligned. And each round pipe 40 is arrange | positioned so that the longitudinal direction may follow an up-down direction, and it is each provided in the state which penetrated the wall part 22 mentioned above between the two louver blades 20 adjacent in an up-down direction. . The round pipe 40 is located at the center of the louver blade 20 in the left-right direction (longitudinal direction of the louver blade 20) and at the center of the louver blade 20 in the prospective direction.

  That is, as shown in FIGS. 5 and 6, the wall portion 22 (the upper wall portion 23 and the lower wall portion 24) located at the center in the left-right direction of the louver blade 20 (and the center in the prospective direction) A louver hole 22a (upper hole 23a and lower hole 24a) is provided. The round pipe 40 located above the louver blade 20 passes through the upper hole portion 23a of the louver blade 20, and the lower portion of the round pipe 40 enters the hollow portion 26 of the louver blade 20. . Similarly, the round pipe 40 located on the lower side of the louver blade 20 passes through the lower hole 24a of the louver blade 20, and the upper portion of the round pipe 40 is inside the hollow portion 26 of the louver blade 20. I'm stuck in.

  Thus, the round pipe 40 includes the lower hole portion 24a formed in the louver blade 20 located on the upper side of the round pipe 40 and the upper side formed on the louver blade 20 located on the lower side of the round pipe 40. It is disposed between the louver blades 20 in a state of passing through the hole 23a. The liner plate 50 is in contact with the end 42 of the round pipe 40.

  The liner plate 50 cooperates with the round pipe 40 to maintain a distance between two adjacent louver blades 20. The liner plate 50 is a rectangular aluminum plate material. In other words, the liner plate 50 has a rectangular shape in a plan view (when viewed from the thickness direction).

  The liner plate 50 is provided in the hollow portion 26 of each louver blade 20 as shown in FIGS. All liner plates 50 have the same shape and the same dimensions. And each liner plate 50 is arrange | positioned so that it may line up in a straight line in the up-down direction, as shown in FIG.

  As shown in FIGS. 4 to 7, each liner plate 50 is provided in the hollow portion 26 so that the thickness direction of the liner plate 50 is along the longitudinal direction of the round pipe 40 (in other words, the vertical direction). ing. Therefore, the front surface 52 and the back surface 54, which are the flat surfaces 51 of the liner plate 50, are in a vertically related position. And this flat surface 51 (the front surface 52 and the back surface 54) is an end part of the round pipe 40 in a state where the out-of-plane direction of the flat surface 51 is along the longitudinal direction of the round pipe 40 (in other words, the vertical direction). 42 abuts.

  That is, the liner plate 50 provided in the hollow portion 26 of the louver blade 20 is disposed between the round pipe 40 located above the louver blade 20 and the round pipe 40 located below the louver blade 20. The end 42 (lower end) of the round pipe 40 located on the upper side contacts the surface 52 of the liner plate 50, and the end 42 (upper end) of the round pipe 40 located on the lower side is the liner plate 50. Is in contact with the back surface 54 of the. In other words, the liner plate 50 is sandwiched between the two round pipes 40 and also serves to receive the load of the round pipe 40. 4 and 5, the end 42 of the round pipe 40 is in contact with the center of the flat surface 51 of the liner plate 50 (that is, the center in the long side direction and the center in the short side direction). .

  In addition, as described above, the wall portion 22 positioned at both end portions 20b in the width direction (expected direction) of the louver blade 20 is provided with the protruding portion 25 protruding in the width direction (expected direction) toward the hollow portion 26 side. The projecting portion 25 serves as a grip portion 25 b for gripping the liner plate 50. That is, the gripping portions 25b for gripping the liner plate 50 are respectively provided on the wall portions 22 located at both end portions 20b in the width direction (expected direction) of the louver blade 20 (that is, with respect to each of the two end portions). One by one). As shown in FIG. 6, the liner plate 50 is fixed to the louver blade 20 in the hollow portion 26 by the side portion 56 in the long side direction of the liner plate 50 being gripped by the grip portion 25 b. ing.

  In addition, since the louver blade | wing 20 is an aluminum extrusion shape material, as shown in FIG. 4, the protrusion part 25 is continuously formed ranging from the one end to the other end in the longitudinal direction of the louver blade | wing 20. As shown in FIG. And the center part in the said longitudinal direction of the protrusion part 25 is used as the holding part 25b, and the both-ends part in the said longitudinal direction of the protrusion part 25 is used as the screw hole 25a. That is, since the protrusion 25 is continuously formed as described above, the center portion can be efficiently used in two applications with the grip portion 25b and both end portions with the screw holes 25a. Furthermore, portions other than the central portion of the protruding portion 25 can be used as a guide portion (guide portion) when the liner plate 50 is installed on the grip portion 25b. As shown in FIG. 6, the shape of the protruding portion 25 is as follows so as to appropriately perform both functions of the screw hole 25a and the gripping portion 25b. In other words, the protruding portion 25 has a shape in which a round hole for inserting the liner plate 50 through the screw 38 and a notch for holding the liner plate 50 (connected to the round hole) are formed.

  The louver blade 20 is arranged so that the major axis direction of the ellipse is along the prospective direction, and the gripping portions 25b are provided at both end portions 20b in the width direction (expected direction) of the louver blade 20, As shown in FIG. 6, the liner plate 50 is positioned at the center in the vertical direction of the hollow portion 26. The liner plate 50 is located at the center of the louver blade 20 in the left-right direction (longitudinal direction of the louver blade 20). The long side direction of the liner plate 50 is along the width direction (expected direction) of the louver blade 20, and the short side direction of the liner plate 50 is along the longitudinal direction (left-right direction) of the louver blade 20.

  As described above, the liner plate 50 is fixed to each of the two adjacent louver blades 20, and the round pipe 40 is provided between the two liner plates 50 in contact with the liner plate 50. Thus, the distance between the two louver blades 20 is held by the round pipe 40 and the liner plate 50.

  The rod body 60 is for preventing deformation of the louver blade 20 such as vibration, bending, and twisting, and only one rod body 60 is provided for the louver unit 10. The rod body 60 is a long stainless steel member. The cross section of the rod body 60 according to the present embodiment (the cross section where the out-of-plane direction is along the longitudinal direction of the rod body 60) is circular.

  In the present embodiment, as shown in FIGS. 4 to 7, the rod body 60 is disposed such that the longitudinal direction thereof is along the vertical direction. The rod body 60 is inserted into the plurality of round pipes 40 while penetrating each liner plate 50.

  In other words, the round pipe 40 is provided with the through hole 40a as described above. The liner plate 50 is also provided with holes (referred to as plate hole portions 50a for convenience). As shown in FIG. 5, the round pipes 40 and the liner plates 50 are alternately arranged in the vertical direction, and the through holes 40 a and the plate hole portions 50 a of the alternately arranged round pipes 40 and the liner plate 50 are provided. The rod body 60 has passed.

  As shown in FIG. 5, the plate hole 50 a is formed at the center of the flat surface 51 of the liner plate 50 (that is, the center in the long side direction and the center in the short side direction). Further, the diameter of the plate hole 50a is smaller than the outer diameter of the round pipe 40 so that the round pipe 40 can properly contact the liner plate 50 (therefore, smaller than the diameter of the louver hole 22a). )

  Further, the upper end portion of the rod body 60 is a bolt head portion (not shown) that is a pressing portion, and the lower end portion is a bolt male screw forming portion 60a. The bolt male screw forming portion 60a is provided with a nut 76 that is a pressing portion having a hole in which a female screw is cut. That is, the nut 76 is fastened to the bolt male screw forming portion 60a with the bolt male screw forming portion 60a penetrating the hole.

  It has already been described that the round pipe 40 is in contact with the front surface 52 and the back surface 54 of the liner plate 50. The uppermost liner plate 50 and the lowermost liner plate 50 of the plurality of liner plates 50 are described below. It is an exception.

  That is, the uppermost liner plate 50 is in contact with the back surface 54 of the round pipe 40 but is not in contact with the front surface 52. Instead, the bolt head located above the liner plate 50 is applied. It touches. That is, the upper end portion of the rod body 60 passes through the liner plate 50 with the bolt head in contact with the liner plate 50.

  In addition, the lowermost liner plate 50 is in contact with the front surface 52 of the round pipe 40 but is not in contact with the back surface 54. Instead, the washer is a pressing portion positioned below the liner plate 50. 78 abuts. A nut 76 is provided below the washer 78 in contact with the washer 78. That is, the lower end portion of the rod body 60 passes through the liner plate 50, the washer 78, and the nut 76 with the liner plate 50 and the nut 76 sandwiching the washer 78.

  When the nut 76 is tightened, the round pipe 40 and the liner plate 50 (the uppermost liner plate) that are positioned between the bolt head that is the pressing portion and the nut 76 that is the pressing portion and are alternately arranged in the vertical direction. 50 → round pipe 40 → liner plate 50 →... → round pipe 40 → lined with the lowermost liner plate 50), a compressive force is applied, and the round pipe 40 is pressed against the liner plate 50. . Thus, the nut 76 is provided on the rod body 60 and has a function as a pressing portion for pressing the round pipe 40 against the liner plate 50 in contact with the round pipe 40.

  Then, the alternately arranged round pipes 40 and liner plates 50 are sandwiched between bolt heads and nuts 76 and tightened to be integrated with the rod body 60. The integrated member (hereinafter referred to as an integrated member) plays a role of preventing deformation of each louver blade 20 having the liner plate 50 in the hollow portion 26, such as vibration, bending, and twisting. That is, if the integral member does not exist and the louver blade 20 is supported only by the vertical 30 at both ends in the longitudinal direction, the louver blade 20 is shaken or bent mainly by the wind in the vicinity of the central portion in the longitudinal direction. It will be deformed by twisting or twisting. However, in the present embodiment, since the integrated member connects the louver blades 20 at the central portion in the longitudinal direction, such deformation can be appropriately stopped.

=== Effectiveness of Louver Unit 10 According to the Present Embodiment ===
As described above, the louver unit 10 according to the present embodiment has a wall portion 22 and a hollow portion 26 surrounded by the wall portion 22, and two adjacent louver blades 20 arranged at intervals. The louver blades 20 are respectively provided in a state of penetrating the wall portion 22, and are respectively provided in the round pipe 40 that keeps the interval between the two louver blades 20 and the hollow portion 26 of the louver blade 20. Each has a plurality of liner plates 50 that abut the portion.

  The rod body 60 is inserted into the plurality of round pipes 40 in a state of penetrating each liner plate 50, and the liner is provided on the rod body 60 and abuts the round pipe 40 against the round pipe 40. A pressing portion (nut 76) for pressing against the plate 50. Therefore, deformation of the louver blade 20 can be suppressed without damaging the hollow louver blade 20.

  That is, as described above, in the conventional louver unit, each louver blade is supported in a vertical manner at, for example, both ends in the longitudinal direction of the louver blade. However, depending on the length of the louver blade, the louver blade may be deformed near the center in the longitudinal direction. And in order to suppress this deformation | transformation, it was necessary to provide another stand and to support each louver blade | wing in this other stand even in the said longitudinal direction center part.

  However, it is cumbersome to provide another stand and fix each louver blade to the stand one by one, so the following measures can be considered as an alternative. In other words, a round pipe that maintains the distance between the two louver blades is arranged between two adjacent louver blades, and a single rod body is provided so as to penetrate both the louver blade and the round pipe. It is conceivable to apply a compressive force to the louver blades and round pipes alternately arranged by bolts and nuts, etc., and press the round pipes against the louvers. According to this measure, since the louvers can be connected by the rod body and the round pipe, it is possible to appropriately suppress the deformation as in the method using another method described above. Moreover, since it is only necessary to tighten the nut with respect to the bolt at only one place, the installation work is greatly simplified, which is a simpler measure than the method using the other vertical.

  However, this measure suffices if the louver blade is a solid member, but there are the following problems when the louver blade is a hollow member. That is, since the louver blade is hollow, the louver blade may be crushed and damaged when the round pipe is pressed against the louver blade.

  In contrast, in the present embodiment, a liner plate 50 is provided in the hollow portion 26 of the louver blade 20, and the end portion 42 of the round pipe 40 penetrating the wall portion 22 of the louver blade 20 is applied to the liner plate 50. I decided to let them touch. Therefore, the round pipe 40 is pressed not on the louver blade 20 but on the liner plate 50 located in the hollow portion of the louver blade 20, so that the louver blade 20 is not crushed and damaged. Moreover, since each louver blade | wing 20 can be joined by the round pipe 40, the liner plate 50, and the rod body 60, the effect by which a deformation | transformation is suppressed appropriately will also be show | played. Thus, according to the louver unit 10 according to the present embodiment, the deformation of the louver blade 20 can be suppressed without damaging the hollow louver blade 20.

  In the present embodiment, the wall portions 22 positioned at both end portions 20b in the width direction of the louver blade 20 are provided with gripping portions 25b for gripping a plate material (liner plate 50). The side portion 56 of the liner plate 50) is held by the holding portion 25b.

  Therefore, the plate material (liner plate 50) can be in an appropriate posture (that is, the thickness direction of the plate material is along the longitudinal direction of the round pipe 40, and the front surface 52 and the back surface 54 can properly contact the end portion 42 of the round pipe 40. In the hollow portion 26, the louver blade 20 is securely fixed.

  In the present embodiment, the louver blade 20 is attached to the housing 80 via the vertical 30.

  Therefore, the louver blade 20 is appropriately fixed to the housing 80.

=== Other Embodiments ===
The above embodiments are for facilitating the understanding of the present invention, and are not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and it is needless to say that the present invention includes equivalents thereof. In particular, the embodiments described below are also included in the present invention.

  In the above embodiment, the round pipe 40 is taken as an example of the interval holding tube, but the present invention is not limited to this. For example, a square pipe may be used.

  Moreover, in the said embodiment, although the contact member had the flat surface 51 and the said flat surface 51 contacted the edge part 42 of the round pipe 40, it is not limited to this. For example, the curved surface of the abutting member may abut on the end 42 of the round pipe 40.

  However, the above embodiment is preferable in that stable contact is realized and deformation of the louver blade 20 can be more appropriately suppressed.

  In addition, when the upper wall portion 23 and the lower wall portion 24 of the louver blade 20 have curved surfaces as in the above-described embodiment, the curved surface of the louver blade 20 is introduced by introducing a contact member having a flat surface 51. Pressing (contacting) the round pipe 40 is avoided, and the round pipe 40 is pressed (contacted) against the flat surface 51 of the contact member located in the hollow portion 26 of the louver blade 20, so that stable contact is achieved. Will be realized.

  Moreover, in the said embodiment, a contact member is a board | plate material, and the said board | plate material is provided in the hollow part 26 so that the thickness direction may follow the longitudinal direction of the round pipe 40, and is the flat surface 51 of the said board | plate material. Although the front surface 52 and the back surface 54 contact | abut to the said edge part 42 of the round pipe 40, it is not limited to this. That is, the liner plate 50 that is a plate material is used as the abutting member having the flat surface 51. However, the present invention is not limited to this, and any member that has the flat surface 51 may be used.

  In the plate material, since both the front surface 52 and the back surface 54 are flat surfaces 51 instead of one surface, more stable contact is realized, and deformation of the louver blade 20 can be more appropriately suppressed. Moreover, since a board | plate material is an easily available material, a cost merit also arises. In these respects, the above embodiment is more desirable.

  In the above-described embodiment, the plurality of louver blades 20 are arranged in the vertical direction with the longitudinal direction thereof being along the left-right direction, and the round pipe 40 and the rod body 60 are longitudinally aligned in the vertical direction. It was decided to be arranged along the direction.

  However, the present invention is not limited to this, and the plurality of louver blades 20 are arranged in the left-right direction with the longitudinal direction thereof being along the vertical direction, and the round pipe 40 and the rod body 60 are arranged in the longitudinal direction. May be arranged along the left-right direction.

  Further, the louver blades 20 are not limited to these, and the plurality of louver blades 20 are orthogonal to the first diagonal direction in a state in which the longitudinal direction is along the first diagonal direction (having an acute angle between the vertical direction and the horizontal direction). The round pipe 40 and the rod body 60 may be arranged so that the longitudinal direction thereof is along the second diagonal direction.

  Moreover, in the said embodiment, although the cross-sectional shape of the louver blade | wing 20 was decided to be elliptical, it is not limited to this. For example, as shown in FIGS. 9 to 13, the shape may be a circle, a rhombus, or a rectangle with a short side replaced with an arc, a rectangle, or a triangle. 9 to 13 are schematic diagrams showing first to fifth variations of the cross-sectional shape of the louver blade 20.

  Moreover, in the said embodiment, it forms in the wall part 22 located in the both ends 20b in the width direction of the louver blade | wing 20 from one end to the other end in the longitudinal direction of the louver blade | wing 20, and goes to the hollow part 26 side. Protruding portions 25 projecting in the width direction are provided, a central portion in the longitudinal direction of the projecting portions 25 is used as a grip portion 25b, and both end portions in the longitudinal direction of the projecting portions 25 are The screw hole 25a is used. That is, although the protrusion part 25 was used as both the screw hole 25a and the holding part 25b, it is not limited to this, You may provide both separately.

  For example, as in the fourth variation shown in FIG. 12, the screw hole 102 and the grip portion 104 may be provided separately. In the first to third variations shown in FIGS. 9 to 11, the screw hole 102 and the grip portion 104 are also used in the same manner as in the above embodiment. Further, the fifth variation shown in FIG. 13 has a configuration in which a shared portion and a non-shared portion are mixed. As described above, any of the above examples may be used.

  However, as described above, the above-described embodiment is preferable in that the protruding portion 25 can be efficiently used in two applications.

DESCRIPTION OF SYMBOLS 10 Louver unit 20 Louver blade, 20b Both ends 22 Wall part 25 Projection part, 25a Screw hole, 25b Gripping part 26 Hollow part 30 Vertical 37 Small mouth lid, 38 Screw 40 Round pipe, 42 End part 50 Liner plate 51 Flat surface, 52 Front surface, 54 Back surface 56 Side portion 60 Rod body, 76 Nut 80 Housing

Claims (6)

A louver blade having a wall portion and a hollow portion surrounded by the wall portion, and arranged at intervals;
An interval holding pipe that is provided in a state of penetrating the wall portion between two adjacent louver blades, and holds an interval between the two louver blades;
An abutting member provided in the hollow portion of the louver blade and abutting against an end of the spacing tube;
A plurality of
A rod body inserted into the plurality of spacing tubes in a state of penetrating each of the contact members;
A pressing portion provided on the rod body, for pressing the spacing tube against the contact member;
The exterior wall louver for buildings characterized by comprising. The building outer wall louver according to claim 1,
The contact member has a flat surface,
The building outer wall louver, wherein the flat surface is in contact with the end of the spacing tube. The outer wall louver for buildings according to claim 2,
The contact member is a plate material,
The plate material is provided in the hollow portion so that the thickness direction thereof is along the longitudinal direction of the spacing tube,
The outer wall louver for a building, wherein the flat and front surfaces of the plate material are in contact with the end portions of the spacing tube. The building outer wall louver according to claim 3,
The wall portions located at both ends in the width direction of the louver blade are each provided with a gripping portion for gripping the plate material,
The building outer wall louver is characterized in that a side portion of the plate member is held by the holding portion. The building outer wall louver according to claim 4,
Both ends in the longitudinal direction of the louver blade are openings,
A lid for closing the opening;
The wall portions located at both ends in the width direction of the louver blade are provided with projecting portions formed from one end to the other end in the longitudinal direction of the louver blade and projecting in the width direction toward the hollow portion side. And
A central portion in the longitudinal direction of the protruding portion is used as the gripping portion,
An outer wall louver for buildings, wherein both end portions of the projecting portion in the longitudinal direction are used as screw holes for fixing the lid portion to the louver blade with screws. The building outer wall louver according to any one of claims 1 to 5,
Have a further stand,
The building outer wall louver, wherein the louver blade is attached to the housing through the vertical.

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