JP2006241736A - Mounting frame body structure of window shutter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To adjust extending dimension to the outdoor side at the execution site and enable easy mounting execution even when structure on the building skeleton side, length of extrusion of a sash frame, structure of an external wall or the like are different at the time of mounting a frame body part of a window shutter to the building skeleton side. <P>SOLUTION: The mounting frame body structure has a backing frame 2 fixed to the building skeleton 51 side in the surrounding of an opening part 52 of a building and a mounting frame 7 constituting a mounting face overlaid relative to the backing frame 2 and fixed thereto and having a constituting member of a window shutter 61 to be arranged and fixed. The backing frame 2 and a mounting frame 7 have an uneven shape to be fitted with each other, and height is adjusted in a state that the mounting frame 7 is fitted to the backing frame 2 in adjusting mechanism 11 of screw jacking structure set in the backing frame 2. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a window shutter provided in a building opening such as a window portion of a building structure such as a house, and a window shutter mounting frame for disposing each component constituting the window shutter on the building frame side. It relates to body structure.

  A sash window is provided in a building opening such as a window portion of an architectural structure such as a house, and a window shutter is disposed on the outdoor side of the sash window. The upper, lower, left and right frames constituting the sash window are fixed to the building frame so as to be fitted into the building opening. Further, the window shutter is disposed around the sash frame, is disposed so as to surround the sash frame, and is provided with a structure extending to the outdoor side.

Conventionally, as shown in Patent Document 1 below, a guide vertical frame and a lower frame provided with a frame structure that extends to the outdoor side of the sash frame around the sash frame fixed in advance to the building frame side. In some cases, the connecting frame is fixed to the building frame side, these are used as the frame structure of the window shutter, and the guide rail and the shutter storage portion are arranged.
In addition, as shown in Patent Documents 2 and 3 below, there is a structure in which a sash frame and a frame portion such as a guide rail constituting a window shutter are integrally structured and assembled to the building frame side by one construction. It was.
Japanese Patent Laid-Open No. 9-60456 JP-A-10-148060 Japanese Patent Laid-Open No. 2001-146884

  However, in the conventional window shutter mounting structure described above, in Patent Document 1, the extension of the sash frame from the building frame, the engagement with the outer wall provided in the building frame, the thickness of the outer wall, etc. Extension length, that is, the position of the guide rail portion through which the shutter curtain actually passes is not arranged at an appropriate position, that is, the extension length from the building frame side is fixed, and the sash frame and A window shutter frame that fits into the outer wall is required for each construction site, and frame members with different protruding lengths are required depending on the structure of the building frame and the structure of the sash frame. Have.

  In addition, since the frame structure of the window shutters of Patent Documents 2 and 3 is an integral structure with the sash frame, it has an advantage that it can be easily attached to the building frame. For example, the sash frame is already provided. In order to incorporate a window shutter by retrofitting into an existing building opening, it is incorporated after the sash frame is removed, which has a disadvantage that is not versatile. Furthermore, because of the integral structure, when a failure or the like occurs on the window shutter side or the sash side and the case is removed from the building, both are replaced at the same time.

  Therefore, in order to solve the above problems, the present invention differs in the structure of the building frame side, the protruding length of the sash frame, the structure of the outer wall, etc. when the frame part of the window shutter is attached to the building frame side. However, an object of the present invention is to provide a window shutter mounting frame structure that can adjust the extension dimension to the outdoor side at a construction site and that can be easily installed.

Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
The window shutter mounting frame structure according to claim 1 of the present invention is a window shutter mounting frame structure that is located around a building opening and extends to the opening.
A base frame 2 (22) fixed to the building housing 51 side around the building opening 52, surrounding the building opening 52, and having a predetermined height with respect to the building housing 51 side;
The base frame 2 (22) is overlapped and fixed, raised to the base frame 2 (22), and has a predetermined height with respect to the building housing 51 side. An attachment frame 7 (27) constituting an attachment surface on which the constituent members are arranged and fixed;
It is characterized by comprising.

  This window shutter mounting frame structure is composed of the base frame 2 (22) and the mounting frame 7 (27), that is, has a split structure, so that the mounting frame 7 (27) is attached to the base frame 2 (22). ), And the height of the base frame 2 (22) plus the height of the mounting frame 7 (27), that is, the thickness of the mounting frame structure 1 (21) is increased. Thus, by setting this thickness to a predetermined length, the extension length from the outer wall of the building is set in a state of being fixed to the building housing 51. Thereby, the installation position of the window shutter 61 with respect to the building frame 51 is optimized, that is, when the window shutter 61 is provided on an existing part such as the sash frame 53 or the outer wall, the extension from the outer wall surface 51a is performed. It is possible to optimize the extension length.

  In the window shutter mounting frame structure according to claim 2, in the window shutter mounting frame structure according to claim 1, the base frame 2 (22) and the mounting frame 7 (27) are fitted to each other. It is characterized by being provided with an adjusting mechanism 11 (31) that is adjustable in shape and can be adjusted in height in a fitted state.

  In this window shutter mounting frame structure, the base frame 2 (22) and the mounting frame 7 (27) are divided, and the base frame 2 (22) and the mounting frame 7 (27) are provided with an adjusting mechanism 11. Since (31) is provided, the distance between the base frame 2 (22) and the mounting frame 7 (27) can be adjusted, that is, the thickness of the frame structure can be adjusted. Accordingly, by arranging and fixing the mounting frame structure 1 (21) to the building housing 51 side, the extension length from the outer wall of the building can be adjusted, and the mounting position of the window shutter 61 with respect to the building housing 51 is optimal. It will be a thing. That is, when the window shutter 61 is provided for existing portions such as the sash frame 53 and the outer wall, the extension length from the outer wall surface 51a can be made substantially optimal.

  In the window shutter mounting frame structure according to claim 3, in the window shutter mounting frame structure according to claim 2, the adjusting mechanism 31 is orthogonal to the overlapping direction of the base frame 22 and the mounting frame 27. The protrusions 32 and 33 are parallel to each other and are parallel to the building frame surface. The protrusions 32 formed on the base frame 22 and the protrusions 33 formed on the mounting frame 27 are fitted to each other. The mounting height of the mounting frame 27 with respect to the base frame 22 is adjusted by combining the combinations.

  In this window shutter mounting frame structure, the adjustment mechanism 31 is composed of a plurality of protrusions 32 and 33 that fit together, so that the extension length can be easily adjusted at the fitting position, and the window shutter 61 A desired extension length can be obtained by a simple operation in accordance with the site where the is attached.

  In the window shutter mounting frame structure according to claim 4, in the window shutter mounting frame structure according to claim 2, the adjusting mechanism 11 includes a screw jack structure support provided on the base frame 2, A tip of the support is brought into contact with the mounting frame 7 to fix the mounting frame 7 and the base frame 2.

  In this window shutter mounting frame structure, the adjustment mechanism 11 is a support having a screw jack structure, so that the extension length can be easily adjusted, and a desired extension length can be obtained according to the site where the window shutter 61 is attached. Can be obtained with simple work.

The window shutter mounting frame structure according to claim 5, wherein the window shutter mounting frame structure is located around a building opening and extends to the opening.
A frame-like member 42 having a predetermined length that is fixed to the building housing 51 side around the building opening 52, surrounds the building opening 52, and has a predetermined height with respect to the building housing 51 side; On the front and back surfaces of the frame-shaped member 42, convex portions and / or concave portions that are fitted to each other when the frame-shaped member 42 is stacked in the thickness direction are continuously formed in the length direction. The structural member of the window shutter 61 is disposed and fixed around the building opening 52 via the member 42.

  In this window shutter mounting frame structure, the frame-shaped member 42 can be configured to have a thickness extending from the building housing 51, and by configuring the frame-shaped member 42 in a plurality, For each thickness of the frame-shaped member 42, the thickness as the attachment frame structure 41, that is, the extension length can be set. Thus, by arranging and fixing the mounting frame structure 41 on the building frame 51 side, the extension length from the outer wall of the building can be adjusted for each thickness of the frame-shaped member 42, and the window shutter 61 for the building frame 51 can be adjusted. The mounting position is more optimal. That is, when the window shutter 61 is provided for existing portions such as the sash frame 53 and the outer wall, the extension length from the outer wall surface 51a can be made substantially optimal. The extension length can be easily adjusted by the number of the frame-like members 42, and a desired extension length can be obtained according to the site where the window shutter 61 is attached by a simple operation of only overlapping. Yes.

As described above, according to the window shutter mounting frame structure according to claim 1 of the present invention, the frame is composed of the base frame and the mounting frame, that is, has a divided structure. The height of the base frame plus the height of the mounting frame, that is, the thickness of the mounting frame structure is raised, and this thickness is set to a predetermined length. By setting to, the extension length from the outer wall of the building is set in a state of being fixed to the building frame.
As a result, the installation position of the window shutter with respect to the building frame is optimized, that is, the extension length from the outer wall surface is optimal when installing window shutters for existing parts such as sash frames and outer walls. Can be made.
Therefore, there is no need for a dedicated frame member or the like for arranging and fixing the window shutter at each construction site, and it is possible to perform adjustment and fixing at the site to perform optimum arrangement and fixing.

  According to the mounting structure of the window shutter according to claim 2, the base frame and the mounting frame are divided, and the base frame and the mounting frame are provided with the adjusting mechanism. Can be adjusted, that is, the thickness of the frame structure can be adjusted. Accordingly, by arranging and fixing the mounting frame structure on the building frame side, the extension length from the outer wall of the building can be adjusted, and the mounting position of the window shutter with respect to the building frame becomes optimal. That is, when a window shutter is provided for existing parts such as a sash frame and an outer wall, the extension length from the outer wall surface can be made substantially optimal.

  According to the mounting structure of the window shutter according to claim 3, the extension mechanism can be easily adjusted at the fitting position by configuring the adjusting mechanism with a plurality of protrusions that fit each other. A desired extension length can be obtained by a simple operation according to the site where the shutter is installed.

  According to the window shutter mounting frame structure according to claim 4, the adjustment mechanism is a screw jack structure support, so that the extension length can be easily adjusted, and the desired length can be selected according to the site where the window shutter is installed. It is possible to obtain the extension length by a simple operation.

According to the mounting structure of the window shutter according to claim 5, the thickness of the frame-shaped member can be configured as an extension length from the building frame, and a plurality of the frame-shaped members are configured. Thus, the thickness as the attachment frame structure, that is, the extension length can be set for each thickness of the frame-shaped member. As a result, by arranging and fixing this mounting frame structure on the building frame side, the extension length from the outer wall of the building can be adjusted for each thickness of the frame member, and the mounting position of the window shutter with respect to the building frame is more It will be optimal.
That is, when a window shutter is provided for existing parts such as a sash frame and an outer wall, the extension length from the outer wall surface can be made substantially optimal. And the extension length can be easily adjusted by the number of the frame-shaped members, and obtaining a desired extension length according to the site where the window shutter is installed is performed by a simple operation of only overlapping. Can do.

  Hereinafter, the window shutter mounting frame structure of the present invention will be described for each embodiment.

First Embodiment FIG. 1 is a side sectional view showing an embodiment of a window shutter mounting frame structure according to the present invention, FIG. 2 is a flat sectional view thereof, FIG. 3 is a schematic exploded perspective view thereof, and FIG. FIG.
The mounting frame structure of the present invention is composed of a vertical portion and a horizontal portion, and is arranged and configured in a square shape or a day shape as shown in FIG. 3, and is fixed to the building frame side. The vertical part and the horizontal part may be connected to each other. In the following description, since the vertical portion and the horizontal portion have a common configuration, the configuration of the mounting frame structure of one vertical portion will be described.

The attachment frame body structure 1 of the present embodiment is roughly composed of a base frame 2, an attachment frame 7, and an adjustment mechanism 11.
The base frame 2 is made of a long body having a substantially smooth installation surface portion 3 and a pair of support surface portions 4 and 5 extending perpendicularly to the installation surface portion 3 and having a substantially U-shaped cross section. . The base frame 2 has the installation surface portion 3 fixed to the building frame 51, and both support surface portions 4 and 5 project in parallel to each other on the outdoor side. In the present embodiment, as shown in FIG. 6, the recessed groove portion 6 is formed outside the joint angle portion between the installation surface portion 3 and the one support surface portion 4.

  The mounting frame 7 is made of a long body having a substantially smooth mounting surface portion 8 and a pair of fixed surface portions 9 and 10 extending perpendicularly to the mounting surface portion 8 and having a substantially U-shaped cross section. . The mounting frame 7 is set to a length equivalent to that of the base frame 2. The interval width between the fixed surface portions 9 and 10 of the mounting frame 7 is such that the inner width length is substantially equal to the outer width length of the respective support surface portions 4 and 5 of the base frame 2, that is, as shown in FIG. The mounting frame 7 is configured to be uneven with respect to the base frame 2 so as to fit each other at the outer position.

  In the present embodiment, as shown in FIG. 5, the adjustment mechanism 11 includes a support body having a screw jack structure, and includes a base portion 12 and a support portion 15. The base portion 12 constitutes the base end side of the adjustment mechanism 11, has a female screw portion 13 formed in a cylindrical shape, and includes a fixing plate 14 at the base end of the female screw portion 13. The support portion 15 constitutes the distal end side of the adjustment mechanism 11, has a male screw portion 16 that is screwed into the female screw portion 13 of the base portion 12, and a support plate 17 is provided at the tip of the male screw portion 16. Yes. In the adjusting mechanism 11, the fixed plate 14 of the base portion 12 is disposed and fixed in the base frame 2, and extends in the same direction as the extending directions of the support surface portions 4 and 5 of the base frame 2, as shown in FIG. To come. The support plate 17 of the support portion 15 that is the tip of the adjustment mechanism 11 is substantially parallel to the installation surface portion 3 of the base frame 2.

According to the adjustment mechanism 11, by rotating the support portion 15 with respect to the base portion 12, the support portion 15 can advance and retract in the axial direction, and the protruding length of the support plate 17 with respect to the base frame 2 can be varied. It becomes possible.
As shown in FIG. 4, a plurality of adjustment mechanisms 11 are provided in the longitudinal direction of the base frame 2, and the mounting frame 7 attached to the base frame 2 can be attached by aligning the respective protruding lengths. The surface portion 8 is substantially parallel to the installation surface portion 3 of the base frame 2. Preferably, the fixing plate 14 is fixed to the building housing 51 side together with the installation surface portion 3 of the base frame 2 by a fixing means 19 such as a screw.

  In the mounting frame structure 1 configured as described above, the base frame 2 is fixed to the building housing 51 side by a fixing means such as a screw, and is then positioned inside the base frame 2 and is adjusted on the installation surface portion 3. The support fixing plate 14 is fixed. A plurality of adjustment mechanisms 11 are arranged and fixed at predetermined intervals in the longitudinal direction of the base frame 2. The arrangement position of the adjustment mechanism 11 is, for example, every 300 mm.

Next, the male thread portion 16 of the support portion 15 of each adjustment mechanism 11 is rotated to adjust the protruding length with respect to the base portion 12. That is, the support portion 15 is protruded in the axial direction by rotating the support portion 15 with respect to the base portion 12.
Next, the attachment frame 7 is attached along the base frame 2 so as to cover the base frame 2. The attachment frame 7 causes the inner surface of the attachment surface portion 8 to abut on the support plate 17 of the adjustment mechanism 11. The fixed surface portions 9 and 10 of the mounting frame 7 are located outside the support surface portions 4 and 5 of the base frame 2.

After the mounting frame 7 is arranged with respect to the base frame 2, the mounting frame 7 and the base frame 2 are fixed by fixing means such as screws or tapping screws from outside the fixing surface portions 9 and 10 of the mounting frame 7. . Fixing means such as screws are provided at a plurality of locations along the longitudinal direction of the mounting frame 7 at predetermined intervals.
As a result, the mounting surface portion 8 of the mounting frame structure 1 is located on the outdoor side of the predetermined extension position with respect to the outer surface of the building housing 51, that is, the thickness of the mounting frame structure 1 is increased. The Rukoto.

And, as shown in FIG. 3, the mounting frame structure 1 described above is configured in a rectangular shape with a vertical part that is a pair of left and right sides, a lower edge part, an upper edge part, and an upper horizontal part, Fixed to the building frame 51. As shown in FIGS. 1 and 2, each mounting frame structure 1 is positioned so as to surround a sash frame 53 that is installed and fixed in advance in a building opening 52 on the building housing 51 side. The extension length can be adjusted.
In addition, the recessed groove part 6 of the base frame 2 in each mounting frame structure 1 is an outer peripheral position in a state of being fixed to the building housing 51 as shown in FIGS. A rectangular groove is formed with the wall surface 51a, and each concave groove portion 6 is filled with a sealing agent 55 so that waterproofing between the building outer wall surface 51a and the base frame 2 can be obtained.

  Thereafter, the constituent members constituting the window shutter 61, for example, the guide rail 62, the drainage frame 63, the shutter storage portion 64, and the like are fixed to the attachment surface portion 8 of the attachment frame 7 of each attachment frame body structure 1. . In addition, when fixing these parts 62, 63, 64, a fixing member such as a screw is penetrated at a position avoiding the position of the adjusting mechanism 11.

  Therefore, in the window shutter mounting frame structure configured as described above, the base frame 2 and the mounting frame 7 are divided, and the adjustment mechanism 11 is provided between the base frame 2 and the mounting frame 7. The distance between the installation surface 3 of the base frame 2 and the attachment surface 8 of the attachment frame 7 can be adjusted, that is, the thickness of the frame structure can be adjusted. Thereby, by arranging and fixing the mounting frame structure 1 on the building frame 51 side, the extension length from the outer wall of the building can be adjusted, and the mounting position of the window shutter 61 with respect to the building frame 51 becomes optimum. . That is, when the window shutter 61 is provided for existing portions such as the sash frame 53 and the outer wall, the extension length from the outer wall surface 51a can be optimized. In particular, since the adjusting mechanism 11 is a support having a screw jack structure, the extension length can be easily adjusted, and a desired extension length can be obtained by a simple operation according to the site where the window shutter 61 is attached. .

  In the above-described embodiment, the base portion 12 of the adjustment mechanism 11 is fixedly disposed on the installation surface portion 3 side of the base frame 2, and the support plate 17 of the support portion 15 is advanced and retracted from the base frame 2 side. Although shown, the adjusting mechanism 11 may be configured to fix and arrange the fixing plate 14 of the base portion 12 on the mounting frame 7 side, that is, as a configuration in which the support plate 17 advances and retreats from the mounting frame 7 side. The inner surface of the installation surface 3 of the base frame 2 may be brought into contact with the plate 17.

Second Embodiment FIG. 7 is a plan sectional view showing a second embodiment of a window shutter mounting frame structure according to the present invention.
In the second embodiment, portions equivalent to those in the first embodiment described above are denoted by the same reference numerals.

The attachment frame body structure 21 of the present embodiment is roughly composed of a base frame 22, an attachment frame 27, and an adjustment mechanism.
The base frame 22 is made of a long body having a substantially smooth installation surface portion 23 and a pair of support surface portions 24 and 25 extending perpendicularly to the installation surface portion 23 and having a substantially U-shaped cross section. . The base frame 22 has an installation surface portion 23 fixed to the building frame 51, and both support surface portions 24 and 25 project in parallel to each other on the outdoor side. In the present embodiment, as shown in FIG. 7, a recessed groove portion 26 is formed outside the joint angle portion between the installation surface portion 23 and the one support surface portion 24.

  The mounting frame 27 is formed of a long body formed in a substantially U-shaped cross section including a substantially smooth mounting surface portion 28 and a pair of fixed surface portions 29 and 30 extending perpendicularly to the mounting surface portion 28. . The mounting frame 27 is set to a length equivalent to the base frame 22. The distance between the fixed surface portions 29 and 30 of the mounting frame 27 is such that the inner width length is substantially equal to the outer width length of the support surface portions 24 and 25 of the base frame 22, that is, as shown in FIG. The mounting frame 27 is configured to be uneven with respect to the base frame 22 so as to fit each other at the outer position.

  In this embodiment, the adjustment mechanism 31 is formed on the base frame 22 and the mounting frame 27. The adjustment mechanism 31 includes a plurality of protrusions 32 and 33 that are parallel to each other in the longitudinal direction perpendicular to the overlapping direction of the base frame 22 and the mounting frame 27 and are parallel to the building frame surface 51a. Each protrusion 32 and 33 is formed so that each width length is substantially the same, each protrusion length is also formed substantially the same, and it is arranged with an interval of the same width as the width length. In the present embodiment, it is formed on the outer side of the other support surface 25 of the base frame 22 and the inner side of the other fixed surface 30 of the mounting frame 27, and faces each other with the mounting frame 27 attached to the base frame 22. They are designed to fit together. In addition, it is preferable that the width length of these protrusions 32 and 33 and the space | interval width | variety are mutually formed substantially equal.

  According to the adjusting mechanism 31, the fitting positions of the protrusions 32 and 33 between the base frame 22 and the mounting frame 27 are configured to be multistage in the direction orthogonal to the longitudinal direction. The fitting position can be adjusted at a pitch twice as long as the width. For example, if each width is formed as 5 mm, the distance between the mounting surface portion 23 of the base frame 22 and the mounting surface portion 28 of the mounting frame 27 can be adjusted at twice the 10 mm pitch, that is, as the frame structure 21, The thickness can be adjusted.

  In the mounting frame structure 21 configured as described above, first, the base frame 22 is fixed to the building housing 51 side by a fixing means (not shown) such as a screw.

  Next, the base frame 22 is attached along the base frame 22 so as to cover the mounting frame 27. At this time, the other support surface portion 25 of the base frame 22 and the other fixed surface portion 30 of the mounting frame 27 are fitted to each other with the plurality of protrusions 32 and 33 formed on the opposing surfaces. When the protrusions 32 and 33 are fitted to each other, the distance between the installation surface part 23 and the attachment surface part 28 is set to a desired length by changing the number of engagements between the plurality of protrusions 32 and 33 for each pitch. Is possible.

  In addition, one fixed surface portion 29 of the attachment frame 27 is attached to one support surface portion 24 of the base frame 22 so as to be located on the outside.

After the mounting frame 27 is arranged at a desired position with respect to the base frame 22, the mounting frame 27 and the base frame 22 are fixed from the outside of one fixing surface portion 29 of the mounting frame 27 by a fixing means such as a screw or a tapping screw. And are fixed. Fixing means such as screws are provided at a plurality of predetermined intervals along the longitudinal direction of the mounting frame 27.
Thereby, the attachment surface part 28 of the attachment frame body structure 21 will be located in the outdoor side of a predetermined extension position with respect to the outer surface of the building frame 51.

And the mounting frame structure 21 mentioned above is comprised in the substantially rectangular shape by the vertical part used as a pair of right and left, a lower edge part, an upper edge part, and an upper horizontal part, and is fixed to a building frame. (See FIG. 3). Each mounting frame structure 21 is positioned so as to surround the sash frame 53 that is installed and fixed in advance in the building opening 52 on the building frame 51 side, and the extension length from the outer wall surface 51a of the building can be adjusted. Become.
In addition, as shown in FIG. 7, the recessed groove part 26 of the base frame 22 in each attachment frame structure 21 is an outer peripheral position in a state of being fixed to the building housing 51, and the recessed groove part 26 is formed with the outer wall surface 51a. It becomes a rectangular groove | channel, and each groove part 26 is filled with the sealing agent 55, and the waterproofness of the building outer wall surface 51a and the base frame 22 is acquired.

  Thereafter, the constituent members constituting the window shutter 61, for example, the guide rail 62, the drainage frame 63, the shutter storage portion 64, and the like are fixed to the attachment surface portion 28 of the attachment frame 27 of each attachment frame structure 21. .

  Therefore, in the window shutter mounting frame structure configured in this way, the base frame 22 and the mounting frame 27 are divided, and the base frame 22 and the mounting frame 27 are provided with the adjusting mechanism 31. The distance between the installation surface portion 23 of the frame 22 and the attachment surface portion 28 of the attachment frame 27 can be adjusted, that is, the thickness of the frame structure can be adjusted. Thus, by arranging and fixing the mounting frame structure 21 on the building frame 51 side, the extension length from the outer wall of the building can be adjusted, and the mounting position of the window shutter 61 with respect to the building frame 51 becomes optimal. . That is, when the window shutter 61 is provided for existing portions such as the sash frame 53 and the outer wall, the extension length from the outer wall surface 51a can be made substantially optimal. In particular, the adjustment mechanism 31 is composed of a plurality of protrusions 32 and 33 that are fitted to each other, so that the extension length can be easily adjusted at the fitting position, and a desired extension according to the site where the window shutter 61 is installed. Obtaining the extended length can be done with simple work.

  In the above-described embodiment, the adjustment mechanism 31 is formed on the outer side of the other support surface portion 25 of the base frame 22 and the inner side of the other fixed surface portion 30 of the mounting frame 27, and has a plurality of so as to face each other and fit together. Although the example which comprised the protrusion 32 and 33 was described, either one of the support surface part 25 and the fixed surface part 30 and the protrusion 32 and 33 are comprised by one as shown in FIG. It is good as well. In this case, if the protrusion 32 on the side of the support surface 25 that is the outward projecting side is constituted by one and is provided only at the leading edge of the support surface 25, the base frame 22 and the mounting frame In the state where 27 is assembled, it is possible to combine the protrusions and the groove-shaped portions without appearing, and the appearance is improved.

  Furthermore, it is good also as forming one protrusion intermittently as a pin-shaped convex part 34, as shown to Fig.9 (a), not forming in the continuous stripe shape in a longitudinal direction. With such a configuration, the extension length can be easily adjusted at the fitting position with the protrusion 33 (32) in the same manner as described above. Further, in the configuration by the pin-shaped convex portion 34, the base frame 22 and the mounting frame 27 are arranged as shown in FIG. 9B by being arranged at two locations near the upper end and near the lower end. Can be assembled without making the installation surface portion 23 and the mounting surface portion 28 parallel to each other. For example, when the mounting surface on the building frame side is distorted in the longitudinal direction, or when the shutter components are assembled obliquely, etc. Is possible.

Third Embodiment FIG. 10 is a partially enlarged plan view showing a third embodiment of a window shutter mounting frame structure according to the present invention, FIG. 11 is an enlarged side sectional view of the same portion, and FIG. 12 is an enlarged same portion. It is a sectional side view.
In the third embodiment, the same portions as those in the first and second embodiments described above are denoted by the same reference numerals.

The attachment frame structure 41 of the present embodiment includes a frame-shaped member 42 having a predetermined length with a predetermined cross-sectional shape continuing.
As shown in FIG. 10, the frame-shaped member 42 is formed of a long body having a substantially U-shaped cross section. In the present embodiment, the frame body 43 and the support body 49 are used. The frame main body 43 has a recess 44 in the approximate center and is provided with a stepped portion 45 at each end edge, that is, a plate surface portion 46 to be a surface on which two protrusions are formed, and a back surface direction orthogonal to both end edges. A pair of side surface portions 48 extending and having protrusions 47 at the front end edges are formed in a substantially U-shaped cross section. The support body 49 is configured as a pair, is located at the back surface of the concave portion 44 at the substantially central portion of the plate surface portion 46 of the frame body 43, extends substantially parallel to the side surface portion 48, and is integrated with the frame body 43. Composed. The interval width between the supports 49 is substantially equal to the width of the recess 44 of the frame body 43.

  The frame-like member 42 is configured by a plurality, and can be used in an overlapping manner. That is, for example, as shown in FIG. 10, when two frame-like members 42 are configured and used, a predetermined thickness can be configured by overlapping each other. At this time, the lower frame-shaped member 42 on the building housing 51 side and the upper frame-shaped member 42 to which the constituent members of the window shutter 61 are attached are formed in the concave portion 44 of the lower frame-shaped member 42 in the upper frame-shaped member 42. The pair of supports 49 and 49 are fitted as convex portions, and the front edge of each side surface portion 48 of the upper frame member 42 is fitted to each step portion 45 and 45 of the lower frame member 42. , Each other will be superposed.

In the mounting frame structure 41 configured as described above, for example, in the case of using two as described above, first, the lower frame member 42 and the upper frame member 42 are overlapped. In the state, fixing means 50 such as a screw or a tapping screw is used on the building housing 51 side, and the both frame-shaped members 42 and 42 are fixed through. At this time, as described above, the upper and lower frame-shaped members 42 and 42 have the concave portion 44 and the convex portion (support body 49), the step portion 45 and the side edge portion 48 are fitted to each other, and the width direction members There will be no misalignment. Note that the fixing means 50 such as screws is provided at a plurality of predetermined intervals along the longitudinal direction of the frame-like member 42.
Thereby, with respect to the outer surface of the building frame 51, the surface of the upper frame-shaped member 42 of the mounting frame structure 41 is located on the outdoor side of the predetermined extension position, and the mounting surface of the constituent members of the window shutter 61 Become.

  And the mounting frame structure 41 mentioned above is comprised by five parts, a vertical part used as a left-right pair, a lower edge part, an upper edge part, and an upper horizontal part, and is fixed to the building frame 51 (FIG. 3). reference). Each mounting frame structure 41 is positioned so as to surround the sash frame 53 that is installed and fixed in advance in the building opening 52 on the building frame 51 side, and the extension length from the building outer wall surface 51a can be adjusted. Become. That is, in this embodiment, the thickness of the frame-like member 42 can be set as one unit, and the thickness can be set to a desired length by the number of components.

Thereafter, on the mounting surface of each mounting frame structure 41, each component constituting the window shutter 61, for example, a guide rail 62 (see FIG. 10), a draining frame 63 (see FIG. 12), a shutter storage portion 64, and a frame material. 65 (see FIG. 11) is fixed. In addition, in FIG.11, 12, it has shown as a figure at the time of comprising by one, without overlapping the frame-shaped member 42. FIG.
In addition, by forming an uneven surface as shown in FIGS. 10 and 12 on the surface of the structural member 41 that faces the surface of the frame-shaped member 42, without causing a deviation or the like in the mounting state with the frame-shaped member 42. Positioning and mounting can be performed, and workability and the like can be improved.
In addition, a sealing agent may be filled in a gap between the joint portions of the frame-like members 42, a gap between the outer wall surface 51a, and a gap shutter member, and the like to obtain waterproofness.

  Therefore, in the window shutter mounting frame structure 41 configured in this way, the thickness of the frame-shaped member 42 can be configured as an extension length from the building frame 51, and a plurality of the frame-shaped members 42 can be formed. With this configuration, the thickness of the mounting frame structure 41, that is, the extension length can be set for each thickness of the frame-like member 42. Thus, by arranging and fixing the mounting frame structure 41 on the building frame 51 side, the extension length from the outer wall of the building can be adjusted for each thickness of the frame-shaped member 42, and the window shutter 61 for the building frame 51 can be adjusted. The mounting position is more optimal. That is, when the window shutter 61 is provided for existing portions such as the sash frame 53 and the outer wall, the extension length from the outer wall surface 51a can be made substantially optimal. In particular, in this embodiment, the extension length can be easily adjusted by the number of the frame-shaped members 42 having the same shape, and a desired extension length can be obtained according to the site where the window shutter 61 is attached. It can be done with a simple task of just matching.

  In the above-described embodiment, the shape of the frame-like member 42 is described as an example of a substantially U-shaped cross section that is open on the lower surface side. However, as shown in FIG. It is good also as comprising with the frame-shaped member 72 made into the cross-sectional shape made into the shape of a hollow rectangular pipe with the shape which combined concave shape. According to the frame-like member 72 of this example, for example, when it is configured by two as shown in FIG. 13, the convex portion 73 on the front surface which is one surface and the concave portion 74 on the back surface which is the other surface. The attachment frame body structure 71 is comprised by making it mutually fit. In the frame-shaped member 72 having such a shape, as shown in FIG. 13A, the thickness as the attachment frame body structure 71 includes the thickness A excluding the convex portion 73 and the protruding length B of the convex portion 73. If the number of the frame-like members 72 is 2, the value 2A + B obtained by adding the projection length B of the projection 73 to the value obtained by multiplying the thickness A excluding the projection 73 by the thickness A of the mounting frame structure 71 That is, the extension length can be set.

Moreover, according to this hollow rectangular pipe-shaped frame-shaped member 72, as shown in FIG.13 (b), it superimposes so that convex parts 73 and 73 may face each other, or it superimposes so that the recessed part 74 side may be made to oppose. Thus, the attachment frame body structure 71 may be configured. In such a combination, as shown in FIG. 13B, if the number of frame-shaped members 72 is 2, the thickness A excluding the convex portion 73 and the protruding length B of the convex portion 73 are added. A numerical value 2A + 2B obtained by multiplying this by the number of frame-like members 72 = 2 can be set as the thickness of the attachment frame structure 71, that is, the extension length.
The frame-shaped member 72 is fixed to the building housing 51 using a fixing means such as a screw or a tapping screw in the same manner as the frame-shaped member 42 of the above-described embodiment (see FIGS. 10 to 12). 72 is penetrated and fixed. Preferably, the top surface of the convex portion 73 is formed with a concave portion into which a head such as a screw can be fitted, so that the top surface is not uneven, and is attached to the frame-shaped member 72. The constituent members of the window shutter 61 can be arranged without rattling. Moreover, it is good also as filling the sealing agent in the junction part of each frame-shaped member 72, and being able to acquire waterproofness.

  Further, as shown in FIG. 14, the hollow rectangular pipe shape of the above-described example is further formed with protrusions 85 that swell in width on both sides, and the same as the protrusions 83 on the surface. The frame-shaped member 82 may be configured as a shape in which the piece portions 86 extending in the direction are provided in parallel to each other at the edge of each projecting portion 85. In the case of the frame-shaped member 82 having this shape, since the piece portions 86 are formed on both sides of the convex portion 85, both sides of the convex portion 85 are formed in a concave shape, and both sides of the concave portion 84 on the back surface are formed. It will be formed in a convex shape, and by overlapping the frame-shaped members 82, the front and back surfaces will be fitted to each other by the concave portion 84 and the convex portion 83 as shown in FIG. . Also in this frame-shaped member 82, as shown in FIG. 14B, the mounting frame body structure 81 may be configured by overlapping so that the convex portions 83 on the surface face each other. Also in the case of such a shape, similarly to the above example, if the number of the frame-shaped members 82 is 2, when the protrusions 83 and the recesses 84 are overlapped so as to be fitted, the protrusions 83 The value 2A + B obtained by adding the projection length B of the convex portion 83 to the numerical value obtained by multiplying the thickness A excluding the thickness A can be set as the thickness of the mounting frame structure 81, that is, the extension length. When they are overlapped as if they are abutted with each other, the thickness A excluding the convex portion 83 and the protruding length B of the convex portion 83 are added, and a value 2A + 2B obtained by multiplying this by the number of frame members 82 = 2 is attached. It is possible to set the thickness of the frame structure 81, that is, the extension length.

In such a frame-shaped member 82, both side surfaces as an appearance become a substantially smooth shape due to the one piece 86. Thus, when the frame-shaped member 82 is composed of a plurality of layers and overlapped, the appearance on the both side surfaces is uneven. It does not become a shape, and design properties are not impaired.
Note that the frame-shaped member 82 is fixed to the building housing 51 using a fixing means such as a screw or a tapping screw in the same manner as the frame-shaped member 42 of the above-described embodiment (see FIGS. 10 to 12). 82 is penetrated and fixed. Preferably, the top surface of the convex portion 83 is formed with a concave portion into which a head such as a screw can be fitted, so that the top surface is not uneven, and is attached to the frame-shaped member 82. The constituent members of the window shutter 61 can be arranged without rattling. Moreover, it is good also as filling the sealing part in the junction part of each frame-shaped member 82, and being able to acquire waterproofness.

Further, instead of the hollow rectangular pipe shape as described above, as shown in FIG. 15, one side surface 96 is a smooth surface, and the other side surface 97 is bent in a substantially L shape in the middle, Thus, a substantially U-shaped frame-shaped member 92 may be configured in which the width on the back surface side is slightly narrow and the width of the opening on the back surface side is slightly narrow. In this frame-shaped member 92, for example, in the case of two, as shown in FIG. 15A, the wide-side portion 93 on the front surface side of one frame-shaped member 92 is connected to the back surface side of the other frame-shaped member 92. When the narrow portions 94 are overlapped facing each other, that is, when they are overlapped in the same direction, the extension length can be configured to be twice the thickness of the frame-shaped member 92. That is, when the thickness of the narrow portion 94 on the opening side is A and the thickness of the wide portion 93 is B, if the frame-like member 92 is composed of two, the total thickness 2A + 2B Is the thickness of the mounting frame structure 91. Further, as shown in FIG. 15B, the narrow portions 94 are fitted to each other by making one frame-shaped member 92 and the other frame-shaped member 92 face each other with the U-shaped opening portions 95 facing each other. In this case, if the thickness of the narrow portion 94 on the opening side is A and the thickness of the wide portion 93 is B, if the two frame-shaped members 92 are configured, The total thickness A + 2B of the total thickness 2B of the wide portion 93 and the thickness A of the narrow portion is the thickness of the mounting frame structure 91.
In such a frame-shaped member 92, one side surface 96 has a substantially smooth shape. Thus, when the frame-shaped member 92 is composed of a plurality of layers and overlapped, the appearance of the one side surface 96 is uneven. It does not become a shape, and design properties are not impaired. Further, when the other side surface 97 is bent and overlapped so as to face each other, the other side surface 97 that is bent with respect to one side surface 96 is fitted and combined in the opening. The wide portions 93 are overlapped with each other, and a substantially smooth mounting frame structure 91 having no irregularities in its appearance is obtained. The frame-shaped member 92 is fixed to the building housing 51 using a fixing means such as a screw or a tapping screw in the same manner as the frame-shaped member 42 of the above-described embodiment (see FIGS. 10 to 12). 92 is penetrated and fixed. Preferably, the outer surface of the wide portion 93 is formed with a recess into which a head such as a screw can be inserted, so that the outer surface does not have an unevenness and is attached to the frame-shaped member 92. The constituent members of the shutter 61 can be arranged without rattling. Moreover, it is good also as filling the sealing part in the junction part of each frame-shaped member 92, and being able to acquire waterproofness.

  In addition, in the frame-shaped members 42, 72, 82, and 92 in the respective embodiments shown in FIGS. 10 to 15 described above, a plurality of frame-shaped members having the same thickness are overlapped on the outside so as to be desired. Although it is made into thickness and it is set as an attachment frame body structure, it is good also as comprising the thickness of each frame-shaped member differently. In this case, by preparing multiple types of different thicknesses, the combination of them can be easily set to the desired thickness, and the thickness as the mounting frame structure, that is, the extension length is set more optimally. It becomes possible.

It is a sectional side view which shows embodiment of the attachment frame body structure of the window shutter by this invention. It is a plane sectional view of the attachment frame structure. It is a general | schematic disassembled perspective view of the same attachment frame structure. It is a partially expanded perspective view of the same attachment frame structure. It is a perspective view of an adjustment mechanism. It is a plane sectional view of the attachment frame structure. It is a partially expanded sectional view which shows 2nd Embodiment of the attachment frame body structure of the window shutter by this invention. It is a schematic perspective view of the base frame or attachment frame which shows the attachment frame body structure of other embodiment. It is the figure which showed the exploded perspective view which shows the attachment frame structure of other embodiment in (a), and the perspective view in (b). It is a partially expanded sectional view which shows 3rd Embodiment of the attachment frame body structure of the window shutter by this invention. It is the same part enlarged side sectional view, It is the same part enlarged side sectional view. It is a schematic sectional drawing which shows the attachment frame structure of other embodiment. It is a schematic sectional drawing which shows the attachment frame structure of other embodiment. It is a schematic sectional drawing which shows the attachment frame structure of other embodiment.

Explanation of symbols

1, 21, 41, 71, 81, 81 ... Mounting frame structure 2, 22 ... Base frame 7, 27 ... Mounting frame 11, 31 ... Adjustment mechanism 32, 33 ... Projection 42, 72, 82, 92 ... Frame shape Member 51 ... Building frame 52 ... Building opening 53 ... Sash frame 61 ... Window shutter

Claims (5)

A window shutter mounting frame structure that is positioned around a building opening and extends to the opening,
A base frame that is fixed to the building housing side around the building opening, surrounds the building opening, and has a predetermined height with respect to the building housing side;
A mounting surface that is fixed to the base frame in an overlapping manner, is raised with respect to the base frame, has a predetermined height with respect to the building housing side, and on which the constituent members of the window shutter are arranged and fixed. A mounting frame to be configured;
A window shutter mounting frame structure characterized by comprising:   The said base frame and the said attachment frame are provided with the adjustment mechanism which makes the uneven | corrugated shape which mutually fits, and can adjust the height in the state fitted. The window shutter mounting frame structure.   The adjustment mechanism is composed of a plurality of parallel protrusions that are orthogonal to the overlapping direction of the base frame and the mounting frame and are parallel to the building frame surface, and the protrusions and the mounting that are configured in the base frame The window shutter mounting frame structure according to claim 2, wherein the mounting height of the mounting frame with respect to the base frame is adjusted by combining the fittings with the protrusions formed on the frame. .   The adjustment mechanism includes a support body having a screw jack structure provided on the base frame, the front end of the support body abuts on the mounting frame, and the mounting frame and the base frame are fixed. Item 3. A window shutter mounting frame structure according to Item 2. A window shutter mounting frame structure that is positioned around a building opening and extends to the opening,
A frame-shaped member having a predetermined length that is fixed to a building frame side around the building opening, surrounds the building opening, and has a predetermined height with respect to the building frame side. On the front and back surfaces of the member, convex portions and / or concave portions that are mutually fitted when the frame-shaped member is stacked in the thickness direction are continuously formed in the length direction, and the building is interposed via the frame-shaped member. A window shutter mounting frame structure, wherein the window shutter constituent members are arranged and fixed around an opening.

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