CN115288588A - Veneer composite heat-insulation plastic-steel door and window and processing technology - Google Patents

Abstract

The utility model relates to a building door and window field, especially a compound thermal-insulated plastic-steel door and window of veneer and processing technology, this door and window include frame, inside casing, the inside casing rotate connect in the frame is inboard, the fixed annular post that is equipped with on the inside wall of frame, the fixed strip that is equipped with on the lateral wall of inside casing, be fixed with the column spinner on the fixed strip, the column spinner rotate connect in the annular post, just the column spinner with annular post coaxial line, the annular post has been seted up along direction of height and has been dodged the fixed strip and restriction column spinner turned angle's spacing groove restricts the turned angle who comes the column spinner through the spacing groove of seting up on the annular post to the turned angle of restriction inside casing avoids door and window to open the angle too big and take place to collide with the wall, causes the insulating layer on door and window surface to drop.

Description

Veneer composite heat-insulation plastic-steel door and window and processing technology

Technical Field

The application relates to the field of building doors and windows, in particular to a veneer composite heat-insulation plastic-steel door and window and a processing technology.

Background

The plastic-steel door and window is made up by using polyvinyl chloride resin as main raw material, adding a certain proportion of stabilizing agent, colouring agent, filling agent and UV-absorbing agent, extruding them into formed material, cutting, welding or screw-connecting them. And then a sealing rubber strip, a wool top, hardware and the like are assembled, and simultaneously, in order to enhance the rigidity of the section bar, a steel lining needs to be added in the cavity of the section bar with a certain length, so that the manufactured door window is called as a plastic-steel door window.

The existing plastic-steel door and window can be coated with heat insulation layers such as veneers and the like for enhancing heat insulation and fireproof performance, but the plastic-steel door and window is wide in opening range, the door and window is easy to collide with the cavity wall, the heat insulation layer is damaged and falls off, and the fireproof and heat insulation performance of the door and window is reduced.

Disclosure of Invention

In order to solve the problem that a heat insulation layer is easy to fall off, the application provides a veneer composite heat insulation plastic-steel door and window and a processing technology.

The application provides a thin wood composite heat insulation plastic-steel door and window adopts following technical scheme:

the utility model provides a compound thermal-insulated plastic-steel door and window of veneer, includes frame, inside casing, and the inside casing rotates to be connected in the frame inboard, fixedly on the inside wall of frame being equipped with annular post, fixedly on the lateral wall of inside casing being equipped with the fixed strip, is fixed with the column spinner on the fixed strip, and the column spinner rotates to be connected in the annular post, and column spinner and annular post coaxial line, and the annular post is seted up along direction of height and is dodged the spacing groove of fixed strip and restriction column spinner turned angle.

Through adopting above-mentioned technical scheme, the inside casing sets up in the frame inboard, and be connected with the rotation of annular post through the column spinner, realize the rotation between inside casing and the frame, thereby realize door and window's switch, because the column spinner is located in the annular post, set up out the spacing groove on the annular post, be used for avoiding letting the fixed strip be connected with the column spinner, and be used for restricting the turned angle of fixed strip, thereby restrict the turned angle of column spinner, avoid door and window switching range too big colliding with the wall, cause to cover the insulating layer damage of pasting on door and window and drop.

Further preferably, the radian of the limiting groove is larger than 45 degrees and smaller than 180 degrees.

Through adopting above-mentioned technical scheme, the turned angle of restriction column through the radian of spacing groove, the radian of spacing groove can increase after secondary operation cutting, enlarges door and window opening and closing angle's application scope, and the spacing groove radian is less than 180 in addition, can avoid column spinner and annular post to break away from at the rotation in-process.

Further preferably, the connecting pieces can be detachably fixed on the two inner side walls of the outer frame, the annular column is fixed on one of the connecting pieces, the two vertical outer side ends of the inner frame are respectively provided with a fixing strip and a rotating column, and the annular column is connected with the rotating column on one side of the annular column.

By adopting the technical scheme, the outer frame is provided with two connecting pieces, one connecting piece is fixedly provided with the annular column, when the inner frame is installed, the rotating column on one side relative to the annular column is connected with the inner frame, the rotating column on the other side is not connected with the connecting piece, and the inner frame can rotate around the connected rotating column and the connected annular column; the connecting piece and the outer frame can be detached, the connecting piece fixed with the annular column can be installed on the inner wall of the other side of the outer frame, the rotating direction of the inner frame can be changed at the moment, and different door and window opening and closing requirements can be met.

Further preferably, a friction pad is provided on the outer periphery of the spin column.

By adopting the technical scheme, the friction pad is used for increasing the friction force between the rotary column and the annular column during rotation, playing a role in damping and avoiding the inner frame from being switched on and off too fast; the opposite side then can be used as the handle with the column spinner of annular column connection and use, and the friction pad manual operation of being convenient for avoids skidding, and the column spinner sets up in the side of inside casing moreover, plays hidden effect, does not set up in door and window's surface for door and window surface is clean and tidy pleasing to the eye, makes things convenient for the door and window surface to paste the insulating layer moreover.

Further preferably, the two ends of the rotating column are rotatably connected with sleeves, and the sleeves are connected with the annular column in an interference fit manner.

Through adopting above-mentioned technical scheme, the sleeve can play the supporting role to the column spinner, prevents that column spinner and annular post from breaking away from along length direction, also can avoid the friction pad to drop from the column spinner.

Further preferably, the outer frame is U-shaped and includes a first base and two outer columns installed on the first base, and the two connecting members are respectively disposed at the side ends of the two outer columns relatively close to each other.

Through adopting above-mentioned technical scheme, through the frame that two outer columns and first base installation become the U type, the inside casing of being convenient for inserts the installation from U type opening part, and the connecting piece sets up the side that the outer column is close to also be convenient for with inside casing connection.

Further preferably, the inner frame is U-shaped and includes the second base and installs two inner vertical columns on the second base, two rotary columns set up respectively in the side that two inner vertical columns are kept away from relatively, the draw-in groove of installation glass has been seted up on the side that two inner vertical columns are close to relatively.

Through adopting above-mentioned technical scheme, the inside casing of U type is installed into through two inner columns and second base, and the installation is inserted from U type opening part to the glass of being convenient for to set up the fluting on the inner column, be convenient for fix glass, the side that the inner column kept away from was also convenient for to be connected with the connecting piece including the column spinner setting.

Further preferably, a plurality of cavities are formed in the outer stand column and the inner stand column, moisture-proof heat-insulating materials are filled in the cavities, and heat-insulating layers are coated on the surfaces of the outer frame and the inner frame.

Through adopting above-mentioned technical scheme, all carry out thermal-insulated processing in door and window inside and surface, improve door and window's heat-proof quality, in addition at inner frame switch in-process, the cavity in the inner column can expose, and the mode through cavity filler material is dampproofing thermal-insulated, and debris fall into in the cavity when can also avoiding the inner frame to open.

Further preferably, the cover plate is installed at the U-shaped opening of the outer frame, the cover plate is fixedly provided with two clamping blocks, and the two outer stand columns are provided with mounting grooves connected with the clamping blocks.

Through adopting above-mentioned technical scheme, the apron passes through the fixture block joint with the frame, and is easy to assemble to can avoid inside casing and frame to break away from and glass breaks away from with the inside casing.

The application also provides a processing technology of the veneer composite heat-insulation plastic-steel door and window, which comprises the following steps: and (3) extrusion molding: the outer upright post, the inner upright post, the connecting piece and the annular post are all formed by extrusion, the height of the outer upright post, the height of the connecting piece and the height of the annular post are the same and are all larger than the height of the inner upright post, and the radian of a limiting groove of the annular post is 45 degrees; fixing and forming: the first base is welded between the bottoms of the two outer stand columns to form an outer frame, the second base is welded between the bottoms of the two inner stand columns to form an inner frame, part of connecting pieces are welded with annular columns, and the height of the inner frame is the same as that of the outer stand columns; cutting: according to the use requirement of the opening angle of the door and the window, the annular column is cut, and the radian of the limiting groove is expanded; installing a friction pad: grooves for avoiding the fixing strips are cut on the friction pads, and the friction pads are sleeved on the rotating columns of the inner upright columns on the two sides; installing a connecting piece: connecting the connecting piece with the inner frame along the height direction, sleeving the annular column on the rotating column, enabling two end parts of the connecting piece in the height direction to be flush with the inner frame, sleeving the two end parts of the rotating column connected with the annular column with sleeves, and performing interference fit on the sleeves and the annular column; installing an inner frame: connecting the connecting piece with the outer frame along the height direction, and fastening and connecting the connecting piece with the outer frame; heat insulation: the cavities of the outer upright post and the inner upright post are filled with damp-proof heat insulation materials, and the surfaces of the inner frame and the outer frame are coated with heat insulation layers; and (3) mounting glass: inserting glass into the clamping grooves between the inner stand columns along the height direction, wherein the top of the glass is flush with the inner frame and the outer frame; installing a cover plate: the fixture block is inserted in the mounting groove, and the cross section of the cover plate is the same as that of the first base.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the application, the inner frame is provided with the rotary column, the outer frame is provided with the annular column, the rotary column is rotatably connected to the annular column and arranged in the annular column, and the limit groove formed in the annular column is used for limiting the rotation angle of the rotary column, so that the rotation angle of the inner frame is limited, the phenomenon that a door and window is too large in opening angle and collides with a wall is avoided, a heat insulation layer on the surface of the door and window falls off is caused, in addition, the radian of the limit groove is smaller than 180 degrees, the maximum expansion angle of the inner frame is limited, and the rotary column can be prevented from being separated from the annular column in the rotating process;

2. according to the further arrangement of the application, two connecting pieces are detachably mounted on the outer frame, the annular column is arranged on one of the connecting pieces, the connecting piece provided with the annular column is mounted on the inner wall of one side of the outer frame, the rotating column on the corresponding side of the inner frame is connected with the annular column, so that the inner frame is opened by rotating around the rotating column and the annular column, and according to the use requirements of the opening direction of doors and windows, when the connecting pieces are mounted, the connecting pieces provided with the annular column can be mounted on the inner wall of the outer frame on one side of the opening direction of the doors and windows, so that more use requirements are met;

3. in the further arrangement of the application, the moisture-proof and heat-insulating materials are filled in the door and the window, the heat-insulating layers are coated on the surfaces of the door and the window, the heat-insulating and moisture-proof performance of the door and the window is enhanced, in addition, the rotating column which is not connected with the annular column on the inner frame can be used as a handle and is arranged on the side wall of the inner frame, no additional handle is needed to be arranged, and the heat-insulating layers on the surfaces of the door and the window are not needed to be cut, so that the coating and the coating of the heat-insulating layers are facilitated;

4. in this application further sets up, the cover is equipped with the friction pad on the column spinner for on the column spinner be connected with annular post, through the friction pad can increase with annular post when rotatory between frictional force, play the effect of rotational damping, the column spinner not be connected with annular post is used as the handle, the friction pad then is convenient for manually operation, plays anti-skidding effect.

Drawings

FIG. 1 is a schematic view of the overall assembly structure of a thin wood composite heat insulation plastic-steel door window;

FIG. 2 is a schematic sectional top view of the door window after installation;

FIG. 3 is a schematic perspective view of the outer frame;

FIG. 4 is an enlarged schematic view of C in FIG. 3;

FIG. 5 is a perspective view of the inner frame;

FIG. 6 is an enlarged schematic view of D of FIG. 5;

FIG. 7 is a perspective view of the connector and annular post;

FIG. 8 is an enlarged schematic view of A in FIG. 2;

fig. 9 is an enlarged schematic view of B in fig. 2.

Description of reference numerals: 1. an outer frame; 2. an inner frame; 3. glass; 5. a connecting member; 6. an annular column; 7. a friction pad; 8. a sleeve; 11. an outer column; 12. mounting grooves; 13. a cavity; 15. a clamping part; 16. a first base; 21. an inner column; 23. a fixing strip; 24. rotating the column; 25. a card slot; 26. a corrugated surface; 27. a second base; 41. a cover plate; 42. a clamping block; 52. a bolt; 53. connecting grooves; 61. a limiting groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The application discloses compound thermal-insulated plastic-steel door and window of veneer, as attached figure 1-2, including frame 1, inside casing 2, set up connecting piece 5 between frame 1 and inside casing 2, install glass 3 on inside casing 2, and set up apron 41 on frame 1, frame 1 just pastes the insulating layer to covering on the both ends face of glass 3 with inside casing 2, the insulating layer adopts veneer skin material in this embodiment, in addition when frame 1 and inside casing 2 extrusion moulding, cavity 13 has all been seted up with inside casing 2 to frame 1, the opening of cavity 13 up, be convenient for inwards fill thermal-insulated dampproof material, improve the holistic thermal-insulated moisture barrier property of door and window.

As shown in the accompanying fig. 3-4, the outer frame 1 includes a first base 16 and two outer columns 11, the two outer columns 11 are formed by extrusion and are fixed on the first base 16 by welding, the outer frame 1 is integrally U-shaped, so that the inner frame 2 can be inserted and connected from top to bottom, the height of the inner frame 2 is the same as that of the outer columns 11, the inner frame 2 is inserted and connected behind the outer frame 1, the upper end face of the inner frame 2 is flush with the upper end faces of the outer columns 11, the cover plate 41 is convenient to install, the cover plate 41 is prevented from interfering with the inner frame 2, the outer edges and corners of the outer frame 1 are all subjected to fillet treatment, and scratches in the installation process are avoided.

In another embodiment of the present application for processing the outer frame 1, the first base 16, the two outer columns 11 and the cover plate 41 are integrally extruded and the cover plate 41 is separated from the outer frame 1 by cutting.

As shown in fig. 5-6, the inner frame 2 includes a second base 27 and two inner columns 21, the two inner columns 21 are formed by extrusion and fixed to the second base 27 by welding, the inner frame 2 is integrally U-shaped, so that the glass 3 can be inserted and connected from top to bottom, the upper end surface of the glass 3 is flush with the upper end surface of the inner column 21, and the interference of the cover plate 41 is avoided.

In another embodiment of the present application for processing the inner frame 2, the second base 27 and the two inner pillars 21 are integrally extruded.

Offer out draw-in groove 25 at the side that two inner vertical columns 21 are close to each other, the joint glass 3 of being convenient for avoids glass 3 to drop, and glass 3 all contacts with three faces of draw-in groove 25 in addition, all processes corrugated surface 26 on three faces of draw-in groove 25, and the rubber coating of being convenient for improves the fastening effect of 3 installations of glass, and wherein corrugated surface 26 can be processed out in step when inner vertical column 21 extrusion moulding, need not carry out secondary operation.

All seted up mounting groove 12 on two outer vertical columns 11, mounting groove 12 is together processed out when outer vertical column 11 extrusion moulding, there are two fixture blocks 42 through welded fastening on the apron 41, two fixture block 42 positions are just to mounting groove 12, on two fixture blocks 42 joint arrived mounting groove 12 on two outer vertical columns 11, it is the same with 16 cross-sections of first base to polish apron 41 processing, thereby can just cover 11 top end faces of outer vertical column, thereby can seal the upside opening of cavity 13, prevent that debris from getting into.

Like fig. 7, connecting piece 5 is provided with two and sets up respectively between two inner vertical columns 21 and two outer vertical columns 11, set up out the spread groove 53 that extends along the direction of height on the connecting piece 5, it is corresponding, set up joint portion 15 in spread groove 53 on the outer vertical column 11, joint portion 15 sets up outer vertical column 11 is close to indoor one side, make inside casing 2 install and be close to indoor one side in frame 1, in addition for improving connection fastening nature, through bolt 52 fixed connection between connecting piece 5 and the joint portion 15, and also make things convenient for the dismantlement of connecting piece 5 and joint portion 15.

In this embodiment, a vertically extending annular column 6 is fixedly arranged on the right end face of the left connecting piece 5, the right connecting piece 5 is not provided with the annular column 6, the height of the annular column 6 is the same as that of the connecting piece 5, the annular column 6 is fixed on the connecting piece 5 through welding, and in other embodiments, the annular column 6 and the connecting piece 5 can be integrally extruded and molded.

As shown in fig. 8-9, a rotating column 24 extending in the height direction is disposed at one side end of the inner upright column 21 close to the outer upright column 11, a fixing strip 23 is fixed between the rotating column 24 and the inner upright column 21, and the rotating column 24 and the fixing strip 23 are disposed at one side of the inner upright column 21 close to the indoor space.

Offer out spacing groove 61 on the annular post 6 for dodge fixed strip 23, be convenient for left column spinner 24 from last to inserting down and install in annular post 6, fixed strip 23 then passes spacing groove 61, column spinner 24 and 6 same and installation back coaxial line of annular post height, make column spinner 24 can rotate with annular post 6 relatively, thereby make inside casing 2 frame 1 rotate relatively, the axis of rotation is column spinner 24, 6 axes of annular post promptly, inside casing 2 is clockwise with glass 3's rotation direction this moment.

The rotation angle of the rotary column 24 and the inner frame 2 is restricted by the restriction of the fixing bar 23 by the stopper groove 61.

For avoiding 2 turned angle on-frame too big, lead to door and window can collide with the wall, the radian scope of spacing groove 61 is between 45-180, can carry out the secondary cutting to spacing groove 61 as required, enlarges the radian in above-mentioned radian within range. During extrusion molding, the radian of the limiting groove 61 is 45 degrees, a large allowance is provided for secondary processing, and when the radian of the limiting groove 61 is 180 degrees, the rotating column is easy to be separated from the annular column in the radial direction, so that the radian of the limiting groove 61 is smaller than 180 degrees.

The friction pad 7 is sleeved on the periphery of the rotating column 24, in order to facilitate installation of the friction pad 7, a groove for avoiding the fixing strip 23 is also formed in the friction pad 7, the friction pad 7 is used for increasing the friction force between the rotating column 24 and the annular column 6, and providing damping force when the rotating column 24 rotates relative to the annular column 6, so that the rotating speed of the inner frame 2 is prevented from being too large; and the column spinner 24 on right side is not connected with annular column 6, the column spinner 24 on right side this moment can be as the handle, the friction pad 7 then is convenient for manually pull inside casing 2, play the antiskid effect, need not set up extra handle on inside casing 2 surface, keep door and window surfacing, also make things convenient for the covering of insulating layer to paste, moreover, if set up the handle on inside casing 2 surface, then need cut the insulating layer and just can cover and paste the door and window surface, the insulating layer cuts the easy perk in position, lead to the insulating layer to drop.

The two ends of the rotating column 24 are rotatably connected with the sleeves 8, the sleeves 8 are connected with the annular column 6 in an interference fit manner, the rotating column 24 on the left side can be prevented from being separated from the annular column 6, and the friction pad 7 can be prevented from sliding off from the rotating column 24.

This application is to another embodiment that annular post and column spinner are connected, is provided with annular post 6 on the connecting piece 5 on right side, does not set up annular post 6 on the connecting piece 5 on left side, then sets up column spinner 24 on inside casing 2 right side and is connected with annular post 6, and inside casing 2 rotates around column spinner 24 on right side and annular post 6 this moment, and its direction of rotation is anticlockwise.

The application also discloses a processing technology of the veneer composite heat-insulation plastic-steel door and window, which comprises the following processing steps:

and (3) extrusion molding: the outer upright post 11, the inner upright post 21, the connecting piece 5 and the annular post 6 are all formed by extrusion, the height of the outer upright post 11, the height of the connecting piece 5 and the height of the annular post 6 are the same and are all larger than the height of the inner upright post 21, and the radian of a limiting groove 61 of the annular post 6 is 45 degrees;

fixing and forming: the first base 16 is welded between the bottoms of the two outer upright posts 11 to form an outer frame 1, the second base 27 is welded between the bottoms of the two inner upright posts 21 to form an inner frame 2, the height of the inner frame 2 is the same as that of the outer upright posts 11, and the annular posts 6 are welded on part of the connecting pieces 5;

cutting: according to the use requirement of the opening angle of the door and window, the annular column 6 is cut, the radian of the limiting groove 61 is expanded, and the radian of the limiting groove 61 is smaller than 180 degrees;

installing a friction pad: grooves avoiding the fixing strips 23 are cut on the friction pads 7, and the friction pads 7 are sleeved on the rotating columns 24 of the inner upright columns 21 at two sides;

installing a connecting piece: connecting the connecting piece 5 with the inner frame 2 along the height direction, sleeving the annular column 6 on the rotating column 24, enabling two end parts of the connecting piece 5 in the height direction to be flush with the inner frame 2, sleeving the sleeves 8 at two end parts of the rotating column 24 connected with the annular column 6, and enabling the sleeves 8 to be in interference fit with the annular column 6;

installing an inner frame: connecting the connecting piece 5 with the outer frame 1 along the height direction, and fastening and connecting the connecting piece 5 with the outer frame 1;

heat insulation: the cavities 13 of the outer upright post 11 and the inner upright post 21 are filled with damp-proof heat-insulating materials, and the surfaces of the inner frame 2 and the outer frame 1 are coated with heat-insulating layers;

installing glass: inserting the glass 3 into the clamping groove 25 between the inner columns 21 along the height direction, wherein the top of the glass 3 is flush with the inner frame 2 and the outer frame 1;

installing a cover plate: the latch 42 is inserted into the mounting groove 12, and the cross section of the cover plate 41 is the same as that of the first base 16.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a compound thermal-insulated plastic-steel door and window of veneer, includes frame (1), inside casing (2) rotate connect in frame (1) inboard, its characterized in that: the fixed annular post (6) that is equipped with on the inside wall of frame (1), the fixed strip (23) that is equipped with on the lateral wall of inside casing (2), be fixed with rotary column (24) on fixed strip (23), rotary column (24) rotate connect in annular post (6), just rotary column (24) with annular post (6) coaxial line, annular post (6) have been seted up along the direction of height and have been dodged fixed strip (23) and restriction rotary column (24) turned angle's spacing groove (61).

2. The veneer composite heat-insulation plastic-steel door window according to claim 1, characterized in that: the radian of the limiting groove (61) is larger than 45 degrees and smaller than 180 degrees.

3. The veneer composite heat-insulation plastic-steel door window according to claim 1, characterized in that: connecting pieces (5) can be detachably fixed on two inner side walls of the outer frame (1), the annular column (6) is fixed on one of the connecting pieces (5), the two vertical outer side ends of the inner frame (2) are respectively provided with the fixing strip (23) and the rotating column (24), and the annular column (6) is connected with the rotating column (24) on one side.

4. The veneer composite heat insulation plastic-steel door and window as claimed in claim 3, characterized in that: the periphery of the rotating column (24) is sleeved with a friction pad (7).

5. The veneer composite heat insulation plastic-steel door and window as claimed in claim 4, wherein: the two ends of the rotating column (24) are rotatably connected with sleeves (8), and the sleeves (8) are connected with the annular column (6) in an interference fit manner.

6. The veneer composite heat-insulation plastic-steel door window according to any one of claims 3 to 5, characterized in that: the outer frame (1) is U-shaped and comprises a first base (16) and two outer vertical columns (11) arranged on the first base (16), and the two connecting pieces (5) are respectively arranged at the side ends, close to the outer vertical columns (11), of the two outer vertical columns.

7. The veneer composite heat insulation plastic-steel door and window as claimed in claim 6, wherein: inside casing (2) are the U type and include second base (27) and install in two inner prop (21) on second base (27), two column spinner (24) set up respectively in two the side that inner prop (21) kept away from relatively, two draw-in groove (25) of installation glass (3) have been seted up on the side that inner prop (21) are close to relatively.

8. The veneer composite heat-insulation plastic-steel door window according to claim 7, characterized in that: a plurality of cavities (13) are formed in the outer upright column (11) and the inner upright column (21), moisture-proof heat-insulating materials are filled in the cavities (13), and heat-insulating layers are coated on the surfaces of the outer frame (1) and the inner frame (2).

9. The veneer composite heat insulation plastic-steel door and window as claimed in claim 8, characterized in that: a cover plate (41) is installed at the U-shaped opening of the outer frame (1), two clamping blocks (42) are fixedly arranged on the cover plate (41), and mounting grooves (12) connected with the clamping blocks (42) are formed in the two outer stand columns (11).

10. The processing technology of the veneer composite heat-insulation plastic-steel door and window as claimed in claim 9, characterized in that: the method comprises the following steps: and (3) extrusion molding: the outer upright post (11), the inner upright post (21), the connecting piece (5) and the annular post (6) are all formed by extrusion, the height of the outer upright post (11), the height of the connecting piece (5) and the height of the annular post (6) are the same and are all larger than the height of the inner upright post (21), and the radian of a limiting groove (61) of the annular post (6) is 45 degrees; fixing and forming: the first base (16) is welded between the bottoms of the two outer upright posts (11) to form an outer frame (1), the second base (27) is welded between the bottoms of the two inner upright posts (21) to form an inner frame (2), the annular posts (6) are welded on part of the connecting pieces (5), and the height of the inner frame (2) is the same as that of the outer upright posts (11); cutting: according to the use requirement of the opening angle of the door and window, the annular column (6) is cut, and the radian of the limiting groove (61) is expanded; installing a friction pad: grooves avoiding the fixing strips (23) are cut on the friction pads (7), and the friction pads (7) are sleeved on the rotating columns (24) of the inner upright columns (21) at two sides; installing a connecting piece: the connecting piece (5) is connected with the inner frame (2) along the height direction, the annular column (6) is sleeved on the rotating column (24), two end parts of the connecting piece (5) in the height direction are parallel to the inner frame (2), two end parts of the rotating column (24) connected with the annular column (6) are sleeved with the sleeves (8), and the sleeves (8) are in interference fit with the annular column (6); installing an inner frame: connecting the connecting piece (5) with the outer frame (1) along the height direction, and fastening and connecting the connecting piece (5) with the outer frame (1); heat insulation: the cavities (13) of the outer upright post (11) and the inner upright post (21) are filled with damp-proof heat insulation materials, and the surfaces of the inner frame (2) and the outer frame (1) are coated with heat insulation layers; installing glass: inserting the glass (3) into the clamping grooves (25) between the inner columns (21) along the height direction, wherein the top of the glass (3) is flush with the inner frame (2) and the outer frame (1); installing a cover plate: the clamping block (42) is inserted in the mounting groove (12), and the cross section of the cover plate (41) is the same as that of the first base (16).

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