CN214006853U - Aluminum alloy out-opening window sliding support positioning structure - Google Patents

Abstract

A sliding support positioning structure of an aluminum alloy outward-opening window belongs to the field of aluminum alloy windows and comprises a window frame outer section, a window frame inner section, a sliding support, a sash frame section, sash glass and a sliding support positioning element; the window frame outer section bar is arranged outside the window frame inner section bar, is linked with the window frame inner section bar and is connected with a window of a building; the window frame inner section is arranged inside the window frame outer section, connected with the window frame outer section and connected with the window frame section through hardware; the sliding support is one of hardware, is arranged between the window frame inner section and the sash frame section and is respectively connected with the window frame inner section and the sash frame section, and has the characteristics of accurate positioning of the sliding support, flexible opening and closing of the sash and good sealing performance.

Description

Aluminum alloy out-opening window sliding support positioning structure

Technical Field

The utility model belongs to aluminum alloy door and window field, in particular to sliding support location structure of aluminum alloy swinging-out casement window.

Background

Because the aluminum alloy window is light, corrosion-resistant, various in form, beautiful and firm, and widely applied to modern house buildings, in order to improve the heat-insulating property of the aluminum alloy window and door and realize the effect of saving energy, most of the existing aluminum alloy window and door adopt energy-saving aluminum profiles; the aluminum alloy outward-opening window is used as one type of aluminum alloy doors and windows, is convenient to use due to large window opening area, is favored by users, and has a basic structure that the window sash is fixed and opened according to the window frame and the window sash in the window frame in the window opening of a building, and the opened window sash can be opened and closed in the window frame; when the sliding support is installed on the existing aluminum alloy outward-opening window, the sliding support installation positioning structure is not provided, so that the installation precision of hardware of the outward-opening window is low, the sealing performance of the whole window is poor, and the overall performance of the outward-opening window is seriously influenced.

Disclosure of Invention

To the above-mentioned problem that current aluminum alloy swinging-out casement window exists, the utility model provides an aluminum alloy swinging-out casement window's sliding support location structure, the position accuracy of assurance sliding support installation on aluminum alloy swinging-out casement window that can be fine avoids because the inaccurate and casement switch and the location that produce of sliding support mounted position obstruct the problem, and its specific technical scheme is, an aluminum alloy swinging-out casement window sliding support location structure, its characterized in that: the window frame comprises a window frame outer section, a window frame inner section, a sliding support, a sash frame section, sash glass and a sliding support positioning element; the window frame outer section is arranged outside the window frame inner section, connected with the window frame inner section and connected with a window of a building; the window frame inner section is arranged inside the window frame outer section, connected with the window frame outer section and connected with the window frame section through hardware; the sliding support is one of hardware, is arranged between the window frame inner section and the sash frame section, and is respectively connected with the window frame inner section and the sash frame section; the sash frame section is arranged on the periphery of the sash glass and is connected with the window frame inner section through hardware; the window sash glass is arranged inside the window sash frame section bar, and the periphery of the window sash glass is connected with the window sash frame section bar; the sliding support positioning element is arranged on the window frame inner section and/or the fan frame section, is positioned at the sliding support mounting part of the window frame inner section and/or the fan frame section, is fixedly connected with the window frame inner section and/or the fan frame section, and can fix the relative position of the sliding support and the window frame inner section and/or the fan frame section.

Furthermore, the sliding support positioning element protrudes out of the sliding support mounting plane of the sash frame inner section bar or the sash frame section bar by more than 1 mm.

Furthermore, the connection mode of the sliding support positioning element and the window frame inner section bar or the sash frame section bar is threaded connection or riveting or welding or bonding.

In order to reduce the installation process, can adopt special aluminium alloy, also make into special section bar with section bar and fan frame section bar in the window frame, concrete technical scheme is, an aluminium alloy with sliding support location, its characterized in that: the fan frame section comprises a sliding support mounting seat, a fan frame positioning boss, a fan frame cavity, a line pressing clamping groove and a fan frame heat insulation bridge clamping groove; the sliding support mounting seat is positioned at the lower part of the cavity and is matched with the upper connecting part of the sliding support in shape and size; the fan frame positioning boss is arranged on one side edge of the sliding support mounting seat, protrudes out of the plane of the sliding support mounting seat, and protrudes to a height greater than the radius of a fillet on the side edge of the connecting part on the sliding support; the fan frame cavity is arranged at the upper part of the sliding support mounting seat and is a cavity formed by a plurality of side walls in a surrounding way; the pressing line clamping groove is arranged on the upper side wall of the cavity, and the shape and the size of the pressing line clamping groove are matched with those of a glass pressing line; the heat insulation aluminum alloy section bar needs a sash frame heat insulation bridge clamping groove, and if the heat insulation aluminum alloy section bar is not the heat insulation aluminum alloy section bar, the sash frame heat insulation bridge clamping groove does not need to be formed; the fan frame heat insulation bridge clamping groove is arranged on the right side edge of the cavity and is more than one, and the size and the shape of the fan frame heat insulation bridge clamping groove are matched with the size and the shape of the end part of the heat insulation bridge.

Furthermore, the window frame inner section comprises a cover plate, a cavity, a positioning boss, a seal clamping groove, a sliding support mounting table and a heat insulation bridge clamping groove; the cover plate is arranged on the left side of the cavity and is plate-shaped, and the cover plate shares the left side wall of the cavity; the cavity is positioned on the right side of the cover plate and is a cavity body formed by surrounding and blocking the peripheral side wall; the positioning boss is arranged on the sliding support mounting table, the position of the positioning boss is positioned on one side edge of the mounting position of the sliding support on the sliding support mounting table, the positioning boss protrudes out of the mounting plane of the sliding support mounting table, and the protruding height is greater than the radius of a fillet at the lower left side of a connecting seat at the lower part of the sliding support; the seal clamping groove is arranged at the upper end of the cover plate, the opening of the seal clamping groove faces the right direction, and the size and the shape of the seal clamping groove are matched with those of the installation part of the window frame seal; the sliding support mounting table is arranged on the upper side wall of the cavity, and the width of the sliding support mounting table is larger than that of the lower connecting part of the sliding support; in the same way, if the heat insulation aluminum profile is used, the heat insulation bridge clamping groove is needed, and if the heat insulation aluminum profile is not used, the heat insulation bridge clamping groove is not needed; the heat insulation bridge clamping grooves are arranged on the right side of the cavity and are more than one, and the size and the shape of the heat insulation bridge clamping grooves are matched with those of the end parts of the heat insulation bridge; that is to say, the direction of the thermal insulation bridge clamping groove on the cavity is consistent with the direction of the thermal insulation bridge clamping groove of the sash frame profile, so that thermal insulation is facilitated.

Advantageous effects

The beneficial effects of the utility model reside in that, can realize the quick accurate installation of sliding support to guarantee that the position between window frame and the casement is accurate, guaranteed the sealing performance of aluminum alloy external-open window and the flexibility of switching, improved the wholeness ability of building.

Drawings

FIG. 1 is a schematic structural diagram of the present invention

1. The window frame comprises a window frame outer section, a window frame inner section, a sliding support 3, a sash frame section, sash glass 5 and a sliding support 6.

FIG. 2 is a schematic cross-sectional view of a sash frame profile

41. The structure comprises a sliding support mounting seat, 42 fan frame positioning bosses, 43 fan frame cavities, 44 line pressing clamping grooves and 45 fan frame heat insulation bridge clamping grooves.

FIG. 3 is a schematic cross-sectional view of the inner profile of the window frame

21. The cover plate comprises a cover plate body 22, a cavity body 23, a positioning boss 24, a seal clamping groove 25, a sliding support mounting table 26 and a heat insulation bridge clamping groove.

Detailed Description

For further explanation of the technical solution of the present invention, the detailed practical manner of the present invention will be described with reference to the accompanying drawings; in the first embodiment, as shown in fig. 1, in the present embodiment, an energy-saving aluminum alloy out-opening window which is general in the industry is selected as an example, a window frame outer profile which is general in the industry and is provided with a heat insulation bridge is selected as a window frame outer profile 1, and the window frame outer profile 1 is installed on the inner wall of a window of a building and is fixedly connected with the window wall of the building; the method comprises the following steps of selecting a window frame inner section with a heat insulation bridge which is commonly used in the industry and matched with a window frame outer section 1 as a window frame inner section 2, installing the window frame inner section 2 on the inner side of the window frame outer section 1, fixedly connecting the window frame inner section 2 with the window frame outer section 1, and connecting the window frame inner section 2 with a window frame section 4 through hardware such as a sliding support, a hinge and the like; selecting a sliding support which is universal in the industry as a sliding support 3, installing the sliding support between a window frame inner section bar 2 and a sash frame section bar 4, fixedly connecting a lower connecting part of the sliding support 4 with a sliding support installing table on the window frame inner section bar, and connecting an upper connecting part of the sliding support 3 with a sliding support installing seat 41 at the lower part of the sash frame section bar 4; before connection, a positioning block commonly used in the industry is selected, in the embodiment, aluminum alloy square blocks are adopted as sliding support positioning elements 6, the sliding support positioning elements 6 are respectively bonded to the lower surface of a sliding support mounting seat 41 below a fan frame section 4 and the upper surface of a sliding support mounting table 25 of a window frame inner section 2 by adopting a bonding method and are positioned on the same side edge of a sliding support 3, and a plurality of small square block aluminum profiles can be matched according to the length of the sliding support 3, and a strip-shaped aluminum profile can also be matched as the sliding support positioning elements; the same side edge of the sliding support 3 is tightly attached to the side wall of the sliding support positioning element 6, and the sliding support 3 is fastened on the sash frame section bar 4 and the window frame inner section bar 2, so that the sliding support 3 cannot be fastened in a free state to cause position deviation, and the phenomenon that the opening and closing of a window sash is not flexible or poor in sealing is caused, and the installation position of the sliding support 3 is determined and consistent; selecting a sash frame section bar with a heat insulation bridge which is general in the industry as a sash frame section bar 4, mounting the sash frame section bar 4 at the periphery of sash glass 5, and connecting the sash frame section bar with a window frame inner section bar 2 through hardware; in the embodiment, the window sash glass of the aluminum alloy outward-opening window which is universal in the industry is selected as the window sash glass 5, the window sash glass 5 is arranged inside the window frame section bar 4, the periphery of the window sash glass is connected with the window frame section bar, the window sash glass 5 and the window frame section bar 4 are sealed and fastened by adopting the pressing line and the sealing strip which are universal in the industry, and thus the implementation of the utility model is completed.

Example two, as shown in fig. 1, 2, 3; the slide support mounting seat 41 is arranged at the lower part of the fan frame cavity 43 and is matched with the shape and the size of an upper connecting part of the slide support 3; the fan frame positioning boss 42 is arranged on one side of the sliding support mounting seat 41 and protrudes out of the plane of the sliding support mounting seat, and the protruding height is 2-3 mm; the fan frame cavity 43 is arranged at the upper part of the sliding support mounting seat 41 and is a cavity surrounded by a plurality of side walls; the pressing line clamping groove 44 is arranged on the upper side wall of the cavity, and the shape and the size of the pressing line clamping groove are matched with those of a glass pressing line; taking an energy-saving aluminum alloy outward-opening window as an example in the embodiment, the fan frame heat insulation bridge clamping groove 45 is arranged on the right side edge of the cavity, two clamping grooves are selected in the embodiment, the size and the shape of the clamping grooves are matched with those of the end part of the heat insulation bridge, so that the section structure of the fan frame section bar 4 is formed, a die is manufactured according to the section structure, and the aluminum alloy is drawn and molded to form the fan frame section bar 4; because the positioning boss 42 is solidified on the section bar by the fan frame, the installation and alignment of the sliding support positioning element 6 in the first embodiment are saved, the installation workload is reduced, and the integrity of the window body is good.

Similarly, the cover plate 21 is arranged on the left side of the cavity 22, is in a plate shape commonly used in the industry, and is shared with the left side wall of the cavity 22; the cavity 22 is arranged on the right side of the cover plate 21 and is surrounded by peripheral side walls to form a hollow cavity; the positioning boss 23 is arranged on the sliding support mounting table 25, the position of the positioning boss is positioned on one side edge of the mounting position of the sliding support 3 on the sliding support mounting table 25, and the positioning boss protrudes out of the mounting plane of the sliding support mounting table 25, and the protruding height is 2-3 mm; the seal clamping groove 24 is arranged at the upper end of the cover plate 21, the opening is rightward, and the size and the shape of the seal clamping groove are matched with those of a window frame seal installation part which is universally used in the industry and is matched with the window specification; the slide support mounting table 25 is arranged on the upper side wall of the cavity, and the width of the slide support mounting table is larger than that of the lower connecting part of the slide support 3; in this example, the energy-saving aluminum alloy outward-opening window is taken as an example, the heat insulation bridge clamping groove 26 is arranged on the right side of the cavity, so that the direction of the heat insulation bridge clamping groove is consistent with that of the fan frame heat insulation bridge clamping groove 45 on the fan frame section 4, an isothermal layer is favorably formed, and the heat insulation performance is improved; in this example, 2 heat insulation bridge clamping grooves 26 are selected, and the size and the shape of the heat insulation bridge clamping grooves are matched with those of the end parts of the heat insulation bridge; thus, the section structure of the sash frame inner section bar 2 is formed, a die is arranged according to the structure, and the aluminum alloy is drawn and formed to form the sash frame inner section bar 2.

The sash frame section bar 4 and the window frame inner section bar 2 in the first embodiment are replaced by the sash frame section bar 4 and the window frame inner section bar 2 in the present embodiment, the sliding support positioning elements are eliminated, and the other steps are the same as the first embodiment, so that the implementation of the present embodiment is completed; because the sliding support 3 is like the hinge, two parts of activity are installed respectively on two different parts, play the effect of the activity orbit of hookup these two parts and these two parts of control, consequently, there is the clearance between two connecting portion of self, consequently, if the installation is uncoordinated, will cause uncoordinated between casement and window frame, the wholeness of window is not good, and the switching of fan is also not smooth and easy, and the sealing performance of fan and frame is also poor, through the technical scheme's of the utility model experiment, overcome this defect, improved the wholeness and the sealing performance of window form, the switching of fan is also smooth and easy.

The up, down, left, right, etc. directional indications described herein are all referenced to the facing view direction.

Claims (3)

1. The utility model provides an aluminum alloy swinging-out casement window sliding support location structure which characterized in that: the window frame comprises a window frame outer section, a window frame inner section, a sliding support, a sash frame section, sash glass and a sliding support positioning element; the window frame outer section is arranged outside the window frame inner section, connected with the window frame inner section and connected with a window of a building; the window frame inner section is arranged inside the window frame outer section, connected with the window frame outer section and connected with the window frame section through hardware; the sliding support is one of hardware, is arranged between the window frame inner section and the sash frame section, and is respectively connected with the window frame inner section and the sash frame section; the sash frame section is arranged on the periphery of the sash glass and is connected with the window frame inner section through hardware; the window sash glass is arranged inside the window sash frame section bar, and the periphery of the window sash glass is connected with the window sash frame section bar; the sliding support positioning element is arranged on the window frame inner section and/or the fan frame section, is positioned at the sliding support mounting part of the window frame inner section and/or the fan frame section, is fixedly connected with the window frame inner section and/or the fan frame section, and can fix the relative position of the sliding support and the window frame inner section and/or the fan frame section.

2. The aluminum alloy out-opening window sliding support positioning structure of claim 1, which is characterized in that: the sliding support positioning element protrudes out of the sliding support mounting plane of the sash frame inner section or the sash frame section by more than 1 mm.

3. The aluminum alloy out-opening window sliding support positioning structure of claim 1, which is characterized in that: the connection mode of the sliding support positioning element and the window frame inner section bar or the window frame section bar is threaded connection or riveting or welding or bonding.

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