CN112627681A

CN112627681A - High heat preservation windproof type bridge-cut-off aluminum alloy door and window

Info

Publication number: CN112627681A
Application number: CN202011502586.3A
Authority: CN
Inventors: 徐立忠
Original assignee: Nantong Haiying Door And Window Installation Engineering Co ltd
Current assignee: Jiangsu Haiying deratu Energy Saving Technology Co.,Ltd.
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-04-09
Anticipated expiration: 2040-12-17
Also published as: CN112627681B

Abstract

The invention discloses a high-heat-preservation windproof type bridge-cut aluminum alloy door and window, which belongs to the technical field of aluminum alloy doors and windows, and can guide and disperse wind power by arranging a plurality of light-gathering induced air hemispheres on a bridge-cut aluminum alloy frame, form extrusion force from the inner side by utilizing the characteristics of high flow speed and low pressure to resist partial wind power and gather external heat at the same time, realize the light energy conduction control in the bridge-cut aluminum alloy frame based on the effect of controlling a magnetic field by a temperature sensing magnetic control bag according to external temperature, block the light energy conduction in high-temperature weather, lead the light energy to an internal light-heat composite ball after recovering in low-temperature weather, convert the light energy into heat energy through the light-heat conversion action and trigger a channel for releasing the heat into the room, then convey the heat converted in daytime to the room by a heat conduction composite rod to compensate the heat lost to the outside so as to realize all-weather, and then the diversion realizes improving the heat preservation effect of bridge cut-off aluminium door and window.

Description

High heat preservation windproof type bridge-cut-off aluminum alloy door and window

Technical Field

The invention relates to the technical field of aluminum alloy doors and windows, in particular to a high-heat-preservation windproof bridge-cut-off aluminum alloy door and window.

Background

The door and window is one of the important external enclosure structures of the building, and has the functions of wind and rain shielding, heat insulation, sound insulation, lighting, ventilation and the like. With the improvement of living standard of people, the requirements for doors and windows in decoration are higher and higher. The door and window has wide market prospect due to unique advantages as a product with large usage amount and wide application. On the premise of exerting the advantages of the door and window and improving the problems in the using process, the novel high-performance door and window starts to walk into the sight of consumers.

The bridge-cut-off aluminum door and window adopts heat-insulating bridge-cut-off aluminum profiles and hollow glass, and has the functions of energy conservation, sound insulation, noise prevention, dust prevention, water prevention and the like. The heat conduction coefficient K value of the broken bridge aluminum door and window is less than 3W/square meter K, the heat loss is reduced by half compared with the common door and window, the heating cost is reduced by about 30 percent, the sound insulation quantity reaches more than 29 decibels, and the water tightness and the air tightness both reach the national A1 window standard.

However, the existing bridge-cut-off aluminum door and window still has insufficient heat preservation performance, and heat can still be lost along with the lapse of time, because the material itself determines, and only can reduce heat conduction but can not completely block or supplement depending on the characteristics of the material, and particularly in cold winter, the heat preservation effect of the bridge-cut-off aluminum door and window is more satisfactory.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a high-heat-preservation windproof type bridge-cut aluminum alloy door and window, which can guide and disperse wind power by arranging a plurality of light-gathering induced air hemispheres on a bridge-cut aluminum alloy frame, form extrusion force from the inner side by utilizing the characteristics of high flow speed and low pressure to resist partial wind power and gather external heat at the same time, realize the light energy conduction control in the bridge-cut aluminum alloy frame based on the effect of controlling a magnetic field by a temperature sensing and magnetic control bag according to the external temperature, block the light energy conduction in high-temperature weather, recover in low-temperature weather, guide the light energy to an internal photo-thermal composite ball, convert the light energy into heat energy through the photo-thermal conversion effect, trigger a channel for the heat to be dissipated to the indoor space, and then convey the heat converted in daytime to the indoor space by a heat-conducting composite rod to compensate the heat lost to, meanwhile, redundant heat is stored and released indoors at night, all-weather heat supplement is achieved, and the heat preservation effect of the bridge-cut-off aluminum door and window is improved through diversion.

2. Technical scheme

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

A high-heat-preservation windproof type broken bridge aluminum alloy door and window comprises hollow glass and a broken bridge aluminum alloy frame arranged on the outer side of the hollow glass, wherein the outer end of the broken bridge aluminum alloy frame is connected with a plurality of uniformly-distributed light-gathering induced draft hemispheres, the inner end of the broken bridge aluminum alloy frame is connected with a plurality of light-control blocks corresponding to the light-gathering induced draft hemispheres in an embedded manner, one ends of the light-control blocks, which are far away from the light-gathering induced draft hemispheres, are connected with temperature-control blocks, the temperature-control blocks extend to the inner surface of the broken bridge aluminum alloy frame, the inner ends of the temperature-control blocks are connected with a plurality of uniformly-distributed heat-conducting composite rods in an embedded manner, a plurality of light-heat composite balls corresponding to the heat-conducting composite rods are connected between the temperature-control blocks and the light-control blocks in an embedded manner, a plurality of light holes matched with the, one side, away from fixed leaded light stick, of the elastic light barrier is provided with a movable leaded light stick, and one end of the movable leaded light stick extends to the inner side of the condensation induced draft hemisphere.

Furthermore, the inner end of the condensation induced draft hemisphere is connected with a plurality of temperature sensing and magnetic control packages which are distributed in a staggered mode with the movable light guide rod, one end, close to the temperature sensing and magnetic control packages, of the movable light guide rod is connected with a magnet ring, a plurality of elastic reset wires are connected between the magnet ring and the light control block, the effect of the magnetic field is controlled through the temperature sensing and magnetic control packages according to the external temperature, the connection effect between the movable light guide rod and the fixed light guide rod is controlled, when the outside is in a high-temperature state, the temperature sensing and magnetic control packages expose the magnetic field to adsorb the movable light guide rod and separate from the fixed light guide rod, the conduction of light is cut off through the elastic light blocking sheet, when the temperature sensing and magnetic control packages are in a low-temperature state, the magnetic field of the temperature sensing and magnetic control packages is invalid or weakened.

Further, magnetism is controlled to temperature sensing package is including fixed magnet, many heat conduction poles and magnetic screen air bags, fixed magnet and spotlight induced air hemisphere inner wall connection, magnetic screen air bags connect in the one end that fixed magnet kept away from spotlight induced air hemisphere, and the heat conduction pole inlays to be connected in fixed magnet, and the heat conduction pole plays the effect of perception ambient temperature, then feeds back the temperature to magnetic screen air bags, triggers corresponding action by magnetic screen air bags.

Further, magnetic screen gasbag includes temperature sensing gasbag and multi-disc magnetic screen scale, the intensive cover in temperature sensing gasbag surface of magnetic screen scale, and mutual independence between the magnetic screen scale, normal or magnetic screen scale is through covering the magnetic field shielding effect that realizes fixed magnet completely under the low temperature state, and the air in the temperature sensing gasbag is heated the inflation and then forces the temperature sensing gasbag also synchronous inflation under the high temperature state, appears the space between the magnetic screen scale, and magnetic field can pierce through and apply the magnet ring on giving the removal leaded light stick.

Further, compound ball of light and heat includes diolame hemisphere, heat conduction hemisphere and light and heat piece, diolame hemisphere and heat conduction hemisphere symmetric connection, and the inner inside sunken contact with heat conduction hemisphere not of diolame hemisphere, the light and heat piece is inlayed and is connected in the diolame hemisphere, only receive light energy and turn into light energy back into heat energy by the light and heat piece at the diolame hemisphere, and the air thermal expansion in the light and heat piece forces synchronous inflation of light and heat conduction hemisphere to realize the heat conduction effect with the heat conduction hemisphere, and contactless can reduce the heat and run off to the external world through this department under the normal condition.

Further, the light and heat piece adopts the heat conduction material to make the cellular structure, the node of light and heat piece is connected with reflection of light piece, light and heat piece surface connection has the light and heat conversion material layer, and cellular structure both can heat the air of inside fast, and the multiple refraction of light can be realized to cooperation reflection of light piece simultaneously, improves and to the light energy utilization ratio, and the light and heat conversion material layer can be more efficient turns into heat energy with light energy.

Furthermore, inlay in the heat conduction hemisphere and be connected with the heat accumulation ball, the heat accumulation ball intussuseption is filled with phase change heat storage material, and phase change heat storage material in the heat accumulation ball can collect unnecessary heat and store, loses light and heat conversion effect back at night, again with the heat of storing to indoor release supply bridge cut-off aluminum alloy frame on heat loss.

Further, the heat conduction composite rod comprises a shaping pipe, an inner heat conduction bag and an outer heat conduction bag, the inner heat conduction bag is inserted into the shaping pipe, the outer heat conduction bag is connected to one end, far away from the photo-thermal composite ball, of the shaping pipe, the outer heat conduction bag is isolated from the indoor environment under the elastic wrapping effect of the temperature control block in a normal state, indoor heat is prevented from being absorbed under an idle state, after heat is generated on the photo-thermal composite ball, air is extruded into the shaping pipe through the heat conduction hemisphere after expansion of the envelope hemisphere, and the outer heat conduction bag is triggered to contact with the indoor environment under the expansion effect of the outer surface of the temperature control block based on the connection effect of the outer heat conduction bag and the inner heat conduction bag.

Furthermore, the heat conduction oil and the heat conduction sand with the mass ratio of 1:1 are filled in the inner heat conduction bag and the outer heat conduction bag, and the inner heat conduction bag and the outer heat conduction bag are communicated with each other, so that good heat conduction performance can be met, and meanwhile, partial heat conduction oil and the heat conduction sand can flow into the outer heat conduction bag to force the outer heat conduction bag to expand after the inner heat conduction bag is extruded.

Furthermore, the light control block is made of hard heat-insulating materials, the temperature control block is made of elastic heat-insulating materials, the light control block and the temperature control block have good heat-insulating effects, and meanwhile, the light control block assists in improving the strength of the bridge-cut-off aluminum alloy frame.

3. Advantageous effects

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

(1) the invention can not only guide and disperse the wind power by arranging a plurality of light-gathering induced draft hemispheres on the bridge-cut aluminum alloy frame, form extrusion force from the inner side by utilizing the characteristics of high flow speed and low pressure intensity to resist partial wind power, but also gather external heat, realize the light energy conduction control in the bridge-cut aluminum alloy frame based on the effect of controlling a magnetic field by the temperature sensing magnetic control bag according to the external temperature, block the light energy conduction in high-temperature weather, recover in low-temperature weather, guide the light energy to the internal light and heat composite ball, convert the light energy into heat energy through the light and heat conversion action, trigger a channel for emitting the heat energy to the room, transmit the heat energy converted in the daytime to the room by the heat conductive composite rod to compensate the heat energy lost to the external, store the redundant heat energy and release the heat energy to the room at night to realize all-weather heat supplement, and then the diversion realizes improving the heat preservation effect of bridge cut-off aluminium door and window.

(2) The inner of spotlight induced air hemisphere is connected with a plurality of temperature sensing accuse magnetism package with the crisscross distribution of removal leaded light stick, it is connected with the magnet ring to remove leaded light stick and be close to temperature sensing accuse magnetism package one end, be connected with many elasticity reset wires between magnet ring and the accuse light piece, the effect according to ambient temperature control magnetic field through temperature sensing accuse magnetism package, and then the control removes the joining action between leaded light stick and the fixed leaded light stick, when the external world is in high temperature state, temperature sensing accuse magnetism package exposes magnetic field absorption and removes leaded light stick and fixed leaded light stick separation, cut off the conduction of light through the elasticity light barrier, when being in under the low temperature state, temperature sensing accuse magnetism package magnetic field is invalid or weaken, remove the leaded light stick and reset under the indirect effect of elasticity reset wire and pass elasticity light barrier and be connected with the fixed stick, establish light.

(3) Temperature sensing accuse magnetism package is including fixed magnet, many heat conduction poles and magnetic screen gasbag, fixed magnet and spotlight induced air hemisphere inner wall connection, and magnetic screen gasbag connects in the one end that spotlight induced air hemisphere was kept away from to fixed magnet, and the heat conduction pole inlays to be connected in fixed magnet, and the heat conduction pole plays the effect of perception ambient temperature, then with temperature feedback to magnetic screen gasbag, triggers corresponding action by magnetic screen gasbag.

(4) Magnetic screen gasbag includes temperature sensing gasbag and multi-disc magnetic screen scale, and the intensive cover in temperature sensing gasbag surface of magnetic screen scale, and mutual independence between the magnetic screen scale, and normal or low temperature state down the magnetic screen scale realizes the magnetic field shielding effect to fixed magnet through covering completely, and the air in the temperature sensing gasbag is heated the inflation and then forces the temperature sensing gasbag also synchronous inflation under the high temperature state, appears the space between the magnetic screen scale, and the magnetic field can pierce through and apply the magnet ring on giving the removal leaded light stick.

(5) The compound ball of light and heat includes the diolame hemisphere, heat conduction hemisphere and light and heat piece, diolame hemisphere and heat conduction hemisphere symmetric connection, and the inner inwards sunken of diolame hemisphere not with the contact of heat conduction hemisphere, the light and heat piece is inlayed and is connected in the diolame hemisphere, only receive light energy at the diolame hemisphere and by the light and heat piece with light energy conversion after into heat energy, the air thermal expansion in the light and heat piece is heated and forces the synchronous inflation of light and heat conduction hemisphere to realize the heat conduction effect with the contact of heat conduction hemisphere, non-contact can reduce the heat and run off to the external world through here under the normal condition.

(6) The light and heat piece adopts the heat conduction material to make cellular structure, and the node of light and heat piece is connected with reflection of light piece, and light and heat piece surface is connected with the light and heat conversion material layer, and cellular structure both can heat the air of inside fast, and the multiple refraction of light can be realized to the cooperation reflection of light piece simultaneously, improves and to the light energy utilization ratio, and the light and heat conversion material layer can be more efficient turns into heat energy with light energy.

(7) Inlay in the heat conduction hemisphere and be connected with the heat storage ball, the heat storage ball intussuseption is filled with phase change heat storage material, and phase change heat storage material in the heat storage ball can collect unnecessary heat and store, loses light and heat conversion effect back night, again with the heat of storing to indoor release supply bridge cut-off aluminum alloy frame on heat loss.

(8) The heat conduction composite rod comprises a shaping pipe, an inner heat conduction bag and an outer heat conduction bag, the inner heat conduction bag is inserted into the shaping pipe, the outer heat conduction bag is connected to the shaping pipe and is far away from one end of the photo-thermal composite ball, the outer heat conduction bag is isolated from the indoor environment under the elastic wrapping effect of the temperature control block under the normal state, the indoor heat is prevented from being absorbed under the idle state, and after the heat is generated on the photo-thermal composite ball, the air is extruded into the shaping pipe through the heat conduction hemisphere after being expanded by the envelope hemisphere, the inner heat conduction bag is extruded, and based on the connection effect of the outer heat conduction bag and the inner heat conduction bag, the outer heat conduction bag is triggered to contact with the indoor environment under the expansion effect of the outer.

(9) The heat conduction oil and the heat conduction sand with the mass ratio of 1:1 are filled in the inner heat conduction bag and the outer heat conduction bag, the inner heat conduction bag and the outer heat conduction bag are communicated with each other, so that good heat conduction performance can be met, and meanwhile, partial heat conduction oil and the heat conduction sand can flow into the outer heat conduction bag to force the outer heat conduction bag to expand when the inner heat conduction bag is extruded.

(10) The light control block is made of hard heat insulation materials, the temperature control block is made of elastic heat insulation materials, the light control block and the temperature control block have good heat insulation effects, and meanwhile, the light control block assists in improving the strength of the bridge-cut-off aluminum alloy frame.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a bridge cut-off aluminum alloy frame according to the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the structure at B in FIG. 2;

FIG. 5 is a schematic structural view of the temperature-sensing and control magnetic package of the present invention in a normal state;

FIG. 6 is a schematic structural diagram of the temperature-sensing magnetic control package in an expanded state according to the present invention;

FIG. 7 is a schematic structural view of a photo-thermal composite sphere and a thermal conductive composite rod according to the present invention in a normal state;

fig. 8 is a schematic structural view of the photothermal composite sphere and the heat-conductive composite rod of the present invention in an expanded state.

The reference numbers in the figures illustrate:

1 hollow glass, 2 bridge-cut-off aluminum alloy frames, 3 light-gathering induced draft hemispheres, 4 temperature-sensing magnetic control bags, 401 fixed magnets, 402 heat conducting rods, 403 temperature-sensing airbags, 404 magnetic shielding scales, 5 light control blocks, 6 temperature control blocks, 7 fixed light guide rods, 8 photo-thermal composite balls, 801 coated hemispheres, 802 heat conducting hemispheres, 803 photo-thermal blocks, 9 heat conducting composite rods, 901 shaping tubes, 902 inner heat conducting bags, 903 outer heat conducting bags, 10 elastic light blocking sheets, 11 movable light guide rods, 12 magnet rings, 13 elastic reset wires, 14 reflecting sheets and 15 heat storage balls.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope 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. 1-4, a high heat-preservation and wind-proof type bridge-cut aluminum alloy door and window comprises a hollow glass 1 and a bridge-cut aluminum alloy frame 2 arranged outside the hollow glass 1, the outer end of the bridge-cut aluminum alloy frame 2 is connected with a plurality of uniformly distributed light-gathering induced air hemispheres 3, the inner end of the bridge-cut aluminum alloy frame 2 is connected with a plurality of light-controlling blocks 5 corresponding to the light-gathering induced air hemispheres 3 in an embedding manner, one end of each light-controlling block 5, far away from the light-gathering induced air hemispheres 3, is connected with a temperature-controlling block 6, the temperature-controlling block 6 extends to the inner surface of the bridge-cut aluminum alloy frame 2, the inner end of the temperature-controlling block 6 is connected with a plurality of uniformly distributed heat-conducting composite rods 9 in an embedding manner, a plurality of light-heat composite balls 8 corresponding to the heat-conducting composite rods 9 are connected between the temperature-controlling block 6 and the light-controlling, the middle part of the light hole is connected with an elastic light barrier 10, one side of the elastic light barrier 10, which is far away from the fixed light guide rod 7, is provided with a movable light guide rod 11, and one end of the movable light guide rod 11 extends to the inner side of the light-gathering induced draft hemisphere 3.

The light control block 5 is made of hard heat insulation materials, the temperature control block 6 is made of elastic heat insulation materials, the light control block 5 and the temperature control block 6 have good heat insulation effects, and meanwhile, the light control block 5 assists in improving the strength of the bridge-cut-off aluminum alloy frame 2.

The inner of the condensation induced air hemisphere 3 is connected with a plurality of temperature sensing and magnetic control packages 4 which are distributed in a staggered mode with the movable light guide rod 11, one end, close to the temperature sensing and magnetic control packages 4, of the movable light guide rod 11 is connected with a magnet ring 12, a plurality of elastic reset wires 13 are connected between the magnet ring 12 and the light control block 5, the effect of a magnetic field is controlled through the temperature sensing and magnetic control packages 4 according to the external temperature, further the connection effect between the movable light guide rod 11 and the fixed light guide rod 7 is controlled, when the outside is in a high-temperature state, the temperature sensing and magnetic control packages 4 expose the magnetic field to adsorb the movable light guide rod 11 and the fixed light guide rod 7 to be separated, light conduction is cut off through the elastic light blocking sheet 10, when the temperature is in a low-temperature state, the magnetic field of the temperature sensing and magnetic control packages 4 is invalid or weakened, the movable light guide rod.

Referring to fig. 5-6, the temperature sensing and magnetic control package 4 includes a fixed magnet 401, a plurality of heat conducting rods 402 and a magnetic shielding airbag, the fixed magnet 401 is connected to the inner wall of the light gathering and air inducing hemisphere 3, the magnetic shielding airbag is connected to one end of the fixed magnet 401 far away from the light gathering and air inducing hemisphere 3, the heat conducting rods 402 are embedded and connected to the fixed magnet 401, the heat conducting rods 402 sense the external temperature, then feed the temperature back to the magnetic shielding airbag, and the magnetic shielding airbag triggers a corresponding action.

Magnetic shield gasbag includes temperature sensing gasbag 403 and multi-disc magnetic shield scale 404, magnetic shield scale 404 covers in temperature sensing gasbag 403 surface intensively, and mutual independence between the magnetic shield scale 404, magnetic shield scale 404 realizes the magnetic field shielding effect to fixed magnet 401 through covering completely under normal or low temperature state, the air thermal expansion in the temperature sensing gasbag 403 and then force temperature sensing gasbag 403 also synchronous expansion under the high temperature state, the space appears between the magnetic shield scale 404, magnetic field can pierce through and apply magnet ring 12 on removing the light guide stick 11.

Referring to fig. 7-8, the photothermal composite sphere 8 includes an enveloped hemisphere 801, a heat conducting hemisphere 802 and a photothermal block 803, the enveloped hemisphere 801 is symmetrically connected to the heat conducting hemisphere 802, the inner end of the enveloped hemisphere 801 is recessed inwards and does not contact with the heat conducting hemisphere 802, the photothermal block 803 is embedded and connected in the enveloped hemisphere 801, only when the enveloped hemisphere 801 receives light energy and the photothermal block 803 converts the light energy into heat energy, the air in the photothermal block 803 is heated to expand and force the photothermal block 803 and the enveloped hemisphere 801 to synchronously expand and contact with the heat conducting hemisphere 802 to realize heat conduction, and the loss of heat to the outside through the non-contact in a normal state can be reduced.

The light and heat piece 803 adopts the heat conduction material to make cellular structure, the node of light and heat piece 803 is connected with reflection of light piece 14, light and heat piece 803 external surface is connected with the light and heat conversion material layer, the light and heat conversion material can be black charcoal base material, cellular structure both can heat the air of inside fast, the multiple refraction of light can be realized to cooperation reflection of light piece 14 simultaneously, the improvement is to the light energy utilization ratio, the light and heat conversion material layer can be more efficient turn into heat energy with the light energy.

Inlay in the heat conduction hemisphere 802 and be connected with heat accumulation ball 15, heat accumulation ball 15 intussuseption is filled with phase change heat storage material, and phase change heat storage material in the heat accumulation ball 15 can collect unnecessary heat and store, loses light and heat conversion effect back night, again with the heat of storing to indoor release supply bridge cut-off aluminum alloy frame 2 on heat loss.

The heat-conducting composite rod 9 comprises a shaping pipe 901, an inner heat-conducting bag 902 and an outer heat-conducting bag 903, wherein the inner heat-conducting bag 902 is inserted into the shaping pipe 901, the outer heat-conducting bag 903 is connected to one end, far away from the photo-thermal composite ball 8, of the shaping pipe 901, the outer heat-conducting bag 903 is isolated from the indoor environment under the elastic wrapping effect of the temperature control block 6 in a normal state, the situation that the indoor heat can be absorbed in an idle state is avoided, after heat is generated on the photo-thermal composite ball 8, air is extruded into the shaping pipe 901 through the heat-conducting hemisphere 802 after the envelope hemisphere 801 expands, and the inner heat-conducting bag 902 is extruded, and based on the connecting effect of the outer heat-conducting bag 903 and the inner heat-conducting bag 902, the expansion effect of the outer heat-conducting bag 903 to the.

The inner heat conduction bag 902 and the outer heat conduction bag 903 are filled with heat conduction oil and heat conduction sand in a mass ratio of 1:1, the inner heat conduction bag 902 and the outer heat conduction bag 903 are communicated with each other, good heat conduction performance can be met, and meanwhile, after the inner heat conduction bag 902 is extruded, partial heat conduction oil and heat conduction sand flow into the outer heat conduction bag 903 to force the outer heat conduction bag 903 to expand.

The invention can not only guide and disperse the wind power by arranging a plurality of light-gathering induced draft hemispheres 3 on the bridge-cut-off aluminum alloy frame 2, utilize the characteristics of high flow speed and low pressure intensity to form extrusion force from the inner side to resist partial wind power, but also gather external heat, realize the light energy conduction control in the bridge-cut-off aluminum alloy frame 2 based on the effect of controlling a magnetic field by the temperature sensing magnetic control bag 4 according to the external temperature, block the light energy conduction in high-temperature weather, recover in low-temperature weather, guide the light energy to the internal photo-thermal composite ball 8, convert the light energy into heat energy through the photo-thermal conversion effect, trigger a channel for the heat to be emitted indoors, then transmit the heat converted in daytime to the indoor by the heat conduction composite rod 9 to compensate the heat lost to the external, simultaneously store the redundant heat and release the heat to the indoor at night to realize all-weather heat supplement, and then the diversion realizes improving the heat preservation effect of bridge cut-off aluminium door and window.

The above are merely preferred embodiments of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides a type bridge cut-off aluminum alloy door and window is prevent wind to high heat preservation, includes cavity glass (1) and installs in bridge cut-off aluminum alloy frame (2) in cavity glass (1) outside, its characterized in that: the outer end of the broken bridge aluminum alloy frame (2) is connected with a plurality of uniformly distributed light-gathering induced draft hemispheres (3), the inner end of the broken bridge aluminum alloy frame (2) is connected with a plurality of light control blocks (5) corresponding to the light-gathering induced draft hemispheres (3) in an embedded manner, one end, away from the light-gathering induced draft hemispheres (3), of each light control block (5) is connected with a temperature control block (6), each temperature control block (6) extends to the inner surface of the broken bridge aluminum alloy frame (2), the inner end of each temperature control block (6) is connected with a plurality of uniformly distributed heat-conducting composite rods (9) in an embedded manner, a plurality of light-heat composite balls (8) corresponding to the heat-conducting composite rods (9) are connected between the temperature control blocks (6) and the light control blocks (5) in an embedded manner, a plurality of light holes matched with the light-heat composite balls (8) are formed in the light control blocks (5), and fixed light, the middle part of the light hole is connected with an elastic light blocking sheet (10), one side, away from the fixed light guide rod (7), of the elastic light blocking sheet (10) is provided with a movable light guide rod (11), and one end of the movable light guide rod (11) extends to the inner side of the light-gathering air-inducing hemisphere (3).

2. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 1, characterized in that: the inner end of the light-gathering induced draft hemisphere (3) is connected with a plurality of temperature sensing and magnetic control packages (4) which are distributed in a staggered mode with the movable light guide rod (11), one end, close to the temperature sensing and magnetic control packages (4), of the movable light guide rod (11) is connected with a magnet ring (12), and a plurality of elastic reset wires (13) are connected between the magnet ring (12) and the light control block (5).

3. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 2, characterized in that: temperature sensing control magnetism package (4) are including fixed magnet (401), many heat conduction pole (402) and magnetic screen air bag, fixed magnet (401) and spotlight induced air hemisphere (3) inner wall connection, magnetic screen air bag connects in the one end of fixed magnet (401) keeping away from spotlight induced air hemisphere (3), and heat conduction pole (402) are inlayed and are connected in fixed magnet (401).

4. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 3, characterized in that: the magnetic shielding airbag comprises a temperature sensing airbag (403) and a plurality of magnetic shielding scales (404), wherein the magnetic shielding scales (404) are densely covered on the outer surface of the temperature sensing airbag (403), and the magnetic shielding scales (404) are independent from each other.

5. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 1, characterized in that: the photo-thermal composite ball (8) comprises an envelope hemisphere (801), a heat-conducting hemisphere (802) and a photo-thermal block (803), the envelope hemisphere (801) is symmetrically connected with the heat-conducting hemisphere (802), the inner end of the envelope hemisphere (801) is inwards sunken and does not contact with the heat-conducting hemisphere (802), and the photo-thermal block (803) is embedded and connected in the envelope hemisphere (801).

6. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 1, characterized in that: the photo-thermal block (803) is made into a honeycomb structure by adopting a heat conduction material, a light reflecting sheet (14) is connected at the node of the photo-thermal block (803), and a photo-thermal conversion material layer is connected on the outer surface of the photo-thermal block (803).

7. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 6, characterized in that: heat accumulation balls (15) are embedded and connected in the heat conduction hemispheres (802), and phase change heat accumulation materials are filled in the heat accumulation balls (15).

8. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 1, characterized in that: the heat-conducting composite rod (9) comprises a shaping tube (901), an inner heat-conducting bag (902) and an outer heat-conducting bag (903), wherein the inner heat-conducting bag (902) is inserted into the shaping tube (901), and the outer heat-conducting bag (903) is connected to one end, far away from the photo-thermal composite ball (8), of the shaping tube (901).

9. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 8, characterized in that: the inner heat conduction bag (902) and the outer heat conduction bag (903) are filled with heat conduction oil and heat conduction sand in a mass ratio of 1:1, and the inner heat conduction bag (902) is communicated with the outer heat conduction bag (903).

10. The high heat preservation windproof type bridge-cut-off aluminum alloy door and window of claim 1, characterized in that: the light control block (5) is made of hard heat-insulating materials, and the temperature control block (6) is made of elastic heat-insulating materials.