CN110700726B

CN110700726B - Energy-saving heat-insulating window mounting structure

Info

Publication number: CN110700726B
Application number: CN201910988153.4A
Authority: CN
Inventors: 闻海平; 王立祥; 张扬; 吴佳欣; 赵元龙; 周航; 潘有堂; 田春蕾; 郭明龙; 王培刚; 梁政; 张磊; 李楠; 赵俊杰; 崔平; 李元吉; 王喜武; 焦洪娜
Original assignee: Jilin Zhongkun Construction Co ltd
Current assignee: Jilin Zhongkun Construction Co ltd
Priority date: 2019-10-17
Filing date: 2019-10-17
Publication date: 2021-04-20
Anticipated expiration: 2039-10-17
Also published as: CN110700726A

Abstract

The invention relates to an energy-saving heat-insulating window mounting structure, which is characterized by comprising the following components: window body, ventilation window, heat preservation device, heating device, roll-type membrane, thermodetector, air purifier. The invention has the advantages that: the energy-saving heat-insulating window mounting structure utilizes a three-layer glass layer structure of a window body, the matching of a heat-insulating device, a heating device and a temperature detection device, and a roll-type membrane structure, combines the principles of different colors and different heat absorption capacities, and realizes the balance of sun shading, temperature reduction and lighting in summer by an air purifier; the heat is preserved in winter, and the energy consumption of indoor heating is reduced; the indoor and outdoor temperature difference is comprehensively analyzed, and heat preservation and heat dissipation elements are reasonably distributed; improve the air quality, eliminate the noise and the like.

Description

Energy-saving heat-insulating window mounting structure

Technical Field

The invention relates to the technical field of window structures and energy conservation and environmental protection, in particular to an energy-saving heat-insulating window mounting structure.

Background

In modern buildings, glass is increasingly used from wall surfaces to roofs, and the permeability of the glass enables people to fully feel natural landscapes, natural light rays and natural spaces, but the glass brings hidden troubles of energy consumption improvement in heating and refrigeration. In hot summer areas, the sun shading has obvious effects of reducing building energy consumption, enabling equipment such as an air conditioner and the like to consume energy as little as possible, realizing the environment that a room is warm in winter and cool in summer, and improving the indoor living comfort.

However, although many researches and researches are made in this aspect of the prior art, certain defects still exist, for example, the balance of sun shading, temperature reduction and lighting cannot be well realized in summer; heat preservation cannot be well realized in winter, and the energy consumption of indoor heating is increased; the indoor and outdoor temperature difference is not comprehensively analyzed, and heat preservation and heat dissipation elements are not reasonably distributed according to the temperature difference; the window body is not considered to be attached with functions of improving air quality, eliminating noise and the like. Therefore, it is urgently needed to develop an energy-saving heat-insulating window mounting structure with the above functions.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide an energy-saving heat-insulating window mounting structure, which realizes the balance of sun shading, temperature reduction and lighting in summer; the heat is preserved in winter, and the energy consumption of indoor heating is reduced; the indoor and outdoor temperature difference is comprehensively analyzed, and heat preservation and heat dissipation elements are reasonably distributed; improve the air quality, eliminate the noise and the like.

An energy-saving and heat-insulating window mounting structure comprising: the device comprises a window frame, a window body, a ventilation window, a heat preservation device, a heating device, a roll-type membrane, a temperature detector and an air purifier;

the window body comprises a convex glass layer, a plane glass layer and a concave glass layer, the ventilation window comprises a first ventilation hole, a second ventilation hole and a third ventilation hole, the heat preservation device comprises a sealing strip and a heat preservation interlayer heating layer, the heating device comprises a resistance wire, a circuit board, a power supply device and a heat dissipation hole, the roll film comprises a cold color film, a warm color film, a shading film and a scroll, the temperature detector comprises an indoor temperature detector and an outdoor temperature detector, and the air purifier comprises a sachet and an air outlet;

the convex glass layer, the plane glass layer and the concave glass layer are sequentially arranged in the window frame; the convex glass layer is designed in an outward flat-open mode, the concave glass layer is designed in an inward flat-open mode, and the plane glass layer is designed in a push-pull mode;

the first vent hole, the second vent hole and the third vent hole are respectively arranged on the convex glass layer plane glass layer and the concave glass layer;

the sealing strips are arranged at all joints in the energy-saving heat-insulating window mounting structure, so that the sealing and heat-insulating effects are achieved; the heat-insulation interlayer is arranged between the convex glass layer and the plane glass layer and between the plane glass layer and the concave glass layer, four edges of the heat-insulation interlayer are arranged in the window frame, and the heat-insulation interlayer is of a foldable structure and can be adjusted to be folded according to heat insulation requirements; the heating layer is closely contacted with the heat preservation interlayer, and the heating device is arranged in the heating layer;

the reel is arranged at the upper end of the window frame, and a cold color film, a warm color film and a shading film are wound on the reel; the cold color film, the warm color film and the shading film can be tightly attached to the plane glass layer when being unfolded;

the indoor temperature detector is mounted at the indoor end of the window frame, and the outdoor temperature detector is mounted at the outdoor end of the window frame; the air purifier is installed at the indoor end of the window frame.

Preferably, the air purifier further comprises an algae growth trough for culturing beneficial algae, so that carbon dioxide in the indoor air is converted into oxygen, and the air is purified.

Preferably, the power supply device may be powered by a direct current or an alternating current, or may be powered by a solar panel.

Preferably, the glass used for the convex glass layer is convex glass, the center thickness is 0.8-2.0cm, the thickness of two sides is 0.05-0.2cm, the light path can be changed by utilizing the principle of a convex mirror, and further the indoor temperature can be adjusted.

Preferably, the concave glass layer is made of concave glass, the center thickness of the concave glass layer is 0.05-0.2cm, the thickness of the two sides of the concave glass layer is 0.8-2.0cm, the light path can be changed by utilizing the principle of a concave mirror, and further the indoor temperature can be adjusted.

Preferably, the flat glass layer is provided with a vacuum-pumping platen for removing air from a gap between the bonding surfaces when the cold-colored film, the warm-colored film or the light-shielding film is bonded to the flat glass layer to ensure close bonding.

Preferably, the temperature detector may be externally connected to a data recorder to record the temperature curve of the whole day.

The invention has the advantages that:

firstly, the energy-saving heat-insulating window mounting structure realizes the change of an optical path by utilizing the three-layer glass layer structure of the window body, and realizes the adjustment of indoor temperature by integrating the principles of the convex mirror and the concave mirror;

the energy-saving heat-insulating window mounting structure realizes the adjustment of temperature by utilizing the matching of the heat-insulating device, the heating device and the temperature detection device, and achieves the aims of being warm in winter and cool in summer to the maximum extent and saving energy;

the energy-saving heat-insulating window mounting structure utilizes a roll-up film structure and combines the principle that different colors have different heat absorption capacities, so that the light intensity and the indoor temperature can be reasonably adjusted;

the energy-saving heat-insulating window mounting structure utilizes the air purifier to effectively control and regulate the indoor air quality, and can meet the requirements of people on a suitable environment;

the temperature is adjusted, the purposes of being warm in winter and cool in summer and saving energy are achieved to the maximum extent;

in conclusion, the mounting structure of the energy-saving heat-insulating window realizes the balance of sun shading, temperature reduction and lighting in summer; the heat is preserved in winter, and the energy consumption of indoor heating is reduced; the indoor and outdoor temperature difference is comprehensively analyzed, and heat preservation and heat dissipation elements are reasonably distributed; improve the air quality, eliminate the noise and the like.

Drawings

FIG. 1 is a schematic structural view of an energy-saving insulating window mounting structure according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an insulating interlayer, a heating layer and a heating device in an energy-saving insulating window mounting structure according to an embodiment of the present invention;

FIG. 3 is a schematic view showing an internal structure of a heating apparatus in an energy-saving heat-insulating window mounting structure according to an embodiment of the present invention;

FIG. 4 is a schematic view showing the internal structure of an air cleaner in an energy-saving heat-insulating window installation structure according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a roll film in an energy saving insulation window installation structure according to an embodiment of the invention.

The meaning of the reference symbols in the figures: 1-window frame, 2-window frame, 3-ventilating window, 4-heat preservation device, 5-heating device, 6-roll film, 7-temperature detector, 8-air purifier, 2-1-convex glass layer, 2-plane glass layer, 2-3-concave glass layer, 3-1-first ventilating hole, 3-2-second ventilating hole, 3-third ventilating hole, 4-1-sealing strip, 4-2-heat preservation interlayer, 4-3-heating layer, 5-1-resistance wire, 5-2-circuit board, 5-3-power supply device, 5-4-heat dissipation hole, 6-1-cold color film, 6-2-warm color film, 6-3-light shielding film, 6-4-scroll, 7-1-indoor temperature detector, 7-2-outdoor temperature detector, 8-1 parts of sachet, 8-2 parts of air outlet and 8-3 parts of algae growth trough.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Referring to fig. 1 to 5, an energy-saving and heat-insulating window mounting structure includes: the air conditioner comprises a window frame 1, a window body 2, a ventilation window 3, a heat preservation device 4, a heating device 5, a roll-type membrane 6, a temperature detector 7 and an air purifier 8;

the window body 2 comprises a convex glass layer 2-1, a plane glass layer 2-2 and a concave glass layer 2-3, the ventilating window 3 comprises a first ventilating hole 3-1, a second ventilating hole 3-2 and a third ventilating hole 3-3, the heat preservation device 4 comprises a sealing strip 4-1, a heat preservation interlayer 4-2 and a heating layer 4-3, the heating device 5 comprises a resistance wire 5-1 and a circuit board 5-2, the device comprises a power supply device 5-3 and heat dissipation holes 5-4, wherein the roll-type film 6 comprises a cold color film 6-1, a warm color film 6-2, a light shielding film 6-3 and a scroll 6-4, the temperature detector 7 comprises an indoor temperature detector 7-1 and an outdoor temperature detector 7-2, and the air purifier 8 comprises a sachet 8-1 and an air outlet 8-2;

the convex glass layer 2-1, the plane glass layer 2-2 and the concave glass layer 2-3 are sequentially arranged in the window frame 1; the convex glass layer 2-1 is designed in an outward flat-open mode, the concave glass layer 2-3 is designed in an inward flat-open mode, and the plane glass layer 2-2 is designed in a push-pull mode;

the first vent hole 3-1, the second vent hole 3-2 and the third vent hole 3-3 are respectively arranged on the convex glass layer 2-1, the plane glass layer 2-2 and the concave glass layer 2-3;

the sealing strips 4-1 are arranged at all joints in the installation structure of the energy-saving heat-insulating window, so that the sealing and heat-insulating effects are achieved; the heat-insulating interlayer 4-2 is arranged between the convex glass layer 2-1 and the plane glass layer 2-2 and between the plane glass layer 2-2 and the concave glass layer 2-3, four sides of the heat-insulating interlayer 4-2 are arranged in the window frame 1, and the heat-insulating interlayer 4-2 is of a foldable structure, so that the folding state can be adjusted according to heat insulation requirements; the heating layer 4-3 is tightly contacted with the heat preservation interlayer 4-2, and a heating device 5 is arranged in the heating layer 4-3;

the scroll 6-4 is arranged at the upper end of the window frame 1, and the scroll 6-4 is wound with a cold color film 6-1, a warm color film 6-2 and a shading film 6-3; the cold color film 6-1, the warm color film 6-2 and the shading film 6-3 can be tightly attached to the plane glass layer 2-2 when being unfolded;

the indoor temperature detector 7-1 is arranged at the indoor end of the window frame 1, and the outdoor temperature detector 7-2 is arranged at the outdoor end of the window frame 1; the air cleaner 8 is installed at the indoor end of the window frame 1.

The air purifier 8 further comprises an algae growth groove 8-3 for culturing beneficial algae, so that carbon dioxide in indoor air is converted into oxygen, and air purification is realized.

The power supply device 5-3 can be powered by direct current or alternating current, and can also be powered by a solar panel.

The convex glass layer 2-1 is made of convex glass, the center thickness is 0.8-2.0cm, the two sides thickness is 0.05-0.2cm, the light path can be changed by utilizing the principle of a convex mirror, and further the indoor temperature can be adjusted.

The concave glass layers 2-3 are made of concave glass, the center thickness is 0.05-0.2cm, the thickness of two sides is 0.8-2.0cm, the light path can be changed by utilizing the principle of a concave mirror, and then the indoor temperature can be adjusted.

The plane glass layer 2-2 is provided with a vacuumizing pressing plate which is used for removing air in gaps between binding surfaces when the cold color film 6-1, the warm color film 6-2 or the shading film 6-3 is bound with the plane glass layer 2-2 so as to ensure tight binding.

The temperature detector 7 can be externally connected with a data recorder to record the temperature curve of the whole day.

The working process and principle of the energy-saving heat-insulating window mounting structure are as follows:

when heat preservation and light condensation are needed in winter, the convex glass layer 2-1 can be closed, and the concave glass layer 2-3 can be unfolded, so that the light path is changed, and the purpose of light condensation is realized; meanwhile, whether the heating device 5 and the heat preservation device 4 need to be started or not is judged through monitoring data of the indoor temperature detector 7-1 and the outdoor temperature detector 7-2, if so, the heat preservation interlayer 4-2 is unfolded, the heating device 5 is started to supply power to the resistance wire 5-1 for heating through the power supply device 5-3 and the circuit board 5-2, and heat is supplied to the indoor space through the heat dissipation hole 5-4; in addition, the warm film 6-2 is unfolded through adjusting the scroll 6-4 and is attached to the plane glass layer 2-2, so that light rays are absorbed to a large extent; in conclusion, the window body 2, the heat preservation device 4, the heating device 5, the roll-type film 6 and the temperature detector 7 are matched to realize heat preservation in winter, and the indoor heating energy consumption is reduced.

When heat dissipation and sun shading are needed in summer, the convex glass layer 2-1 can be unfolded, and the concave glass layer 2-3 can be closed, so that the light path is changed, and the purpose of light condensation is achieved; the heating device 5 is closed, and the heat preservation device 4 is folded; meanwhile, whether heat dissipation is needed or not is judged according to monitoring data of the indoor temperature detector 7-1 and the outdoor temperature detector 7-2, if so, the plane glass layer 2-2 is pushed to one side, the ventilation window 3 is opened, in addition, the shading film 6-3 or the cold color film 6-1 is unfolded through adjusting the scroll 6-4 and is attached to the plane glass layer 2-2, and the light is absorbed to a small degree or is directly shaded; in conclusion, the balance of sun shading, temperature reduction and lighting in summer is realized through the cooperation of the window body 2, the ventilation window 3, the roll-type film 6 and the temperature detector 7.

When the air quality needs to be controlled, the release of the flavor of the sachet 8-1 and the adjustment of the aroma concentration can be realized by adjusting the size of the air outlet 8-2, and different requirements can be met by placing different sachets 8-1; in addition, beneficial algae can be cultured through the algae growth grooves 8-3, so that carbon dioxide in indoor air is converted into oxygen, and air purification is realized.

It should be understood that the above-described specific embodiments are merely illustrative of the present invention and are not intended to limit the present invention. Obvious variations or modifications which are within the spirit of the invention are possible within the scope of the invention.

Claims

1. The utility model provides an energy-conserving heat preservation window mounting structure which characterized in that, energy-conserving heat preservation window mounting structure includes: the air conditioner comprises a window frame (1), a window body (2), a ventilation window (3), a heat preservation device (4), a heating device (5), a roll-type membrane (6), a temperature detector (7) and an air purifier (8);

the window body (2) comprises a convex glass layer (2-1), a plane glass layer (2-2) and a concave glass layer (2-3), the ventilating window (3) comprises a ventilating hole (3-1), a ventilating hole (3-2) and a ventilating hole (3-3), the heat preservation device (4) comprises a sealing strip (4-1), a heat preservation interlayer (4-2) and a heating layer (4-3), the heating device (5) comprises a resistance wire (5-1), a circuit board (5-2), a power supply device (5-3) and a radiating hole (5-4), the roll type film (6) comprises a cold color film (6-1), a warm color film (6-2), a shading film (6-3) and a scroll (6-4), and the temperature detector (7) comprises an indoor temperature detector (7-1), The outdoor temperature detector (7-2), the air purifier (8) comprises a sachet (8-1) and an air outlet (8-2);

the convex glass layer (2-1), the plane glass layer (2-2) and the concave glass layer (2-3) are sequentially arranged in the window frame (1); the convex glass layer (2-1) is designed in an outward flat opening mode, the concave glass layer (2-3) is designed in an inward flat opening mode, and the plane glass layer (2-2) is designed in a push-pull mode;

the first vent hole (3-1), the second vent hole (3-2) and the third vent hole (3-3) are respectively arranged on the convex glass layer (2-1), the plane glass layer (2-2) and the concave glass layer (2-3);

the sealing strips (4-1) are arranged at all joints in the energy-saving heat-insulating window mounting structure to achieve the effects of sealing and heat insulation; the heat-insulation interlayer (4-2) is arranged between the convex glass layer (2-1) and the plane glass layer (2-2) and between the plane glass layer (2-2) and the concave glass layer (2-3), four sides of the heat-insulation interlayer (4-2) are arranged in the window frame (1), and the heat-insulation interlayer (4-2) is of a foldable structure and can be adjusted to be folded according to heat insulation requirements; the heating layer (4-3) is in close contact with the heat preservation interlayer (4-2), and the heating device (5) is arranged in the heating layer (4-3);

the scroll (6-4) is arranged at the upper end of the window frame (1), and the scroll (6-4) is wound with a cold color film (6-1), a warm color film (6-2) and a shading film (6-3); the cold color film (6-1), the warm color film (6-2) and the shading film (6-3) can be tightly attached to the plane glass layer (2-2) when being unfolded;

the indoor temperature detector (7-1) is arranged at the indoor end of the window frame (1), and the outdoor temperature detector (7-2) is arranged at the outdoor end of the window frame (1); the air purifier (8) is arranged at the indoor end of the window frame (1);

the convex glass layer (2-1) is made of convex glass, the center thickness is 0.8-2.0cm, the thickness of two sides is 0.05-0.2cm, the light path can be changed by utilizing the principle of a convex mirror, and further the indoor temperature can be adjusted; the concave glass layers (2-3) are made of concave glass, the center thickness is 0.05-0.2cm, the thickness of two sides is 0.8-2.0cm, the light path can be changed by utilizing the principle of a concave mirror, and further the indoor temperature can be adjusted; and a vacuumizing press plate is arranged on the plane glass layer (2-2) and used for removing air in gaps among binding surfaces when the cold color film (6-1), the warm color film (6-2) or the shading film (6-3) is bound with the plane glass layer (2-2) so as to ensure tight binding.

2. The mounting structure of an energy-saving and heat-insulating window according to claim 1, wherein the air purifier (8) further comprises an algae growth trough (8-3) for culturing beneficial algae, so as to convert carbon dioxide in the indoor air into oxygen and purify the air.

3. The energy-saving and heat-insulating window mounting structure as claimed in claim 1, wherein the power supply device (5-3) can be supplied with DC or AC power, and can also be supplied with power by solar panels.

4. The energy-saving heat-insulating window mounting structure according to claim 1, wherein the temperature detector (7) can be externally connected with a data recorder to record the temperature curve of the whole day.