CN112282578A - Filling combined heat insulation door and window - Google Patents

Abstract

The high polymer material section bar overhanging hook is inserted into the aluminum alloy section bar hook groove to manufacture an opening filling cavity formed by the high polymer material section bar and the aluminum alloy section bar, the filling heat insulation material enters the opening filling cavity, the filling heat insulation material is solidified to manufacture a filling heat insulation section bar, the filling heat insulation section bar connects the high polymer material section bar and the aluminum alloy section bar together, and the filling combination heat insulation door and window is manufactured by the filling combination heat insulation section bar.

Description

Filling combined heat insulation door and window

Technical Field

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

Background

The existing PU resin filled combined heat insulation door and window is made of PU resin filled heat insulation section bars, the PU resin heat insulation section bars are formed by filling PU resin in U-shaped opening cavities of aluminum alloy section bars, after the PU resin is solidified, connecting ribs below the U-shaped openings of the aluminum alloy section bars are removed through machining, and the PU resin heat insulation section bars are filled in the middle of inner and outer aluminum alloys.

The PU resin heat insulation section is filled in the middle of the inner aluminum alloy and the outer aluminum alloy which are manufactured by removing the connecting ribs under the U-shaped opening of the aluminum alloy section through machining, the outdoor aluminum alloy section transfers heat to the indoor aluminum alloy section through the PU resin, and when the door and window indoor aluminum alloy section is cold, the surface of the door and window indoor aluminum alloy section is dewed, so that the energy-saving effect is poor.

The existing upper and lower parting beads of the inner and outer aluminum alloy profiles are filled with resin to form the heat insulation door and window profiles, polyurethane foaming materials are filled in cavities formed by the upper and lower parting beads of the inner and outer aluminum alloy profiles, the outdoor aluminum alloy profiles transfer heat to the indoor aluminum alloy profiles through the upper and lower parting beads and the filled polyurethane foaming materials, and when the door and window are cold, the surfaces of the indoor aluminum alloy profiles of the door and the window are dewed, so that the energy-saving effect is poor.

The report that a filling cavity is formed by a high polymer material section and an aluminum alloy section, filling heat insulation materials enter the filling cavity to manufacture a filling heat insulation section, the filling heat insulation section connects the high polymer material section and the aluminum alloy section together to manufacture a filling combined heat insulation section, and the filling combined heat insulation section is used for manufacturing a filling combined heat insulation door and window is not found.

Disclosure of Invention

The purpose of the invention is as follows: 1. the utility model provides a door and window of making by indoor side macromolecular material section bar and middle part packing thermal-insulated section bar and outdoor side aluminum alloy section bar combination thermal-insulated section bar, because indoor side macromolecular material section bar and outdoor side aluminum alloy section bar are connected through filling high strength PU resin, joint strength is high, non-deformable, because indoor side macromolecular material section bar and the direct connection of filling high strength PU resin, realize the stack of two kinds of heat-proof properties of indoor side macromolecular material section bar and packing high strength PU resin, solve and fill the indoor side aluminum alloy section bar of high strength PU resin and reduce the problem of heat-proof property, improve the heat preservation property of filling thermal-insulated section bar and door and window. 2. The utility model provides a door and window by indoor side macromolecular material section bar and middle part packing thermal-insulated section bar and aluminum alloy section bar and outdoor side macromolecular material section bar combination thermal-insulated section bar preparation, because indoor side macromolecular material section bar and aluminum alloy section bar are connected through filling high strength PU resin, joint strength is high, non-deformable, because indoor side macromolecular material section bar and the direct connection of filling high strength PU resin, realize the stack of two kinds of heat-proof properties of indoor side macromolecular material section bar and packing high strength PU resin, solve the indoor side aluminum alloy section bar of packing high strength PU resin and reduce the problem of heat-proof property, improve the heat preservation performance of filling thermal-insulated section bar and door and window, because outdoor side adopts the macromolecular material section bar, aluminum alloy section bar and outdoor side cold and hot air are by the separation of macromolecular material section bar, improve the heat preservation performance. 3. Put the end in the polymer material section bar group angle intracavity and connect the lock pin through well club, the bolted connection lock pin is built-in to well club polymer material section bar group angle chamber both sides recess, and the end is connected the lock pin and is linked together with the bolted connection lock pin, realizes that well club section bar and end are connected lock pin and bolted connection lock pin three and are connected, improves the joint strength of well club section bar and window frame section bar, solves the poor problem of well club polymer material section bar joint strength. 4. Two steps are arranged on the outer extending wall of the lower portion of the window sash high polymer material section bar, the sealing strip is embedded in the groove of the window frame, two sealing ribs on the sealing strip are respectively in contact sealing with the two steps on the outer extending wall of the lower portion of the window sash high polymer material section bar, and the sealing performance of the heat insulation door and window filled with the PU resin combination is improved.

The invention provides a filling combined heat insulation door and window, which comprises: the fixed window, the opening window and the window accessories are made of indoor side high polymer material section bars, middle filling heat insulation section bars and outdoor side aluminum alloy section bars.

The invention provides another filling combined heat insulation door and window, which comprises: the method comprises the following steps: the window is fixed, the window is opened, the window accessory is filled and combined with the heat insulation door and window, and the door and window is made of an indoor side high polymer material section, an indoor side middle filling heat insulation section, an outdoor side middle aluminum alloy section and an outdoor side high polymer material section.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material section is arranged on the indoor side, an aluminum alloy section is arranged on the outdoor side, a filling heat insulation material enters a filling cavity formed by the high polymer material section and the aluminum alloy section, the filling heat insulation material is solidified to form a filling heat insulation section, the high polymer material section and the aluminum alloy section are connected together by the filling heat insulation section, the high polymer material section on the indoor side, the filling heat insulation section and the aluminum alloy section on the outdoor side are manufactured into the filling combined heat insulation section together, and the filling combined heat insulation section is used for manufacturing the filling combined heat.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material section is arranged on the indoor side, an aluminum alloy section is arranged in the middle of the outdoor side, a high polymer material section is arranged on the outdoor side, a filling heat insulation material enters a filling cavity formed by the high polymer material section and the aluminum alloy section, the filling heat insulation material is solidified to form the filling heat insulation section, the filling heat insulation section connects the high polymer material section and the aluminum alloy section together, the indoor side high polymer material section, the filling heat insulation section, the outdoor side aluminum alloy section and the outdoor side high polymer material section are manufactured into the filling combined heat insulation section together, and the filling combined heat insulation door and window is manufactured by.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material profile is arranged on the indoor side, an aluminum alloy profile is arranged on the outdoor side, a hook extending outwards from the high polymer material profile is inserted into a hook groove of the aluminum alloy profile to manufacture an opening filling cavity formed by the high polymer material profile and the aluminum alloy profile, a filling heat insulation material enters the opening filling cavity, the filling heat insulation material is solidified to manufacture a filling heat insulation profile, the filling heat insulation profile connects the high polymer material profile and the aluminum alloy profile together, the indoor side high polymer material profile, the filling heat insulation profile and the outdoor side aluminum alloy profile are manufactured into the filling combined heat insulation profile together, and the filling combined heat insulation door and window is manufactured.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material profile is arranged on the indoor side, an aluminum alloy profile is arranged on the outdoor side, an upper overhanging hook and a lower overhanging hook of the high polymer material profile are inserted into an upper hook groove and a lower hook groove of the aluminum alloy profile to manufacture a filling cavity formed by the high polymer material profile and the aluminum alloy profile, a filling heat insulation material enters the filling cavity and is manufactured into the filling heat insulation profile after the filling heat insulation material is solidified, the filling heat insulation profile connects the high polymer material profile and the aluminum alloy profile together, the indoor high polymer material profile, the filling heat insulation profile and the outdoor aluminum alloy profile are manufactured into the filling combined heat insulation profile together, and the filling combined.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material profile is arranged on the indoor side, an aluminum alloy profile is arranged in the middle, a high polymer material profile is arranged on the outdoor side, an outward extending hook of the high polymer material profile is inserted into a hook groove of the aluminum alloy profile to manufacture an opening filling cavity formed by the high polymer material profile and the aluminum alloy profile, a filling heat insulation material enters the opening filling cavity, the filling heat insulation material is solidified to manufacture a filling heat insulation profile, the filling heat insulation profile connects the high polymer material profile and the aluminum alloy profile together, the indoor side high polymer material profile, the filling heat insulation profile, the outdoor side aluminum alloy profile and the outdoor side high polymer material profile are manufactured into the filling combined heat insulation profile together, and the filling combined.

The invention provides another filling combined heat insulation door and window, wherein a high polymer material profile is arranged on the indoor side, an aluminum alloy profile is arranged in the middle, a high polymer material profile is arranged on the outdoor side, upper and lower overhanging hooks of the high polymer material profile are inserted into upper and lower hook grooves of the aluminum alloy profile to manufacture a filling cavity formed by the high polymer material profile and the aluminum alloy profile, a filling heat insulation material enters the filling cavity, the filling heat insulation material is solidified to manufacture a filling heat insulation profile, the filling heat insulation profile connects the high polymer material profile and the aluminum alloy profile together, the indoor side high polymer material profile, the filling heat insulation profile, the outdoor side aluminum alloy profile and the outdoor side high polymer material profile are manufactured into the filling combined heat insulation profile together, and the filling combined.

The invention provides another filling combined heat insulation door and window, wherein the indoor side is a high polymer material section, the middle part is an aluminum alloy section, the outdoor side is a high polymer material section, the upper part of the outdoor side of the aluminum alloy section is provided with a press hook, the lower part of the outdoor side of the aluminum alloy section is provided with a press hook, the upper part of the outdoor side of the high polymer material section is provided with a press groove, the upper part of the aluminum alloy section is pressed in the upper part of the outdoor side of the high polymer material section, the lower part of the aluminum alloy section is pressed in the lower part of the outdoor side of the high polymer material section, the aluminum alloy section is connected with the outdoor side of the high polymer material section, an outward extending hook of the indoor side of the high polymer material section is inserted into the hook groove of the aluminum alloy section to manufacture a filling cavity consisting of the high polymer material section and the aluminum alloy section, the filling material enters, the indoor side high polymer material section bar and the filling heat insulation section bar, the outdoor side aluminum alloy section bar and the outdoor side high polymer material section bar are manufactured into a filling combined heat insulation section bar together, and the filling combined heat insulation section bar for the filling combined heat insulation door and window is manufactured.

In order to improve the sealing performance of the door and window, the lower overhanging wall of the sash high polymer material section bar is provided with two steps, the sealing strip is embedded in the groove of the window frame, the sealing strip is provided with an upper sealing rib and a lower sealing rib, the upper sealing rib is in contact sealing with the upper overhanging wall step of the sash high polymer material section bar, and the lower sealing rib is in contact sealing with the lower overhanging wall step of the sash high polymer material section bar.

For solving the connecting strength problem of the polymer material section bar of the mullion, an end connecting inserting core is arranged in a corner cavity of the polymer material section bar of the mullion, bolt connecting inserting cores are arranged in grooves on two sides of the corner cavity of the polymer material section bar of the mullion, the end connecting inserting core and the bolt connecting inserting core connect the polymer material section bar of the mullion and the window frame section bar together, the connecting strength between the polymer material section bar of the mullion and the window frame section bar is improved, and the problem of poor connecting strength between the polymer material section bar of the mullion is solved.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

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

FIG. 1 is a view of the end face of a local node of a sash combination made of an indoor side wood-plastic section, a middle part filled with a PU resin heat insulation section and an outdoor side aluminum alloy section.

FIG. 2 is a view of the partial node end surface of the door and window frame and sash combination made by combining the indoor side wood-plastic section, the middle part filled with PU resin heat insulation section, the middle aluminum alloy section and the outdoor side wood-plastic section.

FIG. 3 is an end view of a partial node of a sash assembly made by combining an indoor wood-plastic profile, a polyurethane foam resin heat insulation profile filled in the middle and an outdoor aluminum alloy profile.

FIG. 4 is a view of the partial node end surface of the door and window frame and sash combination made by combining the indoor side wood-plastic section, the middle part of which is filled with the polyurethane foaming resin heat insulation section, the outdoor side aluminum alloy section and the outdoor side wood-plastic section.

FIG. 5 is an end view of a partial joint of a mullion assembly of a door and window made of an indoor wood-plastic profile, a PU resin heat insulation profile filled in the middle of the indoor wood-plastic profile and an outdoor aluminum alloy profile.

FIG. 6 is an end view of a partial joint of a mullion assembly of a door and window made of an indoor wood-plastic profile, a polyurethane foam resin heat insulation profile filled in the middle of the indoor wood-plastic profile and an outdoor aluminum alloy profile.

FIG. 7 is an end view of a partial joint of a mullion assembly of a door and a window, which is made by combining an indoor wood-plastic profile, a PU resin heat insulation profile filled in the middle, a middle aluminum alloy profile and an outdoor wood-plastic profile.

FIG. 8 is an end view of a partial joint of a door and window mullion assembly made of an indoor wood-plastic profile, a polyurethane foam resin heat insulation profile filled in the middle of the indoor wood-plastic profile, an outdoor aluminum alloy profile and an outdoor wood-plastic profile.

Example 1

The utility model provides a door and window frame fan combination local node end view as shown in figure 1, wherein that indoor side wood-plastic section, middle part are filled the thermal-insulated section bar of PU resin, outdoor side aluminum alloy section bar combination preparation, wherein: 1 is a sash indoor side wood plastic section, 2 is a sash wood plastic section extension arm, 3 is a sash wood plastic section extension arm end part hook, 4 is a sash upper sealing baffle table, 5 is a sash lower sealing baffle table, 6 is a sash wood plastic section connecting hook, 7 is a sash wood plastic section connecting hook groove, 8 is a sash outdoor side aluminum alloy section, 9 is a sash aluminum alloy section hook groove, 10 is a sash aluminum alloy section connecting hook, 11 is a sash aluminum alloy section connecting hook groove, 12 is a sash PU resin filling cavity opening, 13 is a sash filling PU resin, 14 is a window frame indoor side wood plastic section, 15 is a window frame wood plastic section extension arm, 16 is a window frame wood plastic section extension arm end part hook, 17 is a window frame wood plastic section connecting hook, 18 is a window frame wood plastic section connecting hook groove, 19 is a window frame outdoor side aluminum alloy section, 20 is a window frame aluminum alloy section hook groove, 21 is a window frame aluminum alloy section connecting hook, 22 is a window frame aluminum alloy section connecting hook groove, 23 is a window frame PU resin filling cavity opening, 24 is window frame filling PU resin, 25 is a window frame sealing strip groove, 26 is a middle sealing strip, 27 is a middle sealing strip upper sealing rib, 28 is a middle sealing strip lower sealing rib, 29 is a frame sash outer sealing strip, and 30 is a frame sash inner sealing strip.

The filling combined heat insulation door and window is formed by combining a window sash made of an indoor side wood-plastic section, a middle filling PU resin heat insulation section and an outdoor side aluminum alloy section, and a window frame made of an indoor side wood-plastic section, a middle filling PU resin heat insulation section and an outdoor side aluminum alloy section through door and window connecting fittings, sealing fittings, glass and embedded glass fittings.

The end part hook 3 of the extending arm of the sash wood-plastic section is inserted into the hook groove 9 of the sash aluminum alloy section, the sash indoor side wood-plastic section 1 and the outdoor side aluminum alloy section 8 are connected together to form a sash PU resin filling cavity, the lower part of the PU resin filling cavity is sealed by the extending arm 2 of the sash wood-plastic section, the sash filling PU resin 13 enters the PU resin filling cavity from the opening 12 of the sash PU resin filling cavity, the sash wood-plastic section connecting hook groove 7 and the sash aluminum alloy section connecting hook groove 11, and after the sash filling PU resin 13 is cured, the sash indoor side wood-plastic section 1 and the outdoor side aluminum alloy section 8 are connected into a whole to manufacture the filling heat insulation combined sash.

The end part hook 16 of the extending arm of the window frame wood-plastic section is inserted into the hook groove 20 of the window frame aluminum alloy section, the indoor side wood-plastic section 14 of the window frame is connected with the outdoor side aluminum alloy section 19 to form a window frame PU resin filling cavity, the extending arm 15 of the window frame wood-plastic section seals the lower part of the PU resin filling cavity, the window frame filling PU resin 24 enters the PU resin filling cavity from the opening 23 of the window frame PU resin filling cavity, the window frame wood-plastic section connecting hook groove 18 and the window frame aluminum alloy section connecting hook groove 22, and after the window frame filling PU resin 24 is solidified, the indoor side wood-plastic section 14 of the window frame and the outdoor side aluminum alloy section 19 are connected into a whole to manufacture the filling heat insulation combined window.

The door and window fittings connect the filled heat insulation combined window sash and the filled heat insulation combined window frame together, the middle sealing strip 26 is embedded into the window frame sealing strip groove 25, the middle sealing strip upper sealing rib 27 is in contact sealing with the window sash upper sealing baffle table 4, the middle sealing strip lower sealing rib 28 is in contact sealing with the window sash lower sealing baffle table 5, the sash outer sealing strip 29 embedded in the window frame outdoor side aluminum alloy section bar 19 sealing strip groove is in contact sealing with the window sash outdoor side aluminum alloy section bar 8, and the sash inner sealing strip 30 embedded in the window sash indoor side wood-plastic section bar 1 sealing strip groove is in contact sealing with the window frame indoor side wood-plastic section bar 14.

Example 2

The utility model provides an indoor side wood-plastic section, the heat-insulating section bar of polyurethane foaming resin is filled at the middle part, and the local node end view of stile combination is shown in fig. 2 in the door and window of outdoor side aluminum alloy section combination preparation, wherein: 31 is a sash indoor side wood-plastic section, 32 is a sash wood-plastic section upper extending arm, 33 is a sash wood-plastic section upper extending arm end hook, 34 is a sash upper sealing stop, 35 is a sash lower sealing stop, 36 is a sash wood-plastic section connecting hook, 37 is a sash wood-plastic section connecting hook groove, 38 is a middle aluminum alloy section, 39 is a sash aluminum alloy section hook groove, 40 is a sash aluminum alloy section connecting hook, 41 is a sash aluminum alloy section connecting hook groove, 42 is a sash middle aluminum alloy section upper press hook, 43 is a sash middle aluminum alloy section upper support plate, 44 is a sash middle aluminum alloy section lower press hook, 45 is a sash middle aluminum alloy section lower support plate, 46 is a sash PU resin filling cavity opening, 47 is a sash filling PU resin, 48 is a sash outdoor side wood-plastic section, 49 is a sash outdoor side wood-plastic section upper press groove, 50 is a sash side wood-plastic section lower press groove, 51 is a window frame indoor side wood-plastic section, 52 is a window frame wood-plastic section extending arm, 53 is a window frame wood-plastic section extending arm end hook, 54 is a window frame wood-plastic section connecting hook, 55 is a window frame wood-plastic section connecting hook groove, 56 is a window frame middle aluminum alloy section, 57 is a window frame aluminum alloy section hook groove, 58 is a window frame aluminum alloy section connecting hook, 59 is a window frame aluminum alloy section connecting hook groove, 60 is a window frame aluminum alloy section upper press hook, 61 is a window frame aluminum alloy section upper support plate, 62 is a window frame aluminum alloy section lower press hook, 63 is a window frame aluminum alloy section lower support plate, 64 is a window frame PU resin filling cavity opening, 65 is a window frame filling PU resin, 66 is a window frame outdoor side wood-plastic section, 67 is a window frame outdoor side wood-plastic section upper press groove, 68 is a window frame outdoor side wood-plastic section lower press groove, 69 is a window frame sealing strip groove, 70 is a middle sealing strip, 71 is a middle, 72 is the lower sealing rib of the middle sealing strip, 73 is the outer sealing strip of the sash, and 74 is the inner sealing strip of the sash.

The filling combined heat insulation door and window is formed by combining a window sash made of an indoor side wood-plastic section, a middle filling PU resin heat insulation section, an outdoor side aluminum alloy section and an outdoor side high polymer material section, and a window frame made of an indoor side high polymer material section, a middle filling PU resin heat insulation section, an outdoor side aluminum alloy section and an outdoor side high polymer material section through door and window connecting fittings, sealing fittings, glass and embedded glass fittings.

The end part hook 33 of the extending arm of the sash wood-plastic section is inserted into the sash aluminum alloy section hook groove 39, the sash indoor side wood-plastic section 31 and the middle aluminum alloy section 38 are connected together to form a sash PU resin filling cavity, the sash wood-plastic section extending arm 32 seals the lower part of the PU resin filling cavity, the sash filling PU resin 47 enters the PU resin filling cavity from the opening 46 of the sash PU resin filling cavity, the sash wood-plastic section connecting hook groove 37 and the sash aluminum alloy section connecting hook groove 41, the sash filling PU resin 47 connects the sash indoor side wood-plastic section 31 and the sash middle aluminum alloy section 38 into a whole, the sash middle aluminum alloy section upper press hook 42 is pressed in the sash outdoor side wood-plastic section upper press groove 49, the sash middle aluminum alloy section lower press hook 44 is pressed in the sash outdoor side wood-plastic section lower press groove 50, the sash middle aluminum alloy section 38 and the sash outdoor side wood-plastic section 48 are connected into a whole, and (5) manufacturing the filled heat-insulation combined window sash.

The end part hook 53 of the extending arm of the window frame wood-plastic section is inserted into the hook groove 57 of the window frame aluminum alloy section, the window frame indoor side wood-plastic section 51 is connected with the window frame middle aluminum alloy section 56 to form a window frame PU resin filling cavity, the extending arm 52 of the window frame wood-plastic section seals the lower part of the PU resin filling cavity, the window frame filling PU resin 65 enters the PU resin filling cavity from the opening 64 of the window frame PU resin filling cavity, the window frame wood-plastic section connecting hook groove 55 and the window frame aluminum alloy section connecting hook groove 59, after the window frame filling PU resin 65 is solidified, the window frame indoor side wood-plastic section 51 and the window frame middle aluminum alloy section 56 are connected into a whole, the upper press hook 60 of the window frame middle aluminum alloy section is pressed in the upper press groove 68 of the window frame outdoor side wood-plastic section, the lower press hook 62 of the window frame middle aluminum alloy section is pressed in the lower press groove 69 of the window frame outdoor side wood-plastic section, and manufacturing the filled heat-insulation combined window frame.

The door and window fittings connect the filled heat insulation combined window sash and the filled heat insulation combined window frame together, the middle sealing strip 70 is embedded into the window frame sealing strip groove 69, the middle sealing strip upper sealing rib 71 is in contact sealing with the window sash upper sealing baffle table 34, the middle sealing strip lower sealing rib 72 is in contact sealing with the window sash lower sealing baffle table 35, the sash outer sealing strip 73 embedded in the window frame outdoor side wood-plastic section 67 sealing strip groove is in contact sealing with the window sash outdoor side wood-plastic section 48, and the sash inner sealing strip 74 embedded in the window sash indoor side wood-plastic section 31 sealing strip groove is in contact sealing with the window frame indoor side wood-plastic section 51.

Example 3

The utility model provides a door and window frame fan combination local node end view as shown in figure 3, wherein that indoor side wood-plastic section, polyurethane foaming resin heat insulation section are filled to the middle part, and outdoor side aluminum alloy section combination preparation: 75 is a sash indoor side wood-plastic section, 76 is a sash wood-plastic section upper extending arm, 77 is a sash wood-plastic section upper extending arm end hook, 78 is a sash wood-plastic section lower extending arm, 79 is a sash wood-plastic section lower extending arm end hook, 80 is a sash upper sealing baffle table, 81 is a sash lower sealing baffle table, 82 is an outdoor side aluminum alloy section, 83 is a sash aluminum alloy section upper hook groove, 84 is a sash aluminum alloy section lower hook groove, 85 is a sash resin filling cavity, 86 is a sash filling polyurethane foaming resin, 87 is a window frame indoor side wood-plastic section, 88 is a window frame wood-plastic section upper extending arm, 89 is a window frame wood-plastic section upper extending arm end hook, 90 is a window frame wood-plastic section lower extending arm, 91 is a window frame wood-plastic section lower extending arm end hook, 92 is a window frame outdoor side aluminum alloy section, 93 is a window frame aluminum alloy section upper hook groove, 94 is a window frame aluminum alloy section bar lower hook groove, 95 is a window frame resin filling cavity, 96 is window frame filling polyurethane foaming resin, 97 is a window frame sealing strip groove, 98 is a middle sealing strip, 99 is a middle sealing strip upper sealing rib, 100 is a middle sealing strip lower sealing rib, 101 is a frame sash outer sealing strip, and 102 is a frame sash inner sealing strip.

The filling combined heat insulation door and window is formed by combining a window sash made of an indoor side wood-plastic section, a middle filling polyurethane foaming resin heat insulation section and an outdoor side aluminum alloy section, and a window frame made of an indoor side wood-plastic section, a middle filling polyurethane foaming resin heat insulation section and an outdoor side aluminum alloy section through door and window connecting fittings, sealing fittings, glass and embedded glass fittings.

The end part hook 77 of the upper extending arm of the sash wood-plastic section is inserted into the upper hook groove 83 of the sash aluminum alloy section, the end part hook 79 of the lower extending arm of the sash wood-plastic section is inserted into the lower hook groove 84 of the sash aluminum alloy section, the indoor side wood-plastic section 75 of the sash is connected with the outdoor side aluminum alloy section 82 to form a sash resin filling cavity 85, polyurethane foaming resin 86 filled in the sash enters the sash resin filling cavity 85, and after the polyurethane foaming resin 86 filled in the sash is solidified, the indoor side wood-plastic section 75 of the sash and the outdoor side aluminum alloy section 82 of the sash are connected into a whole to manufacture the filled heat-insulating combined sash.

The end part hook 89 of the upper extending arm of the wood-plastic section of the window frame is inserted into the upper hook groove 93 of the aluminum alloy section of the window frame, the end part hook 91 of the lower extending arm of the wood-plastic section of the window frame is inserted into the lower hook groove 94 of the aluminum alloy section of the window frame, the indoor side wood-plastic section 87 of the window frame and the outdoor side aluminum alloy section 92 of the window frame are connected together to form a window frame resin filling cavity 95, the window frame is filled with polyurethane foaming resin 96 and enters the window frame resin filling cavity 95, and after the window frame is filled with the polyurethane foaming resin 96 and is solidified, the indoor side wood-plastic section 87 of the window frame and the outdoor side aluminum alloy section.

The door and window fittings connect the filled heat insulation combined window sash and the filled heat insulation combined window frame together, the middle sealing strip 98 is embedded into the window frame sealing strip groove 97, the middle sealing strip upper sealing rib 99 is in contact sealing with the window sash upper sealing baffle table 80, the middle sealing strip lower sealing rib 100 is in contact sealing with the window sash lower sealing baffle table 81, the sash outer sealing strip 101 embedded in the window frame outdoor side aluminum alloy section bar 92 sealing strip groove is in contact sealing with the window sash outdoor side aluminum alloy section bar 82, and the sash inner sealing strip 102 embedded in the window sash indoor side wood-plastic section bar 75 sealing strip groove is in contact sealing with the window frame indoor side wood-plastic section bar 87.

Example 4

The utility model provides a door and window frame fan combination local node end view of indoor side wood-plastic section, the polyurethane foaming resin heat insulation section is filled at the middle part, and outdoor side aluminum alloy section and the outdoor side wood-plastic section combination preparation are shown in figure 4, wherein: 103 is a sash indoor side wood-plastic section, 104 is a sash wood-plastic section upper extending arm, 105 is a sash wood-plastic section upper extending arm end hook, 106 is a sash wood-plastic section lower extending arm, 107 is a sash wood-plastic section lower extending arm end hook, 108 is a sash upper sealing baffle table, 109 is a sash lower sealing baffle table, 110 is a middle sash aluminum alloy section, 111 is a sash aluminum alloy section upper hook groove, 112 is a sash aluminum alloy section lower hook groove, 113 is an aluminum alloy section upper press hook, 114 is an aluminum alloy section upper support plate, 115 is an aluminum alloy section lower press hook, 116 is an aluminum alloy section lower support plate, 117 is a sash resin filling cavity, 118 is a sash filling polyurethane foaming resin, 119 is a sash outdoor side wood-plastic section, 120 is a sash outdoor side wood-plastic section upper press groove, 121 is an outdoor side wood-plastic section lower press groove, 122 is a window frame indoor side wood-plastic section, 123 is a window frame wood-plastic section upper extending arm, 124 is a hook at the end part of an upper extending arm of a wood-plastic section of a window frame, 125 is a hook at the end part of a lower extending arm of a wood-plastic section of a window frame, 126 is a hook at the end part of a lower extending arm of a wood-plastic section of a window frame, 127 is an aluminum alloy section in the middle of the window frame, 128 is a hook groove on the aluminum alloy section of the window frame, 129 is a hook groove on the aluminum alloy section of the window frame, 130 is a press hook on the aluminum alloy section of the window frame, 131 is an upper supporting plate on the aluminum alloy section of the window frame, 132 is a lower press hook on the aluminum alloy section of the window frame, 133 is a lower supporting plate on the aluminum alloy section of the window frame, 134 is a resin filling cavity of the window frame, 135 is a polyurethane foaming resin filled in the window frame, 136 is a wood-plastic section of the outdoor side of the window frame, 137 is an upper press groove on the wood-plastic section of the outdoor side of the window frame.

The filling combined heat insulation door and window is formed by combining a window sash made of an indoor side wood-plastic section, a middle filling polyurethane foaming resin heat insulation section, an outdoor side aluminum alloy section and an outdoor side wood-plastic section, and a window frame made of an indoor side wood-plastic section, a middle filling polyurethane foaming resin heat insulation section, an outdoor side aluminum alloy section and an outdoor side wood-plastic section through door and window connecting fittings, sealing fittings, glass and embedded glass fittings.

The end part hook 105 of the upper extending arm of the sash wood-plastic section is inserted into the upper hook groove 111 of the sash aluminum alloy section, the end part hook 107 of the lower extending arm of the sash wood-plastic section is inserted into the lower hook groove 112 of the sash aluminum alloy section, the sash indoor side wood-plastic section 103 and the middle aluminum alloy section 110 are connected together to form a sash resin filling cavity 117, the sash filling polyurethane foaming resin 118 is filled into the sash resin filling cavity 117, the sash filling polyurethane foaming resin 118 connects the sash indoor side wood-plastic section 103 and the sash middle aluminum alloy section 110 into a whole, the sash middle aluminum alloy section upper press hook 113 is pressed in the sash outdoor side wood-plastic section upper press groove 120, the sash middle aluminum alloy section lower press hook 115 is pressed in the sash outdoor side wood-plastic section lower press groove 121, and the sash middle aluminum alloy section 110 and the sash outdoor side wood-plastic section 119 are connected into a whole to manufacture the filled heat insulation combined sash.

The end part hook 124 of the upper extending arm of the window frame wood-plastic section is inserted into the upper hook groove 128 of the window frame aluminum alloy section, the end part hook 126 of the lower extending arm of the window frame wood-plastic section is inserted into the lower hook groove 129 of the window frame aluminum alloy section, the window frame indoor side wood-plastic section 122 and the window frame middle aluminum alloy section 127 are connected together to form a window frame resin filling cavity 134, the window frame filling polyurethane foaming resin 135 is filled into the window frame resin filling cavity 134, the window frame filling polyurethane foaming resin 135 is solidified to connect the window frame indoor side wood-plastic section 122 and the window frame middle aluminum alloy section 127 into a whole, the window frame middle aluminum alloy section upper press hook 130 is pressed in the window frame outdoor side wood-plastic section upper press groove 137, the window frame middle aluminum alloy section lower press hook 132 is pressed in the window frame outdoor side wood-plastic section lower press groove 138, and the window frame middle aluminum alloy section 127 and the window frame, and manufacturing the filled heat-insulation combined window frame.

The door and window fittings connect the filled heat insulation combined window sash and the filled heat insulation combined window frame together, the middle sealing strip 140 is embedded into the window frame sealing strip groove 139, the middle sealing strip upper sealing rib 141 is in contact sealing with the window sash upper sealing baffle table 108, the middle sealing strip lower sealing rib 142 is in contact sealing with the window sash lower sealing baffle table 109, the sash outer sealing strip 143 embedded in the window frame outdoor side wood-plastic section 143 sealing strip groove is in contact sealing with the window sash outdoor side wood-plastic section 119, and the sash inner sealing strip 144 embedded in the window sash indoor side wood-plastic section 103 sealing strip groove is in contact sealing with the window frame indoor side wood-plastic section 122.

Example 5

The utility model provides an indoor side wood-plastic section, the heat-insulating section bar of PU resin is filled at the middle part, and the local node end view of stile combination is shown in fig. 5 in the door and window of outdoor side aluminum alloy section combination preparation, wherein: 145 is an indoor side mullion wood-plastic section, 146 is an extension arm of a mullion wood-plastic section, 147 is a hook at the end part of the extension arm of the mullion wood-plastic section, 148 is a connecting hook groove of the mullion wood-plastic section, 149 is a connecting cavity of the mullion wood-plastic section, 150 is a side groove of the mullion wood-plastic section, 151 is an outdoor side aluminum alloy section of the mullion, 152 is a hook groove of the mullion aluminum alloy section, 153 is a connecting hook groove of the mullion aluminum alloy section, 154 is a connecting hole of the mullion aluminum alloy section, 155 is an end connecting insert core of the mullion aluminum alloy section, 156 is an end connecting insert core hole of the mullion aluminum alloy section, 157 is a mullion filled with PU resin, 158 is an end connecting insert core of the mullion wood-plastic section, 159 is an end connecting insert core hole, 160 is a bolt connection, and 161 is a bolt connecting insert core hole.

When the connecting structure is used, the end connecting inserting core 158 is placed in the connecting cavity 149 of the mullion high polymer material section, the bolt connecting inserting core 160 is installed in the groove 150 on the upper side of the mullion high polymer material section, the bolt connecting inserting core 160 is installed in the groove 150 on the lower side of the mullion high polymer material section, the end connecting inserting core 158 and the bolt connecting inserting core 160 are connected together through bolts, the connecting bolts penetrate through the window frame section to enter the end connecting inserting core hole 159 of the mullion section and the bolt connecting inserting core hole 161, the window frame section and the mullion section are connected together, the connecting strength of the indoor side mullion high polymer material section 145 and the window frame section is improved, the end connecting inserting core 155 of the mullion aluminum alloy section is placed in the connecting cavity of the aluminum alloy section, the connecting bolts penetrate through the window frame section to enter the end connecting hole 156 of the mullion aluminum alloy section and the connecting hole 154 of the mullion.

Example 6

The utility model provides an indoor side wood-plastic section, the heat-insulating section bar of polyurethane foaming resin is filled at the middle part, and the local node end view of stile combination is shown in fig. 6 in the door and window of outdoor side aluminum alloy section combination preparation, wherein: 162 is an indoor side mullion wood-plastic section, 163 is an upper extending arm of a mullion wood-plastic section, 164 is an end hook of an upper extending arm of a mullion wood-plastic section, 165 is a lower extending arm of a mullion wood-plastic section, 166 is an end hook of a lower extending arm of a mullion wood-plastic section, 167 is a mullion wood-plastic section connecting cavity, 168 is a side groove of a mullion wood-plastic section, 169 is an outdoor side mullion aluminum alloy section, 170 is a upper hook groove of a mullion aluminum alloy section, 171 is a lower hook groove of a mullion aluminum alloy section, 172 is a connecting hole of a mullion aluminum alloy section, 173 is an end connecting plug core of a mullion aluminum alloy section, 174 is an end connecting plug core hole of a mullion aluminum alloy section, 175 is a mullion filled and filled with polyurethane foam resin, 176 is a mullion end connecting, 177 is an end connecting plug core hole, 178 is a bolt connecting plug core, and 179 is a bolt connecting plug core hole.

When the connecting structure is used, a mullion end connecting inserting core 176 is arranged in a mullion high polymer material section connecting cavity 167, a bolt connecting inserting core 178 is arranged in a groove 168 on the upper side of a mullion wood-plastic section, a bolt connecting inserting core 178 is arranged in a groove 168 on the lower side of the mullion wood-plastic section, the end connecting inserting core 176 is connected with the bolt connecting inserting core 178 through a bolt, a connecting bolt penetrates through a window frame section to enter a mullion section end connecting inserting core hole 177 and a bolt connecting inserting core hole 179, the window frame section and the mullion section are connected together, the connecting strength of the indoor side mullion high polymer material section 162 and the window frame section is improved, a mullion aluminum alloy section end connecting inserting core 173 is arranged in an aluminum alloy section connecting cavity, and a connecting bolt penetrates through the window frame section to enter a mullion aluminum alloy section end connecting inserting core hole 174 and a mullion aluminum alloy section connecting hole 172, so that the window frame.

Example 7

The utility model provides a local node end view of stile combination in door and window of outdoor side aluminum alloy ex-trusions and outdoor side wood-plastic ex-trusions combination preparation is shown in figure 7, wherein as the heat insulating section of polyurethane foaming resin is filled to the middle part to indoor side wood-plastic section, wherein: 180 is an indoor mullion wood-plastic section, 181 is an extension arm of a mullion wood-plastic section, 182 is an end hook of an extension arm of a mullion wood-plastic section, 183 is a mullion wood-plastic section connecting hook groove, 184 is a mullion wood-plastic section connecting cavity, 185 is an upper side groove of a mullion wood-plastic section, 186 is a lower side groove of a mullion wood-plastic section, 187 is a middle aluminum alloy section, 188 is a middle aluminum alloy section hook groove, 189 is a mullion aluminum alloy section connecting hook groove, 190 is an upper press hook of a middle aluminum alloy section, 191 is a lower press hook of a middle aluminum alloy section, 192 is a middle aluminum alloy section connecting hole, 193 is a mullion filled with PU resin, 194 is a outdoor side wood-plastic section of a mullion, 195 is an upper press groove of an outdoor side wood-plastic section of a mullion, 196 is a lower press groove of an outdoor side wood-plastic section of a mullion, 197 is an end connecting insert core hole, 198 is an end connecting core hole, 199 is a bolt connecting insert core hole, and 200 is a bolt connecting insert core hole.

During the use, place end connection lock pin 197 in mullion macromolecular material section bar connection chamber 184, the interior bolted connection lock pin 199 of well mullion macromolecular material section bar connection chamber upper groove 185, the interior bolted connection lock pin 199 of well mullion macromolecular material section bar connection chamber lower recess 186, end connection lock pin 197 is in the same place through bolted connection lock pin 199 with bolted connection lock pin 199, connecting bolt passes window frame section bar entering mullion section bar end connection lock pin hole 177 and bolted connection lock pin hole 179 in, link together window frame section bar and well mullion section bar, improve indoor side mullion macromolecular material section bar 180 and window frame section bar joint strength.

Example 8

The utility model provides a local node end view of stile combination is shown as figure 8 in indoor side wood-plastic section, the heat-insulating section bar of PU resin is filled at the middle part to the indoor side, and outdoor side aluminum alloy section bar and the outdoor side wood-plastic section bar combination preparation, wherein: 201 is an indoor side mullion wood-plastic section, 202 is an upper extending arm of a mullion wood-plastic section, 203 is an end hook of an upper extending arm of a mullion wood-plastic section, 204 is a lower extending arm of a mullion wood-plastic section, 205 is an end hook of a lower extending arm of a mullion wood-plastic section, 206 is a mullion wood-plastic section connecting cavity, 207 is an upper groove of a mullion wood-plastic section, 208 is a lower groove of a mullion wood-plastic section, 209 is a middle aluminum alloy section, 210 is an upper hook groove of a middle aluminum alloy section, 211 is a lower hook groove of a middle aluminum alloy section, 212 is an upper press hook of a middle aluminum alloy section, 213 is a lower press hook of a middle aluminum alloy section, 214 is a connecting hole of a middle aluminum alloy section, 215 is a middle filling polyurethane foaming resin, 216 is a outdoor side mullion wood-plastic section, 217 is an upper press groove of an outdoor side wood-plastic section, 218 is a lower press groove of an outdoor side wood-plastic section, 219 is a connecting mortise end connecting hole, 220 is a core connecting plug-inserting hole, 221 is a bolt-on ferrule and 222 is a bolt-on ferrule bore.

During the use, place end connection lock pin 219 in the club polymer material section bar connection chamber 206, bolted connection lock pin 221 is installed in club polymer material section bar connection chamber upper groove 207, bolted connection lock pin 221 is installed in club polymer material section bar connection chamber lower groove 208, end connection lock pin 219 and bolted connection lock pin 221 pass through bolted connection together, connecting bolt passes window frame section bar entering club section bar end connection lock pin hole 220 and bolted connection lock pin hole 222 in, link window frame section bar and club section bar together, improve indoor side club polymer material section bar 201 and window frame section bar joint strength.

Claims (10)

1. Fill combination heat-insulating door and window includes: fixed window, open window, window annex, characterized by: the filling combined heat insulation door and window is made of an indoor side high polymer material section, a middle filling heat insulation section and an outdoor side aluminum alloy section.

2. Fill combination heat-insulating door and window includes: the method comprises the following steps: fixed window, open window, window annex, characterized by: the filling combined heat insulation door and window is made of an indoor side high polymer material section, an indoor side middle filling heat insulation section, an outdoor side middle aluminum alloy section and an outdoor side high polymer material section filling combined heat insulation section.

3. The filled combination heat insulating door and window of claim 1, wherein: the indoor side is a high polymer material section, the outdoor side is an aluminum alloy section, the filling heat insulation material enters a filling cavity formed by the high polymer material section and the aluminum alloy section, the filling heat insulation material is solidified to form a filling heat insulation section, the filling heat insulation section connects the high polymer material section with the aluminum alloy section, the indoor side high polymer material section, the filling heat insulation section and the outdoor side aluminum alloy section are manufactured into a filling combined heat insulation section, and the filling combined heat insulation section for filling combined heat insulation doors and windows is manufactured.

4. The filled combination heat insulating door and window of claim 2, wherein: the indoor side is a high polymer material section bar, the middle part is an aluminum alloy section bar, the outdoor side is a high polymer material section bar, the filling heat insulation material enters a filling cavity formed by the high polymer material section bar and the aluminum alloy section bar, the filling heat insulation material is solidified to form a filling heat insulation section bar, the filling heat insulation section bar connects the high polymer material section bar and the aluminum alloy section bar together, the indoor side high polymer material section bar and the filling heat insulation section bar, the outdoor side aluminum alloy section bar and the outdoor side high polymer material section bar are manufactured into filling combined heat insulation section bars, and the filling combined heat insulation section bars are.

5. The filled composite heat-insulating door and window as claimed in claim 1 or 2, characterized in that: the high polymer material section bar overhanging hook is inserted into the aluminum alloy section bar hook groove to manufacture an opening filling cavity formed by the high polymer material section bar and the aluminum alloy section bar, the filling heat insulation material enters the opening filling cavity, the filling heat insulation material is solidified to manufacture a filling heat insulation section bar, the filling heat insulation section bar connects the high polymer material section bar and the aluminum alloy section bar together, and the filling combination heat insulation door and window is manufactured by the filling combination heat insulation section bar.

6. The filled composite heat-insulating door and window as claimed in claim 1 or 2, characterized in that: the upper and lower overhanging hooks of the high polymer material section are inserted into the upper and lower hook grooves of the aluminum alloy section to manufacture a filling cavity formed by the high polymer material section and the aluminum alloy section, filling heat insulation materials enter the filling cavity, the filling heat insulation sections are manufactured after the filling heat insulation materials are solidified, the filling heat insulation sections connect the high polymer material section and the aluminum alloy section together, and the filling combination heat insulation section for the filling combination heat insulation door and window is manufactured.

7. The filled combination heat insulating door and window of claim 2, wherein: the upper part of the outdoor side of the aluminum alloy section is provided with a pressure hook, the lower part of the outdoor side of the aluminum alloy section is provided with a pressure hook, the upper part of the outdoor side polymer material section is provided with a pressure groove, the lower part of the outdoor side polymer material section is provided with a pressure groove, the upper pressure hook of the aluminum alloy section is pressed in the pressure groove of the upper part of the outdoor side polymer material section, the lower pressure hook of the aluminum alloy section is pressed in the pressure groove of the lower part of the outdoor side polymer material section, the aluminum alloy section is connected with the outdoor side polymer material section, the outward extending hook of the indoor side polymer material section is inserted into the hook groove of the aluminum alloy section to manufacture a filling cavity consisting of the polymer material section and the aluminum alloy section, the filling material enters the filling cavity, after the filling material is solidified.

8. The filled composite heat-insulating door and window as claimed in claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: two steps are arranged on the outer extending wall at the lower part of the window sash high polymer material section bar, the sealing strip is embedded in the groove of the window frame, and two sealing ribs on the sealing strip are respectively in contact sealing with the two steps on the outer extending wall at the lower part of the window sash high polymer material section bar.

9. The filled composite heat-insulating door and window as claimed in claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: put end connection angle sign indicating number in well club macromolecular material section bar group angle chamber, the bolted connection angle sign indicating number is adorned in well club macromolecular material section bar group angle chamber both sides recess, and end connection angle sign indicating number and bolted connection angle sign indicating number link together well club macromolecular material section bar and window frame section bar.

10. The filled composite heat-insulating door and window as claimed in claim 1, 2, 3, 4, 5, 6 or 7, characterized in that: the filling material comprises: polyurethane foaming material, phenolic resin, PU resin and fireproof expansion glue.

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