CN111219127A - Heat insulation door and window auxiliary frame section bar and manufacturing method thereof - Google Patents

Abstract

The lower part of the heat insulation door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat insulation door and window auxiliary frame section are provided with large-inside grooves and small-outside grooves, and the middle part of the heat insulation door and window auxiliary frame section is provided with a heat insulation cavity.

Description

Heat insulation door and window auxiliary frame section bar and manufacturing method thereof

Technical Field

The invention relates to the field of building doors and windows.

Background

In the conventional heat-insulating door and window auxiliary frame, a metal square tube steel lining is arranged in a cavity of the door and window auxiliary frame, the distance between the metal square tube steel lining and a door and window is small, and the heat-insulating property of the door and window is reduced.

The existing auxiliary frame of the heat-insulating door and window is connected with the right-angle inner corner connector at the right-angle joint, and the auxiliary frame of the heat-insulating door and window is low in strength, the right-angle joint connected with a screw is low in strength, and the auxiliary frame of the rectangular door and window is easy to deform.

The lower part of the heat insulation door and window subframe section is not searched, and the heat insulation door and window subframe section is provided with a large-inner groove and a small-outer groove, and the large-inner groove and the small-outer groove on one side or two sides are filled with foaming heat insulation materials.

And a right-angle extending plate is arranged on one side of the upper transverse plate of the heat-insulating door and window sub-frame section bar, and the end part of the other side of the upper transverse plate is provided with a heat-insulating door and window sub-frame section bar with an opening facing to a groove in the right-angle direction.

Disclosure of Invention

The purpose of the invention is: 1. the cavity in the middle of the heat-insulating door and window auxiliary frame section bar is provided with a large-inside groove and a small-outside groove at the lower part, the metal component is placed in the large-inside groove and the small-outside groove at the lower part of the heat-insulating door and window auxiliary frame section bar and is used for being connected with a door and a window, the connection strength of the door and the window is improved, the distance between the door and the window and the metal connection component is increased by connecting the cavity with the corner connector, the heat-insulating upper transverse plate and the heat. 2. The right-angle overhanging plate is arranged on one side of the upper transverse plate of the heat-insulation door and window auxiliary frame section bar, and has the door and window positioning effect when being placed outside, the waterproof effect and the effect of hanging the outdoor metal flashing plate, so that the outdoor metal flashing plate is prevented from falling off. 3. The extension board in right angle is established to horizontal board one side on the vice frame section bar of thermal-insulated door and window, the opening is established towards right angle direction recess to the opposite side tip, the extension board in right angle is placed when outdoor, door and window positioning action has, waterproof effect has, it acts as to articulate outdoor metal apron flashing, prevent that outdoor metal apron flashing from droing, through placing the cardboard in indoor side right angle direction recess, the cardboard blocks that door and window removes to indoor side, improve door and window's anti-wind pressure performance, another effect of cardboard prevents that the rainwater from getting into indoorly. 4. The heat insulation door and window auxiliary frame section bar is filled or co-extruded with a foaming heat insulation section bar in the large-outer-small groove on one side or two sides of the heat insulation door and window auxiliary frame section bar, so that the heat insulation performance of the heat insulation door and window auxiliary frame section bar is improved. 5. The extension plates are arranged on one side or two sides of the upper transverse plate of the heat-insulating door and window auxiliary frame profile, so that the number of connecting pieces can be reduced, the weight of the heat-insulating door and window auxiliary frame profile is reduced, and the cost of the heat-insulating door and window auxiliary frame profile is reduced.

The invention provides a heat insulation door and window subframe section, wherein the lower part of the heat insulation door and window subframe section is provided with a large-inside and small-outside groove, the two sides of the heat insulation door and window subframe section are provided with large-inside and small-outside grooves, and the middle part of the heat insulation door and window subframe section is provided with a cavity.

According to the other heat-insulating door and window auxiliary frame profile provided by the invention, the lower part of the heat-insulating door and window auxiliary frame profile is provided with the large-inside and small-outside grooves, the two sides of the heat-insulating door and window auxiliary frame profile are provided with the large-inside and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame profile is provided with the cavity, and the side surface of the upper transverse plate.

According to the other heat-insulating door and window auxiliary frame profile provided by the invention, the lower part of the heat-insulating door and window auxiliary frame profile is provided with the large-inside and small-outside grooves, the two sides of the heat-insulating door and window auxiliary frame profile are provided with the large-inside and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame profile is provided with the cavity, the side surface of the transverse plate of the heat-insulating door and window auxiliary frame profile is provided with the extending plate, and.

The advantages are that: 1. the two sides of the upper transverse plate are provided with the extending plates to reduce the weight of the section bar and the price of the section bar of the window auxiliary frame. 2. The foaming material or the co-extrusion foaming material is filled in the large-inner-outer-small groove on the outer side of the overhanging plate, so that the heat insulation performance of the heat insulation door and window auxiliary frame profile is improved.

The invention provides another heat-insulating door and window auxiliary frame section, wherein the lower part of the heat-insulating door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat-insulating door and window auxiliary frame section are provided with large-inside grooves and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame section is provided with a cavity, one side of an upper transverse plate of the heat-insulating door and window auxiliary.

The advantages are that: 1. the two sides of the upper transverse plate are provided with the extending plates to reduce the weight of the section bar and the price of the section bar of the window auxiliary frame. 2. The right-angle overhanging plate is used for positioning a window frame and preventing rainwater from entering a room. 3. The right-angle overhanging plate is used for hanging the metal flashing plate to prevent the metal flashing plate from falling off.

The invention provides another heat-insulating door and window auxiliary frame section, wherein the lower part of the heat-insulating door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat-insulating door and window auxiliary frame section are provided with large-inside grooves and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame section is provided with a cavity, one side of a transverse plate of the heat-insulating door and window auxiliary frame section is provided with an outward extending plate, the other side of the transverse plate is.

According to the other heat-insulating door and window auxiliary frame profile provided by the invention, the lower part of the heat-insulating door and window auxiliary frame profile is provided with the large-inside and small-outside grooves, the two sides of the heat-insulating door and window auxiliary frame profile are provided with the large-inside and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame profile is provided with the cavity, and the side surface of the upper transverse plate of.

The invention provides another heat-insulating door and window auxiliary frame section, wherein the lower part of the heat-insulating door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat-insulating door and window auxiliary frame section are provided with large-inside grooves and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame section is provided with a cavity, one side of an upper transverse plate of the heat-insulating door and window auxiliary.

The invention provides another heat-insulating door and window auxiliary frame section, wherein the lower part of the heat-insulating door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat-insulating door and window auxiliary frame section are provided with large-inside grooves and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame section is provided with a cavity, one side of an upper transverse plate of the heat-insulating door and window auxiliary frame.

The invention provides another heat-insulating door and window auxiliary frame section, wherein the lower part of the heat-insulating door and window auxiliary frame section is provided with a large-inside groove and a small-outside groove, the two sides of the heat-insulating door and window auxiliary frame section are provided with large-inside grooves and small-inside grooves, the middle part of the heat-insulating door and window auxiliary frame section is provided with a cavity, one side of an upper transverse plate of the heat-insulating door and window auxiliary frame section is provided with a right-angle extending plate, the other side of the upper.

The invention provides another heat-insulation door and window auxiliary frame section, wherein one side of the heat-insulation door and window auxiliary frame section is provided with a large-inside and small-outside groove, the middle part of the heat-insulation door and window auxiliary frame section is provided with a cavity, one side of a transverse cross plate of the heat-insulation door and window auxiliary frame section is provided with a right-angle overhanging plate, and the other side of the transverse cross plate of the heat-insulation door and window auxiliary frame.

According to the other heat-insulation door and window auxiliary frame section bar provided by the invention, one side of the heat-insulation door and window auxiliary frame section bar is provided with the large-inside and small-outside grooves, the middle part of the heat-insulation door and window auxiliary frame section bar is provided with the cavity, one side of the upper transverse plate of the heat-insulation door and window auxiliary frame section bar is provided with the right-angle overhanging plate, the large-inside and small-outside grooves in the outer side of the right-angle overhanging plate are filled with the foaming material or the co-.

The invention provides another heat-insulation door and window auxiliary frame section, wherein the side surface of the heat-insulation door and window auxiliary frame section is provided with a large-inside and small-outside groove, the middle part of the heat-insulation door and window auxiliary frame section is provided with a cavity, one side of an upper transverse plate of the heat-insulation door and window auxiliary frame section is provided with an extending plate, and the other side of the upper transverse plate of the heat.

According to the other heat-insulating door and window auxiliary frame section bar provided by the invention, the side surface of the heat-insulating door and window auxiliary frame section bar is provided with the large-inside and small-outside grooves, the middle part of the heat-insulating door and window auxiliary frame section bar is provided with the cavity, one side of the upper transverse plate of the heat-insulating door and window auxiliary frame section bar is provided with the outward extending plate, the other side of the upper transverse plate of the heat-insulating door and window auxiliary frame section bar is.

Above-mentioned thermal-insulated door and window subframe section bar includes: PVC heat insulation door and window subframe profile, PE heat insulation door and window subframe profile, PP heat insulation door and window subframe profile and wood-plastic composite heat insulation door and window subframe profile.

The manufacturing method of the heat insulation door and window auxiliary frame section comprises the following steps: 1. manufacturing a heat insulation door and window subframe section bar with a large outer groove in the side surface; 2. an outer die is wrapped outside the large and small grooves in the side surface, and a foaming material filling cavity is formed between the outer die and the large and small grooves in the side surface of the heat insulation door and window auxiliary frame section bar; 3. the foaming material enters a foaming material filling cavity, expands and cools, and the foaming material is combined with the large and small grooves inside and outside the heat insulation door and window subframe profile; 4. and moving out the outer die to manufacture the heat-insulating profile of the auxiliary frame of the heat-insulating door and window.

The manufacturing method of the hot door and window auxiliary frame section comprises the following steps: 1. manufacturing a die for a large-outer-side groove cavity and a door and window auxiliary frame section bar cavity in the side surface; 2. extruding the auxiliary frame material into the cavity of the door and window auxiliary frame sectional material by an extruder, extruding the foaming material into the cavity of the large and small grooves in the side surface by the extruder, and combining the foaming heat-insulating sectional material and the auxiliary frame material to manufacture the heat-insulating door and window auxiliary frame heat-insulating sectional material.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The invention is further described with reference to the drawings and examples in the following description.

Fig. 1 is a structural view of an end face of a three-groove and heat insulation door and window subframe profile having technical features of the present invention.

Fig. 2 is a structural view of the end face of a heat insulation door and window auxiliary frame profile with three grooves and two side overhanging plates, which has the technical characteristics of the invention.

FIG. 3 is a structural view of the end face of a heat insulation door and window auxiliary frame profile with three grooves, an overhanging plate at one side and a right-angle overhanging plate at the other side, which has the technical characteristics of the invention.

FIG. 4 is a structural view of the end face of a sectional material of a heat-insulating door and window auxiliary frame with a right-angle overhanging plate at one side and an inner groove at the other side, which has the technical characteristics of the invention.

Fig. 5 is a structural view of the end face of the lower groove and double-side inner groove heat insulation door and window auxiliary frame section bar with the technical characteristics of the invention.

Fig. 6 is a structural view of the end face of a double-sided groove and double-sided overhanging plate heat insulation door and window auxiliary frame profile with the technical characteristics of the invention.

FIG. 7 is a structural view of the end face of a heat insulation door and window auxiliary frame profile with double-side grooves, one side overhanging plate and the other side right-angle overhanging plate, which have the technical characteristics of the invention.

FIG. 8 is a structural view of the end face of a side groove, a right-angle outer extending plate at one side and an inner groove heat insulation door and window auxiliary frame section bar at the other side, which have the technical characteristics of the invention.

FIG. 9 is a structural view of the end face of the heat-insulating door/window sub-frame profile filled with the foam material in the lower groove and the lower grooves of the double-side outer extending plates, which is characterized in the present invention.

Fig. 10 is a structural view of an end face of a sectional material of an auxiliary frame of a heat insulation door and window, which is characterized in that the lower part of the sectional material of the auxiliary frame of the heat insulation door and window is provided with a large inner groove and a small outer groove, and foamed polyurethane is filled in the large inner groove and the small outer groove on the outer sides of an overhanging plate and a right-angle overhanging plate.

FIG. 11 is a structural view of the end face of the insulating door and window sub-frame profile with the lower groove and the groove at the outer side of the right-angle overhanging plate filled with the foaming material and the inner groove at the other side.

FIG. 12 is a structural view of an assembled end face of a heat-insulating door and window subframe profile and a wall body, which is provided with a right-angle overhanging plate at one side and an inner groove at the other side and has the characteristics of the invention.

FIG. 13 is a structural view of an assembled end face of a heat-insulating door/window subframe profile and a wall body, wherein polyurethane is poured into a lower groove of an overhanging plate at the other side of a right-angle overhanging plate at one side.

Example 1

The end face structure diagram of the three-groove connecting heat-insulating door and window auxiliary frame section bar is shown in figure 1, wherein: the heat-insulating door and window auxiliary frame comprises a heat-insulating door and window auxiliary frame body 1, a lower portion inner large outer small groove 2, an anti-falling projection 3, a connecting groove 4, a left side inner large outer small groove 5, a right side inner large outer small groove 6, a heat-insulating door and window auxiliary frame upper transverse plate 7, a heat-insulating door and window auxiliary frame lower transverse plate 8, a middle cavity 9, a reinforcing vertical rib 10 and a middle heat-insulating and corner code connecting cavity.

When the heat insulation door window auxiliary frame is used, the metal connecting piece is arranged in the lower large inner groove 2 and the lower large outer groove 2, the heat insulation connecting piece is arranged in the middle cavity 10, the reinforcing vertical ribs 9 are used for preventing the heat insulation door window auxiliary frame from deforming, the left large inner groove 5 and the left large outer groove 6 are used for connecting the heat insulation door window auxiliary frame fixing piece and the connecting window protection plate or the window sill plate, the building material is filled into the left large inner groove 5 and the left large outer groove 6, the building material and the heat insulation door window auxiliary frame sectional material are combined into a whole, the connection is firm, and cracking is prevented.

The invention has the advantages that: 1. the heat insulation connecting piece is arranged in the middle cavity 10, the metal connecting piece is arranged in the big-inside-big-outside-small groove 2 at the lower part, the connection of the two connecting pieces is realized, and the connecting strength is high. 2. The metal connecting piece is far away from the door and window frame, and has upper and lower diaphragm and thermal-insulated and angle sign indicating number connection cavity separation in addition, and it is effectual to keep warm, and 3, door and window frame screw pass upper and lower diaphragm and thermal-insulated and angle sign indicating number connection cavity are fixed on the metal connecting piece, realize that the multilayer is fixed, and joint strength is high.

Example 2

The end face structure diagram of the heat insulation door and window auxiliary frame profile with the three grooves and the two side overhanging plates is shown in figure 2, wherein: 11 is the sub-frame of thermal-insulated door and window, 12 is big outer little recess in the lower part, 13 is the anticreep arch, 14 is the spread groove, 15 is big outer little recess in the left side, 16 is big outer little recess in the right side, 17 is the sub-frame of thermal-insulated door and window goes up diaphragm, 18 is overhanging plate, 19 is the sub-frame of thermal-insulated door and window lower diaphragm, 20 is the enhancement grudging post, 21 is middle part thermal-insulated and angle sign indicating number connection cavity.

When the heat insulation door and window auxiliary frame is used, the metal connecting piece is arranged in the lower large inner groove 12 and the lower large outer groove 12, the heat insulation connecting piece is arranged in the middle cavity 21, the reinforcing vertical ribs 20 prevent the heat insulation door and window auxiliary frame from deforming, the left large inner groove 15 and the left large outer groove 15 and the right large inner groove 16 are used for connecting the heat insulation door and window auxiliary frame fixing piece and the connecting window protection plate or the window sill plate, the building material is filled into the left large inner groove 15 and the left large outer groove 16, the building material and the heat insulation door and window auxiliary frame sectional material are combined into a whole, the connection is.

The invention has the advantages that: 1. the heat insulation connecting piece is arranged in the middle cavity 10, the metal connecting piece is arranged in the big-inside-big-outside-small groove 2 at the lower part, the connection of the two connecting pieces is realized, and the connecting strength is high. 2. The metal connecting piece is far away from the door and window frame, and has an upper transverse plate, a lower transverse plate, a heat insulation and corner connection cavity for separation, so that the heat insulation effect is good. 3. The door and window frame screws penetrate through the upper transverse plate, the lower transverse plate and the heat insulation and corner brace connecting cavity to be fixed on the metal connecting piece, so that multi-layer fixation is realized, and the connecting strength is high. 4. The weight and the cost of the profile are reduced by the overhanging plate, and the foaming material is filled in the gap between the overhanging plate and the wall body, so that the heat insulation performance of the auxiliary frame of the heat insulation door and window is improved.

Example 3

The structure of the end face structure of the heat-insulating door and window auxiliary frame profile with the three grooves, the extending plate at one side and the right-angle extending plate at the other side, is shown in figure 3, wherein: 22 is the heat-insulating door and window subframe, 23 is big outer recess in the lower part, 24 is the anticreep arch, 25 is the spread groove, 26 is big outer recess in the left side, 27 is big outer recess in the right side, 28 is heat-insulating door and window subframe upper transverse plate, 29 is the overhanging plate, 30 is the right angle overhanging plate, 31 is heat-insulating door and window subframe lower transverse plate, 32 is the enhancement grudging post, 33 is middle part thermal-insulated and angle sign indicating number connection cavity.

When the heat insulation door and window auxiliary frame is used, the metal connecting piece is arranged in the lower inner large outer small groove 23, the heat insulation connecting piece is arranged in the middle cavity 33, the reinforcing vertical rib 32 prevents the heat insulation door and window auxiliary frame from deforming, the left inner large outer small groove 26 and the right inner large outer small groove 27 are used for connecting the heat insulation door and window auxiliary frame fixing piece and the connecting window protection plate or the window sill plate, the building material is filled into the left inner large outer small groove 26 and the right inner large outer small groove 27, the building material and the heat insulation door and window auxiliary frame sectional material are combined into a whole, the connection is firm, and cracking is.

The invention has the advantages that: 1. the weight and the cost of the profile are reduced by the overhanging plate, and the foaming material is filled in the gap between the overhanging plate and the wall body, so that the heat insulation performance of the auxiliary frame of the heat insulation door and window is improved. 2. The right-angle overhanging plate is used for positioning a window frame and preventing rainwater from entering a room.

Example 4

The structure of the end face structure of the auxiliary frame profile of the heat-insulating door and window with the right-angle overhanging plate at one side and the inner groove at the other side is shown in figure 4, wherein: 34 is the vice frame of thermal-insulated door and window, 35 is big outer little recess in the lower part, 36 is the anticreep arch, 37 is the spread groove, 38 is big outer little recess in the left side, 39 is the overhanging board of right angle, 40 is the inner groovy, 41 is inner groovy right angle baffle, 42 is the vice frame of thermal-insulated door and window upper transverse plate, 43 is the vice frame lower transverse plate of thermal-insulated door and window, 44 is the enhancement grudging post, 45 is the cavity is connected with the angle sign indicating number to middle part thermal-insulated.

During the use, place right angle plug-in components spliced pole in the big outer little recess 35 of lower part and the thermal-insulated and angle sign indicating number in the cavity 45 of being connected of middle part, realize that the three spliced poles of right angle department are connected, the outdoor side is arranged in to the overhanging board 39 of right angle, be used for door and window frame location and articulate outdoor side metal apron flashing, thermal-insulated connecting piece is put in cavity 45 with the angle sign indicating number is connected to the middle part thermal-insulated, strengthening rib 44 prevents that thermal-insulated door and window subframe warp, place the baffle in the inner groovy 40, the baffle joint is on the window frame section bar, prevent that the window frame section bar.

Example 5

The structure diagram of the end face of the lower groove and double-side inner groove heat-insulation door and window auxiliary frame section bar is shown in figure 5, wherein: 46 is the vice frame of thermal-insulated door and window, 47 is big outer little recess in the lower part, 48 is the anticreep arch, 49 is the connecting groove, 50 is left inner groovy, 51 is left inner groovy right angle baffle, 52 is right inner groovy, 53 is right inner groovy right angle baffle, 54 is the vice frame of thermal-insulated door and window goes up diaphragm, 55 is the vice frame of thermal-insulated door and window lower diaphragm, 56 is the enhancement grudging post, 57 is the cavity is connected with the angle sign indicating number to middle part thermal-insulated.

During the use, place metal connecting piece in the big outer little recess 47 in the lower part, place thermal-insulated connecting piece in the cavity 57 is connected with the angle sign indicating number to thermal-insulated and the angle sign indicating number in the middle part, strengthening rib 56 prevents that thermal-insulated door and window subframe from warping, place indoor side shield in inner groovy 50, place outdoor side shield in the inner groovy 52, indoor baffle joint is on window frame section bar, prevent window frame section bar inward movement, inner groovy right angle baffle 51 prevents that indoor side shield from droing, outdoor baffle joint is on window frame section bar, be used for the window frame location, prevent that the rainwater from getting into indoorly, inner groovy.

When in use, according to the site construction situation, an indoor side baffle is placed in the inner groove 50 or an outdoor side baffle is placed in the inner groove 52,

example 6

The end face structure of the heat insulation door and window subframe profile with the grooves on two sides and the overhanging plates on two sides is shown in figure 6, wherein: 58 is the heat-insulating door and window subframe, 59 is the big outer little recess in the left side, 60 is the board that stretches out on the left side, 61 is the big outer little recess in the right side, 62 is the board that stretches out on the right side, 63 is the heat-insulating door and window subframe upper transverse plate, 64 is heat-insulating door and window subframe lower transverse plate, 65 is the reinforcing stud, 66 is middle part heat-insulating and corner brace connecting cavity.

When the thermal insulation door and window auxiliary frame profile is used, the left inner large outer small groove 59 and the right inner large outer small groove 61 are used for filling foaming thermal insulation materials or building materials, the thermal insulation door and window auxiliary frame profile is connected with a wall body, the left outer extending plate 60 and the right outer extending plate 61 prevent the foaming thermal insulation materials from being impacted and damaged, the building materials are filled into the left inner large outer small groove 59 and the right inner large outer small groove 61, the building materials and the thermal insulation door and window auxiliary frame profile are combined into a whole, the connection is firm, and the cracking is prevented.

Example 7

The structure of the end face structure of the heat-insulating door and window auxiliary frame profile with the grooves on two sides, the overhanging plate on one side and the right-angle overhanging plate on the other side is shown in figure 7, wherein: 67 is the auxiliary frame of the heat-insulating door and window, 68 is the left-side inner big and outer small groove, 69 is the right-angle overhanging plate, 70 is the right-side inner big and outer small groove, 71 is the overhanging plate, 72 is the upper transverse plate of the auxiliary frame of the heat-insulating door and window, 73 is the lower transverse plate of the auxiliary frame of the heat-insulating door and window, 74 is the reinforcing stud, and 75 is the middle cavity.

When the thermal insulation door and window frame is used, the left inner large outer small groove 68 and the right inner large outer small groove 70 are used for filling foaming thermal insulation materials or building materials, the left right-angle overhanging plate 69 and the right overhanging plate 61 prevent the foaming thermal insulation materials from being impacted and damaged, the right-angle overhanging plate 69 is arranged on the outdoor side and used for positioning the door and window frame and hanging the outdoor metal flashing, a thermal insulation connector is arranged in the middle thermal insulation and corner code connecting cavity 75, the reinforcing rib 74 prevents the thermal insulation door and window auxiliary frame from being deformed, the building materials are filled into the left inner large outer small groove 68 and the right inner large outer small groove 70, the building materials and the thermal insulation door and window auxiliary frame are combined into a whole, the connection is firm.

Example 8

The end face structure diagram of the side groove, the right-angle overhanging plate at one side and the heat-insulating door and window auxiliary frame profile at the other side is shown in figure 8, wherein: 76 is the sub-frame of insulating door and window, 77 is the big outer little recess in left side, 78 is left side right angle baffle, 79 is the right inner groovy, 80 is right inner groovy right angle baffle, 81 is the sub-frame upper transverse plate of insulating door and window, 82 is the sub-frame lower transverse plate of insulating door and window, 83 is the enhancement grudging post, 84 is the middle part cavity pocket.

During the use, big outer little recess 77 is used for filling foaming insulation material or building material in the left side, the overhanging board 78 of left right angle prevents foaming insulation material striking destruction, strengthening rib 83 prevents thermal-insulated door and window subframe and warp, place indoor side baffle in the inner groovy 79, the inner baffle joint is on window frame section bar, prevent window frame section bar inward movement, left side right angle baffle 78 is placed in outdoor side, be used for door and window frame location and articulate outdoor side metal apron flashing, thermal-insulated connecting piece is placed in middle part thermal-insulated and angle sign indicating number connection cavity 84, building material fills in big outer little recess 77 in the left side, building material combines into an organic whole with thermal-insulated door and window subframe section bar, firm in connection, prevent the fracture.

Example 9

The structure of the end face structure of the heat-insulating door and window subframe profile filled with the foaming material in the lower groove and the lower grooves of the double-side overhanging plates is shown in figure 9, wherein: 85 is the vice frame of thermal-insulated door and window, 86 is big outer recess in the lower part, 87 is the anticreep arch, 88 is the spread groove, 89 is the vice frame of thermal-insulated door and window goes up diaphragm, 90 is left overhanging board, 91 is big outer recess in the left side, 92 is left foaming polyurethane, 93 is right overhanging board, 94 is big outer recess in the right side, 95 is right foaming polyurethane, 96 is the vice frame lower diaphragm of thermal-insulated door and window, 97 is the enhancement vertical bar, 98 is middle part thermal-insulated and corner brace connection cavity.

During manufacturing, the left foaming polyurethane 92 is filled or co-extruded in the large outer small groove 92 on the left side of the heat insulation door and window auxiliary frame 85, the right foaming polyurethane 95 is filled or co-extruded in the large outer small groove 95 on the right side of the heat insulation door and window auxiliary frame 85, and the reinforcing vertical ribs 97 prevent the heat insulation door and window auxiliary frame from deforming.

The invention has the advantages that: 1. the left foaming polyurethane 92 is filled or co-extruded in the large outer small groove 91 in the left side of the heat-insulating door and window auxiliary frame 85, and the right foaming polyurethane 95 is filled or co-extruded in the large outer small groove 94 in the right side of the heat-insulating door and window auxiliary frame 85, so that the heat-insulating performance of the heat-insulating door and window auxiliary frame is improved. 2. The overhanging plate 90 and the overhanging plate 93 prevent the foamed heat insulating profile from being damaged by impact.

Example 10

The end face structure diagram of the heat insulation door and window auxiliary frame profile, wherein the lower part of the heat insulation door and window auxiliary frame profile is provided with a large inner groove and a small outer groove, the outer side of an extending plate and a right-angle extending plate are filled with foamed polyurethane in the large outer groove and the small outer groove, is shown in figure 10, and the end face structure diagram comprises the following components in percentage by weight: 99 is the thermal-insulated door and window subframe, 100 is big outer recess in the lower part, 101 is the anticreep arch, 102 is the connecting groove, 110 is thermal-insulated door and window subframe upper transverse plate, 104 is the right angle overhanging plate, 105 is big outer recess in the left side, 106 is left foaming polyurethane, 107 is right overhanging plate, 108 is big outer recess in the right side, 109 is right foaming polyurethane, 110 is thermal-insulated door and window subframe lower transverse plate, 111 is the reinforcing vertical bar, 112 is middle part thermal-insulated and angle sign indicating number connection cavity.

During manufacturing, left foaming polyurethane 106 is poured or co-extruded into the large-outer-small groove 105 on the left side of the heat-insulating door and window auxiliary frame 99, right foaming polyurethane 109 is poured or co-extruded into the large-outer-small groove 108 on the right side of the heat-insulating door and window auxiliary frame 99, and the reinforcing vertical ribs 111 prevent the heat-insulating door and window auxiliary frame from deforming.

The invention has the advantages that: 1. the installation 106 of the left foaming roll is poured or co-extruded in the big outer small groove 105 in the left side of the heat-insulating door and window auxiliary frame 99, the right foaming polyurethane 109 is poured or co-extruded in the big outer small groove 108 in the right side of the heat-insulating door and window auxiliary frame 99, the heat-insulating performance of the heat-insulating door and window auxiliary frame is improved, and the foaming polyurethane is prevented from falling off by the big outer small groove 105 in the left side and the big outer small groove 108 in the right side. 2. The overhang plate 107 and the right-angle overhang plate 104 prevent the foamed heat insulating profile from being damaged by impact. 3. The right angle outrigger 104 is located outside the room for window frame positioning, preventing rain from entering the room.

Example 11

The structure of the end face structure of the profile of the heat-insulating door and window auxiliary frame with the lower groove and the groove at the outer side of the right-angle overhanging plate filled with the foaming material and the inner groove at the other side is shown in figure 11, wherein: 113 is the sub-frame of thermal-insulated door and window, 114 is big outer little recess in the lower part, 115 is the anticreep arch, 116 is the connecting groove, 117 is the sub-frame of thermal-insulated door and window upper transverse plate, 118 is the overhanging plate of right angle, 119 is big outer little recess in the left side, 120 is foaming polyurethane, 121 is right inner groovy, 122 is right inner groovy right angle baffle, 123 is the sub-frame of thermal-insulated door and window lower transverse plate, 124 is the enhancement grudging post, 125 is middle part thermal-insulated and angle sign indicating number connection cavity.

During the preparation, pour into or crowd left foaming polyurethane 120 altogether in the big outer little recess 119 in thermal-insulated door and window subframe 113 left side, strengthen the grudging post 124 and prevent that thermal-insulated door and window subframe warp, the outdoor side is arranged in to the overhanging board 118 in right angle for door and window frame location and articulate outdoor side metal apron flashing, the thermal-insulated connecting piece is placed in the cavity 125 with the angle sign indicating number is connected to the middle part thermal-insulated, place the baffle in inner groovy 121, the baffle joint prevents that the window frame section bar from to indoor removal, inner groovy right angle baffle 122 prevents that the baffle from droing.

The invention has the advantages that: 1. the installation 120 of the left foaming roll is poured or co-extruded in the big outer small groove 119 in the left side of the auxiliary heat-insulating door and window frame 113, and the right foaming polyurethane 120 is poured or co-extruded in the big outer small groove 119 in the right side of the auxiliary heat-insulating door and window frame 113, so that the heat preservation performance of the auxiliary heat-insulating door and window frame is improved, and the big outer small groove 119 in the left side and the foaming polyurethane 120 are prevented from falling off. 2. The right angle overhang 118 prevents the foamed insulating profile from being damaged by impact. 3. The right angle outrigger 104 is located outside the room for window frame positioning, preventing rain from entering the room.

Example 12

The structure of the end face structure of the heat-insulating door and window auxiliary frame section bar and the wall assembled by the right-angle overhanging plate at one side and the inner groove at the other side is shown in figure 12, wherein: 126 is a heat insulation door and window auxiliary frame, 127 is a lower inner large outer small groove, 128 is an inner groove, 129 is an inner groove right-angle baffle, 130 is a right-angle overhanging plate, 131 is a right-side inner large outer small groove, 132 is a heat insulation door and window auxiliary frame upper transverse plate, 133 is a heat insulation door and window auxiliary frame lower transverse plate, 134 is a middle heat insulation and angle code connecting cavity, 135 is an indoor side stop block, 136 is a stop block sealant, 137 is an aluminum alloy connecting plate, 138 is an auxiliary frame connecting plate, 139 is a connecting screw, 140 is a cement nail, 141 is an outdoor metal flashing, 142 is a flashing hook, 143 is a polyurethane single-sided rubber block, 144 is a weather-resistant rubber, 145 is heat-preservation mortar, 146 is grid cloth, 147 is a waterproof mortar layer, 148 is an indoor plastering layer, 149 is an indoor coating layer, 150 is a wall body, and 151 is a door and window frame.

When the door/window frame is used, an aluminum alloy connecting plate 137 is placed in the lower large-inside and small-outside groove 127, the aluminum alloy connecting plate 137 is connected to the auxiliary frame 126 of the heat-insulating door/window by the connecting screw 139, the auxiliary frame connecting plate 138 is connected to the aluminum alloy connecting plate 137 by the connecting screw 139, the auxiliary frame connecting plate 138 is fixed to the wall 150 by the cement nail 140, the polyurethane single-sided rubber block 143 is bonded to the indoor side of the right-angle overhanging plate 130, the door/window frame 151 is installed on the indoor side of the polyurethane single-sided rubber block 143, a gap between the door/window frame 151 and the auxiliary frame 126 of the heat-insulating door/window is filled with a foaming material, the door/window frame 151 is fixed to the auxiliary frame 126 of the heat-insulating door/window and the aluminum alloy connecting plate 137 by the screw, the indoor side stopper 135 is inserted into the inner groove 128 to fix the indoor side of the door/window frame 151, the gap between the indoor side stopper, the right-angle overhanging plate 130 and the weather-resistant glue 144 prevent the hook 142 of the outdoor metal flashing from falling off, the heat-insulating mortar 145 is embedded into the right-side large-inside and small-outside groove 131, and the heat-insulating mortar 145 is combined with the auxiliary frame 126 of the heat-insulating door and window.

The advantages of this embodiment are: 1. aluminum alloy connecting plates 137 are placed in the lower inner large outer small grooves 127, the door and window frame 151 and the aluminum alloy connecting plates 137 are connected together through the connecting screws 139, and the auxiliary frame connecting plates 138 are connected to the aluminum alloy connecting plates 137, so that the problem that the existing heat insulation door and window auxiliary frame section bars cannot be placed in the lower inner large outer small grooves 127, screws are connected with the heat insulation section bars, and the connection strength is low is solved. 2. The outdoor side right-angle overhanging plate 130 has a function of positioning the door and window frame, and prevents the door and window frame from being inclined. 2. The outdoor side right-angle overhanging plate 130 is sleeved with a flashing hook 142 and sealed by weather-resistant glue 144, so that the outdoor metal flashing hook 142 is prevented from falling off and has a waterproof function. 3. Indoor side dog 135 inserts in inner groovy 128 fixed with door and window frame 151 indoor side, and indoor side dog 135 has and prevents that door and window from to indoor side removal function and prevent that the rainwater from getting into indoor function, improves door and window's waterproof performance, and the function is pressed to the anti-wind, improves door and window's security performance.

Example 13

The structure of the end face of the heat insulation door and window auxiliary frame profile and the wall assembled by pouring polyurethane into the lower groove of the extension plate at the right angle of one side of the extension plate and the lower groove of the extension plate at the other side of the extension plate is shown in figure 13, wherein: 152 is a heat insulation door and window auxiliary frame, 153 is a lower inner large outer small groove, 154 is a left extending plate, 155 is a left inner large outer small groove, 156 is left foaming polyurethane, 157 is indoor sealant, 158 is a right angle extending plate, 159 is a right inner large outer small groove, 160 is a heat insulation door and window auxiliary frame upper transverse plate, 161 is a heat insulation door and window auxiliary frame lower transverse plate, 162 is a middle heat insulation and corner code connecting cavity, 163 is right foaming polyurethane, 164 is an aluminum alloy connecting plate, 165 is an auxiliary frame connecting plate, 166 is a connecting screw, 167 is a cement nail, 168 is an outdoor metal water-proof plate, 169 is a water-proof plate hook, 170 is a polyurethane single-sided rubber block, 171 is weather-proof glue, 172 is heat insulation mortar, 173 is grid cloth, 174 is a waterproof mortar layer, 175 is an indoor plastering layer, 176 is an indoor paint layer, 177 is a wall body, and 178 is a door and window frame.

When in use, the left foaming polyurethane 156 is poured or co-extruded into the left big-inside-outside groove 155, the right foaming polyurethane 163 is poured or co-extruded into the right big-inside-outside-small groove 159 to manufacture the auxiliary frame of the heat-insulating door and window, the aluminum alloy connecting plate 164 is placed in the big-inside-outside-small groove 153 at the lower part of the auxiliary frame of the heat-insulating door and window, the aluminum alloy connecting plate 164 is connected to the auxiliary frame 152 of the heat-insulating door and window by the connecting screw 166, the auxiliary frame connecting plate 165 is fixed on the wall 177 by the cement nail 167, the polyurethane single-sided rubber block 170 is adhered to the indoor side of the right-angle overhanging plate 158, the door and window frame 178 is installed at the indoor side of the polyurethane single-sided rubber block 170, the gap between the door and window frame 178 and the auxiliary frame 152 of the heat-insulating door and window is filled with foaming material, the screw 166 fixes the door and window frame 178 on the auxiliary frame 152 of the heat-insulating door and window, the, the right-angle overhanging plate 158 and the weather-resistant adhesive 171 prevent the hook 169 of the outdoor metal flashing from falling off, the heat-insulating mortar 172 is adhered to the surface of the right foamed polyurethane 63, and the heat-insulating mortar 172 is combined with the auxiliary frame 152 of the heat-insulating door and window.

The advantages of this embodiment are: 1. aluminum alloy connecting plates 164 are placed in the lower large inner grooves 153 and the lower large outer grooves 153, the door and window frames 178 are connected with the aluminum alloy connecting plates 164 through the connecting screws 166, the aluminum alloy connecting plates 164 are connected to the heat insulation door and window auxiliary frames 152, the auxiliary frame connecting pieces 165 are connected to the aluminum alloy connecting plates 164 through the connecting screws 166, and the problems that existing heat insulation door and window auxiliary frame profiles are free of the lower large inner grooves 153 and the lower outer grooves, the aluminum alloy connecting plates 164 cannot be placed, the screws are connected with the heat insulation profiles, and connection strength is low are. 2. The outdoor right-angle overhanging plate 158 has a function of positioning the door and window frame, and prevents the door and window frame from being inclined. 3. The outdoor right-angle overhanging plate 158 is sleeved with a flashing hook 169 and sealed by weather-resistant glue 171, so that the outdoor metal flashing hook 169 is prevented from falling off, and the outdoor right-angle overhanging plate 158 has a waterproof function. 4. The left foaming polyurethane 156 is poured or co-extruded into the left inner big outer small groove 155, and the right foaming polyurethane 163 is poured or co-extruded into the right inner big outer small groove 159 to manufacture the heat-insulating door and window auxiliary frame, which has the function of improving the heat insulation of the door and window auxiliary frame.

Claims (10)

1. The utility model provides a thermal-insulated door and window subframe section bar which characterized by: the lower part of the heat insulation door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the side surface is provided with a big-inside and small-outside groove, and the middle part is provided with a cavity.

2. The utility model provides a thermal-insulated door and window subframe section bar which characterized by: the lower part of the heat insulation door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the side surface is provided with a big-inside and small-outside groove, the middle part is provided with a cavity, and the side surface of the transverse plate on the heat insulation door and window auxiliary frame section bar is provided with an extending plate.

3. The utility model provides a thermal-insulated door and window subframe section bar which characterized by: the lower part of the heat insulation door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the side surface is provided with a big-inside and small-outside groove, the middle part is provided with a cavity, and the side surface of the upper transverse plate of the heat insulation door and window auxiliary frame section bar is provided with an opening inner groove.

4. The utility model provides a thermal-insulated door and window subframe section bar which characterized by: the lower part of the heat insulation door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the side surface is provided with a big-inside and small-outside groove, the middle part is provided with a cavity, one side of the upper transverse plate of the heat insulation door and window auxiliary frame section bar is provided with a right-angle extending plate, and the other side of the upper transverse plate of the heat insulation door and window auxiliary frame section bar is provided with an.

5. The utility model provides a thermal-insulated door and window subframe section bar which characterized by: the lower part of the heat insulation door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the side surface is provided with a big-inside and small-outside groove, the middle part is provided with a cavity, one side of the upper transverse plate of the heat insulation door and window auxiliary frame section bar is provided with an extending plate, and the other side of the upper transverse plate of the heat insulation door and window auxiliary frame section bar is provided with a right.

6. The insulating door/window subframe profile of claim 1, 2, 3, 4, 5 or 6, wherein: the side surface of the heat-insulating door and window auxiliary frame section bar is provided with a big-inside and small-outside groove, the middle part of the heat-insulating door and window auxiliary frame section bar is provided with a cavity, one side of the upper transverse plate of the heat-insulating door and window auxiliary frame section bar is provided with a right-angle extending plate, and the other side of the upper transverse plate of the heat-insulating door and window auxiliary.

7. The insulating door and window subframe profile of claim 1, 2, 3, 4, 5 or 6, wherein: the side surface of the heat-insulating door and window auxiliary frame section bar is provided with a big-inside-large small-outside groove, the middle part of the heat-insulating door and window auxiliary frame section bar is provided with a cavity, one side of an upper transverse plate of the heat-insulating door and window auxiliary frame section bar is provided with an extending plate, and the other side of the upper transverse plate of the heat-insulating door and window auxiliary.

8. The insulating door/window subframe profile of claim 1, 2, 3, 4, 5 or 6, wherein: the foaming material is poured into the large and small grooves in the side surface of the heat-insulating door and window auxiliary frame section bar or the co-extruded foaming material is poured into the large and small grooves in the side surface.

9. The manufacturing method of the heat insulation door and window auxiliary frame section comprises the following steps: 1. manufacturing a heat insulation door and window subframe section bar with a large outer groove in the side surface; 2. an outer die is wrapped outside the large and small grooves in the side surface, and a foaming material filling cavity is formed between the outer die and the large and small grooves in the side surface of the heat insulation door and window auxiliary frame section bar; 3. the foaming material enters a foaming material filling cavity, expands and cools, and the foaming material is combined with the large and small grooves inside and outside the heat insulation door and window subframe profile; 4. and moving out the outer die to manufacture the heat-insulating profile of the auxiliary frame of the heat-insulating door and window.

10. The manufacturing method of the hot door and window auxiliary frame section comprises the following steps: 1. manufacturing a die for a large-outer-side groove cavity and a door and window auxiliary frame section bar cavity in the side surface; 2. extruding the auxiliary frame material into the cavity of the door and window auxiliary frame sectional material by an extruder, extruding the foaming material into the cavity of the large and small grooves in the side surface by the extruder, and combining the foaming heat-insulating sectional material and the auxiliary frame material to manufacture the heat-insulating door and window auxiliary frame heat-insulating sectional material.

Images