CN113356728B

CN113356728B - Hollow combined glass easy for mounting aluminum-wood door and window

Info

Publication number: CN113356728B
Application number: CN202110699647.8A
Authority: CN
Inventors: 刘军
Original assignee: Nantong Haiying Wooden Industry Co ltd
Current assignee: Nantong Haiying Wooden Industry Co ltd
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2022-12-23
Anticipated expiration: 2041-06-23
Also published as: CN113356728A

Abstract

The invention discloses hollow combined glass easy for mounting aluminum-wood doors and windows, which belongs to the technical field of aluminum-wood doors and windows, wherein a plurality of connectors are spliced end to realize hollow butt joint between double-layer glass, after splicing, a plurality of capsule storage tubes are in one-to-one buckling correspondence with bonding cavities, on one hand, the connecting surfaces between the connectors and the double-layer glass are enlarged, and the double-layer glass is easy to position and butt joint relative to a smooth glass connecting surface, on the other hand, the self-heating pad arranged at the outer end of a combined plate is utilized, the temperature of the embedded plate can be raised due to the self-heating property of the self-heating pad, so that an outer hot melting layer on the capsule storage tubes is hot melted, glue materials are filled between the capsule storage tubes and the bonding cavities, the multi-point bonding between the connectors and the double-layer glass is realized, the mounting stability is improved, the double-layer glass is conveniently mounted in a frame body subsequently, in addition, after an air-permeable bag is torn off, an outer heat insulation frame is attached to the outer end wall of the combined plate, the high temperature at the glass is effectively blocked, and the temperature is prevented from being transferred to an aluminum alloy wrapping structure of the doors and windows.

Description

Hollow combined glass easy for mounting aluminum-wood doors and windows

Technical Field

The invention relates to the technical field of aluminum-wood doors and windows, in particular to hollow combined glass easy for installation of aluminum-wood doors and windows.

Background

The door and window is always an essential accessory for buildings and consists of a frame body, frame leaves and glass. The aluminum-wood door and window is a frame body formed by compounding the heat-insulating bridge-cut-off aluminum alloy section and solid wood through a mechanical method on the premise of keeping the characteristics and functions of a pure solid wood door and window. The two materials are connected through the polymer nylon piece, and the properties of different shrinkage coefficients of wood and metal are fully taken care of.

The glass surface of the aluminum-wood door and window in the prior art is single-layer glass or double-layer glass, a layer of adhesive surface is generally adopted between the multiple layers of glass to be connected with the frame body, but for some larger and thicker glass, the smooth joint surface is not easy to stably install, and especially the installation stability of the double-layer structure arranged inside and outside needs to be improved; in addition, in hot summer, when glass was shone by the sun, glass face temperature rose, and the heat can transmit outside aluminum alloy bordure through wooden material, and is high because of the aluminum alloy bordure heat-conduction efficiency, and the indoor heat promotion that aggravates because door and window's thermal-insulated thermal insulation performance is not good, and indoor outdoor heat transfer rate is too fast, is difficult to play fine thermal-insulated effect.

Therefore, the hollow combined glass easy for installing aluminum-wood doors and windows is provided to effectively solve the problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a hollow combined glass easy for mounting aluminum-wood doors and windows, wherein a plurality of connectors are spliced end to realize hollow butt joint between double-layer glass, after splicing, a plurality of capsule storage tubes are in one-to-one buckling correspondence with bonding cavities, on one hand, the connecting surface between the connectors and the double-layer glass is enlarged, and the hollow butt joint is easy to position relative to a smooth glass connecting surface, on the other hand, the self-heating pad arranged at the outer end of the combined plate is utilized, the self-heating performance of the self-heating pad can increase the temperature of the embedded plate, so that outer hot melting layers on the capsule storage tubes are subjected to hot melting, glue materials are filled between the capsule storage tubes and the bonding cavities, the multi-point bonding between the connectors and the double-layer glass is realized, the mounting stability is improved, the double-layer glass is conveniently mounted in a frame body subsequently, in addition, after the air-permeable bag is torn off, an outer heat insulation frame is attached to the outer end wall of the combined plate, the high temperature at the glass is effectively blocked, and the high temperature is prevented from being transferred to the aluminum alloy structure of the doors and the windows.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The hollow combined glass easy to install the aluminum-wood door and window comprises a pair of glasses, wherein a hollow cavity is formed between the glasses, connectors are arranged on four end faces of the hollow cavity, each connector comprises a combined plate and an embedded plate connected to the inner end of the combined plate, the combined plates are connected in a splicing mode in an end-to-end mode, the embedded plates are embedded in the hollow cavity, a plurality of capsule storage pipes are embedded in two side walls of the embedded plates, a plurality of bonding cavities corresponding to the capsule storage pipes are formed in the inner end walls of the glasses in a drilling mode, each capsule storage pipe comprises an outer pipe body, an outer hot melting layer and a sizing material filled in the outer pipe body, the outer hot melting layer is arranged on the outer wall of the outer pipe body, self-heating pads are attached to the outer end walls of the combined plates in a multiple mode, each self-heating pad comprises a double-faced bonding layer and a breathable bag, self-heating filler is arranged in the breathable bag, and heat insulation outside the outer frame of the combined plates is arranged outside the double-faced bonding layer.

Furthermore, a pair of the combined plates which are oppositely arranged are provided with buckles which are provided with grooves, the other pair of the combined plates are connected with buckle blocks which are matched with the buckles and embedded in the grooves, the buckle grooves and the two combined plates which are easy to be connected end to end are buckled and spliced, and the connection stability is improved.

Furthermore, it is a plurality of inlay and establish the board end to end, inlay and establish all seted up the through-hole on the board both ends wall, a pair of that the end to end butt joint set up the through-hole forms the air guide passageway, and the air vent has all been seted up on one of them knot establishes the piece rather than the compoboard that is connected, and a pair of glass utilizes a plurality of connectors concatenation to accomplish the back, and a plurality of inlays and establishes the board and inlay and locate a pair of glass's cavity intracavity, and the compoboard supports on a pair of glass's outer end wall, utilizes the connectivity of air vent and air guide passageway this moment, is favorable to the technical staff to utilize external air exhaust equipment to take out the air in the cavity.

Furthermore, the hollow cavity is filled with inert gas, the inert gas is helium, and the inert gas is introduced after the hollow cavity is vacuumized, so that the heat insulation and sound insulation effects of the double-layer glass can be improved.

Furthermore, the capsule storage tube further comprises a magnetic column embedded in the inner end of the outer tube body, a pair of elastic extrusion flaps are arranged at the inner end of the magnetic column, one ends, far away from the magnetic column, of the elastic extrusion flaps are connected to the inner wall of the outer tube body, and the rubber material is located at the outer ends of the elastic extrusion flaps.

Furthermore, the elastic extrusion petals are made of metal materials, and the pair of elastic extrusion petals are arranged in an elastic bending mode.

Furthermore, the two side walls of the embedding plate are provided with embedding cavities matched with the capsule storage tubes, the inner end wall of each embedding cavity is provided with an adhesive groove, an inner hot melting layer connected with the magnetic columns is filled in each adhesive groove, the rubber material is coated in a space formed by the pair of elastic extrusion flaps and the outer tube body, after the plurality of groups of connectors and the pair of glass are spliced, the outer ends of the plurality of combined plates are attached with self-heating pads, the outer hot melting layer and the inner hot melting layer are hot-melted by the self-heating performance of the self-heating pads, and at the moment, the pair of elastic extrusion flaps elastically reset outwards to push the rubber material.

Furthermore, the inner hot melting layer and the outer hot melting layer are both made of hot melting resin materials, an overflow groove is formed in the inner end wall of the bonding cavity, a magnetic absorption layer magnetically attracted with the magnetic column is further embedded in the inner end of the bonding cavity, and the strength and the range of outward popping of the pair of elastic extrusion flaps are further improved by utilizing the magnetic attraction effect between the magnetic absorption layer and the magnetic column.

Furthermore, the outer end face of the breathable bag is coated with a breathable film, the self-heating filler is made of reducing iron powder, after the breathable film is torn off, the self-heating filler utilizes the reaction of the reducing iron powder and oxygen to generate heat, and high temperature is transmitted through the embedded plate of the combined plate, so that reaction conditions are provided for the hot melting of the external hot melting layer and the internal hot melting layer.

Furthermore, the heat insulation outer frame is made of heat insulation materials, and the binding face of the heat insulation outer frame and the combined plate is provided with the aerogel felt, so that high temperature of glass is effectively blocked, and the temperature of the glass is prevented from being transferred to the aluminum alloy wrapping structure of the door and window.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) This scheme utilizes a plurality of connectors end to end concatenation to realize the cavity butt joint between the double glazing, after the concatenation, a plurality of storage capsule pipes and bonding chamber buckle one by one and establish the correspondence, enlarge the connection face between connector and the double glazing on the one hand, connect the face for level and smooth glass, easily the location butt joint, on the other hand utilizes the self-heating pad of locating the compoboard outer end, the self-heating ability of self-heating pad makes to inlay the board temperature and rise, thereby make the outer hot melt layer hot melt on a plurality of storage capsule pipes, the sizing material overflows between storage capsule pipe and bonding chamber, realize the multiple spot bonding between connector and the double glazing, improve the installation steadiness, so that follow-up install double glazing in the frame, in addition, after tearing the ventilative bag package, attached thermal-insulated frame on the compoboard outer end wall, effectively block glass department high temperature, prevent that the temperature from transmitting to the aluminium alloy of door and window and bordures structurally.

(2) Seted up the knot on a pair of compoboard of relative setting and established the groove, be connected with on a pair of compoboard in addition and detain and establish the groove phase-match and inlay the knot that establishes and establish the piece, set up to detain and establish the groove and detain two compoboards that establish the piece and easily end to end and detain and establish the concatenation, improve and connect the steadiness.

(3) A plurality of inlay and establish the board end to end, inlay and establish all to have seted up the through-hole on the board both ends wall, a pair of through-hole that the end to end butt joint set up forms the air guide passageway, one of them detains and establishes all to have seted up the air vent on the compoboard rather than being connected, a pair of glass utilizes the concatenation of a plurality of connectors to accomplish the back, a plurality of inlays and establishes the board and inlays and locate a pair of glass's cavity intracavity, the compoboard supports on a pair of glass's outer end wall, utilize the connectivity of air vent and air guide passageway this moment, be favorable to the technical staff to utilize external air extraction equipment to take out the air in the cavity.

(4) The hollow cavity is filled with inert gas, the inert gas adopts helium, and the inert gas is introduced after the hollow cavity is vacuumized, so that the heat insulation and sound insulation effects of the double-layer glass can be improved.

(5) The capsule storage tube further comprises a magnetic column embedded in the inner end of the outer tube body, a pair of elastic extrusion flaps are arranged at the inner end of the magnetic column, one end, far away from the magnetic column, of each elastic extrusion flap is connected to the inner wall of the outer tube body, the rubber material is located at the outer end of each elastic extrusion flap, each elastic extrusion flap is made of a metal material, each elastic extrusion flap is elastically bent, two side walls of the embedding plate are provided with embedding cavities matched with the capsule storage tube, the inner end walls of the embedding cavities are provided with bonding grooves, the bonding grooves are filled with inner heat melting layers connected with the magnetic columns, the rubber material is coated in spaces formed by the elastic extrusion flaps and the outer tube body, after the self-heating pad generates heat, the outer heat melting layers and the inner heat melting layers melt, at the moment, the elastic extrusion flaps are elastically reset outwards, and a pushing effect is achieved on the rubber material.

(6) The inner hot melting layer and the outer hot melting layer are made of hot-melt resin materials, the overflow groove is formed in the inner end wall of the bonding cavity, the magnetic absorption layer which is magnetically absorbed with the magnetic column is embedded in the inner end of the bonding cavity, the force and the range of outward popping of the pair of elastic extrusion flaps are further improved by utilizing the magnetic absorption effect between the magnetic absorption layer and the magnetic column, the rubber material flows out of the outer pipe body and overflows into the overflow groove to form the uneven joining surface, and the joining between the capsule storage pipe and the glass surface is further improved.

(7) The outer end face of the breathable bag is coated with the breathable film, the self-heating filler is made of reducing iron powder, after the breathable film is torn off, the self-heating filler utilizes the reaction of the reducing iron powder and oxygen to generate heat, and high temperature is transferred through the embedded plate of the combined plate, so that reaction conditions are provided for hot melting of the external hot melting layer and the internal hot melting layer.

(8) The heat insulation outer frame is made of a heat insulation material, and the aerogel felt is arranged on the joint surface of the heat insulation outer frame and the combined plate, so that high temperature at the glass is effectively blocked, and the temperature at the glass is prevented from being transferred to an aluminum alloy wrapping structure of doors and windows.

Drawings

FIG. 1 is a first schematic diagram illustrating a splicing state according to the present invention;

FIG. 2 is a second schematic diagram of the splicing state of the present invention;

FIG. 3 is a perspective view of the present invention at a connector;

FIG. 4 is a schematic illustration of the splice at the junction of an adjacent pair of connectors according to the present invention;

FIG. 5 is a first schematic view of the interior of the joint of the embedding plate and the capsule storage tube of the present invention;

FIG. 6 is a second schematic view of the inside of the joint of the embedding plate and the capsule storage tube of the present invention;

FIG. 7 is a partial internal cross-sectional view of the combination plate of the present invention in combination with a self-heating pad.

The reference numbers in the figures illustrate:

1 glass, 101 bonding cavities, 2 composite boards, 201 fastening grooves, 202 fastening blocks, 3 embedding boards, 301 through holes, 4 capsule storage pipes, 401 outer pipe bodies, 402 outer hot melting layers, 403 magnetic columns, 404 elastic extrusion flaps, 405 glue stocks, 406 inner hot melting layers, 5 self-heating pads, 501 double-sided adhesive layers, 502 air-permeable capsules, 503 self-heating fillers, 6 vent holes and 7 heat insulation outer frames.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-2, a cavity combination glass easy for aluminum-wood doors and windows to be installed comprises a pair of glasses 1, a cavity is formed between the pair of glasses 1, connectors are arranged on four end faces of the cavity and comprise combination boards 2 and embedded boards 3 connected to the inner ends of the combination boards 2, the combination boards 2 are connected in an end-to-end splicing mode, buckling grooves 201 are formed in the pair of combination boards 2 which are oppositely arranged, buckling blocks 202 matched with the buckling grooves 201 in an embedded mode are connected to the other pair of combination boards 2, the buckling grooves 201 and the buckling blocks 202 are arranged to enable the two combination boards 2 connected end to be buckled and spliced easily, and connection stability is improved.

Referring to fig. 2-4, a plurality of embedding plates 3 are all embedded in the hollow cavity, a plurality of capsule storage tubes 4 are embedded on two side walls of the embedding plates 3, a plurality of bonding cavities 101 corresponding to the capsule storage tubes 4 are all drilled on the inner end walls of a pair of glass 1, the plurality of embedding plates 3 are connected end to end, through holes 301 are all formed on the two end walls of the embedding plates 3, a pair of through holes 301 which are butt-jointed end to end form an air guide channel, a fastening block 202 and a combination plate 2 connected with the fastening block are all provided with vent holes 6, after the pair of glass 1 is spliced by a plurality of connectors, the plurality of embedding plates 3 are embedded in the hollow cavity of the pair of glass 1, the combination plate 2 abuts against the outer end walls of the pair of glass 1, at the moment, the connectivity between the vent holes 6 and the air guide channel is used for a technician to draw out air in the hollow cavity by using an external air extractor, inert gas is filled in the hollow cavity, helium is used for introducing inert gas after the hollow cavity is vacuumized, and is more beneficial to improving the heat insulation and sound insulation effects of the double-proof glass.

Referring to fig. 2 and 5-7, the capsule storage tube 4 includes an outer tube 401, an outer hot melt layer 402 and a glue 405 filled in the outer tube 401, the outer hot melt layer 402 is disposed on the outer wall of the outer tube 401, a self-heating pad 5 is attached to the outer end wall of each of the plurality of combination plates 2, the self-heating pad 5 includes a double-sided adhesive layer 501 and a gas-permeable bag 502, the gas-permeable bag 502 is adhered to the double-sided adhesive layer 501, the double-sided adhesive layer 501 has a double-sided adhesive effect, a self-heating filler 503 is disposed in the gas-permeable bag 502, an air-permeable film is wrapped on the outer end surface of the gas-permeable bag 502, the self-heating filler 503 is made of reducing iron powder, heat is generated by reaction of the reducing iron powder and oxygen, a hot melting condition is provided for the outer tube 402, at this time, the glue 405 in the outer tube 401 overflows, and the connection between the capsule storage tube 4 and the adhesive layer 101 is realized.

Referring to fig. 5-6, the capsule storage tube 4 further includes a magnetic column 403 embedded in the inner end of the outer tube 401, a pair of elastic squeezing flaps 404 is disposed at the inner end of the magnetic column 403, one end of the pair of elastic squeezing flaps 404 away from the magnetic column 403 is connected to the inner wall of the outer tube 401, a glue 405 is disposed at the outer end of the pair of elastic squeezing flaps 404, the elastic squeezing flaps 404 are made of metal material, the pair of elastic squeezing flaps 404 are both elastically bent, an embedded cavity matched with the capsule storage tube 4 is disposed on two side walls of the embedded plate 3, an adhesive groove is disposed on the inner end wall of the embedded cavity, an inner hot melt layer 406 engaged with the magnetic column 403 is filled in the adhesive groove, the glue 405 is coated in a space formed by the pair of elastic squeezing flaps 404 and the outer tube 401, when the plurality of sets of connectors are completely spliced with the pair of glasses 1, the outer ends of the combined plates 2 are attached with self-heating pads 5, the outer end face of the air-permeable bag 502 is coated with an air-permeable film, the self-heating property of the self-heating filler 503 is utilized, so that reaction conditions are provided for hot melting of the outer hot melting layer 402 and the inner hot melting layer 406, the hot melting temperature range of the outer hot melting layer 402 and the inner hot melting layer 406 is in the temperature range of heat generation of the self-heating filler 503, after the outer hot melting layer 402 and the inner hot melting layer 406 are subjected to hot melting, the pair of elastic extrusion flaps 404 is elastically reset outwards, the glue materials 405 are extruded outwards through the outer hot melting layer 402, the glue materials 405 are filled between the capsule storage tubes 4 and the bonding cavities 101, tight bonding between the outer tube 401 and the bonding cavities 101 is realized, the plurality of capsule storage tubes 4 and the bonding cavities 101 are distributed in a one-to-one correspondence manner, and multi-point bonding positioning between a pair of glasses 1 is realized.

The inner hot melting layer 406 and the outer hot melting layer 402 are both made of hot-melt resin materials, an overflow groove is formed in the inner end wall of the bonding cavity 101, a magnetic absorption layer magnetically attracted with the magnetic column 403 is embedded in the inner end of the bonding cavity 101, and the force and the range of outward popping of the pair of elastic squeezing flaps 404 are further improved by utilizing the magnetic attraction effect between the magnetic absorption layer and the magnetic column 403.

Referring to fig. 1, a pair of adjacent combination boards 2 are provided with a heat insulation outer frame 7, the pair of heat insulation outer frames 7 are vertically spliced at the outer ends of the combination boards 2, after the reaction is finished, the air-permeable bag 502 is torn off, the heat insulation outer frame 7 is attached to the double-sided adhesive layer 501, the heat insulation outer frame 7 is made of a heat insulation material, the aerogel felt is arranged on the attaching surface of the heat insulation outer frame 7 and the combination boards 2, the high temperature at the glass 1 is effectively blocked, and the temperature at the glass 1 is prevented from being transmitted to the aluminum alloy wrapping structure of the door and window

The invention realizes hollow butt joint between a pair of glasses 1 by splicing the head and the tail of a plurality of connectors to form a hollow double-layer structure, a plurality of capsule storage tubes 4 on an embedded plate 3 correspond to one-to-one buckling of a plurality of bonding cavities 101, on one hand, the connection surfaces between the connectors and the pair of glasses 1 are enlarged, and the connection surfaces are easy to position and butt joint relative to smooth glass bonding surfaces, on the other hand, the self-heating pads 5 attached on the outer end walls of a combined plate 2 are utilized, the temperature at the embedded plate 3 is increased by the self-heating of the self-heating pads 5, so that outer hot-melting layers 402 on the capsule storage tubes 4 are hot-melted, glue materials 405 are overflowed on the bonding surfaces of the capsule storage tubes 4 and the bonding cavities 101, so that the multi-point bonding between the connectors and the pair of glasses 1 is realized, the stable installation between the double-layer glasses and the connectors is easy, so as to install the double-layer glasses in a frame body subsequently, in addition, after tearing off the air-permeable bag 502, a pair of heat-insulating frames 7 are attached on the outer end walls of the combined plate 2, the high temperature at the glass 1 is effectively blocked, and the temperature at the glass 1 is prevented from being transferred to an aluminum alloy outer frame structure of a door window.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides an easy cavity combination glass of aluminum-wood door and window installation, includes a pair of glass (1), and is a pair of form cavity in between glass (1), its characterized in that: connectors are arranged on four end faces of the hollow cavity, each connector comprises a combined plate (2) and an embedded plate (3) connected to the inner end of the combined plate (2), the combined plates (2) are spliced end to end, the embedded plates (3) are embedded in the hollow cavity, a plurality of capsule storage tubes (4) are embedded in two side walls of each embedded plate (3), and a plurality of bonding cavities (101) corresponding to the capsule storage tubes (4) are drilled in the inner end walls of the pair of glass (1);

the capsule storage tube (4) comprises an outer tube body (401), an outer hot melt layer (402) and a rubber material (405) filled in the outer tube body (401), the outer hot melt layer (402) is arranged on the outer wall of the outer tube body (401), self-heating pads (5) are attached to the outer end walls of the multiple combined plates (2), each self-heating pad (5) comprises a double-sided adhesive layer (501) and a breathable bag (502), self-heating filler (503) is arranged in the breathable bag (502), after the reaction is finished, the breathable bag (502) is torn off, a heat insulation outer frame (7) is attached to the double-sided adhesive layer (501), and the pair of heat insulation outer frames (7) are vertically spliced at the outer ends of the combined plates (2); the capsule storage tube (4) further comprises a magnetic column (403) embedded in the inner end of the outer tube body (401), a pair of elastic extrusion flaps (404) is arranged at the inner end of the magnetic column (403), one ends, far away from the magnetic column (403), of the pair of elastic extrusion flaps (404) are connected to the inner wall of the outer tube body (401), and the rubber material (405) is located at the outer ends of the pair of elastic extrusion flaps (404); the rubber material (405) is coated in a space formed by the pair of elastic extrusion petals (404) and the outer tube body (401), the elastic extrusion petals (404) are made of metal materials, and the pair of elastic extrusion petals (404) are arranged in an elastic bending mode;

an embedded cavity matched with the capsule storage tube (4) is formed in the two side walls of the embedded plate (3), an adhesive groove is formed in the inner end wall of the embedded cavity, and an internal hot-melt layer (406) connected with the magnetic column (403) is filled in the adhesive groove; the inner hot-melting layer (406) and the outer hot-melting layer (402) are both made of hot-melting resin materials, an overflow groove is formed in the inner end wall of the bonding cavity (101), and a magnetic absorption layer which is magnetically attracted with the magnetic column (403) is embedded in the inner end of the bonding cavity (101); the outer hot-melt layer (402) and the inner hot-melt layer (406) have a hot-melt temperature range within a temperature range in which heat is generated from the hot filler (503).

2. The hollow combined glass for easy aluminum-wood door and window installation according to claim 1, characterized in that: the pair of the combined plates (2) which are oppositely arranged are provided with buckling grooves (201), and the other pair of the combined plates (2) are connected with buckling blocks (202) which are matched and embedded with the buckling grooves (201).

3. The hollow combined glass for easy aluminum-wood door and window installation according to claim 2, characterized in that: a plurality of inlays and establishes board (3) end to end and meet, inlay and establish all seted up through-hole (301) on board (3) both ends wall, the end to end butt joint sets up a pair of through-hole (301) form the air guide passageway, and one of them is detained and is established piece (202) and all seted up on compoboard (2) rather than being connected air vent (6).

4. The hollow combined glass for easy aluminum-wood door and window installation according to claim 1, characterized in that: and inert gas is filled in the hollow cavity, and helium is adopted as the inert gas.

5. The hollow combined glass for easy aluminum-wood door and window installation according to claim 1, characterized in that: the outer end face of the air-permeable bag (502) is coated with an air-permeable film, and the self-heating filler (503) is made of reducing iron powder.

6. The hollow combined glass for the easy installation of aluminum-wood doors and windows as claimed in claim 1, wherein: the heat insulation outer frame (7) is made of heat insulation materials, and the attaching surface of the heat insulation outer frame (7) and the combined plate (2) is provided with aerogel felts.