CN104806119A - Energy-saving, heat-insulating and fire-proof door/window frame and sash and door/window comprising door/window frame and sash - Google Patents

Abstract

The invention discloses an energy-saving, heat-insulating and fire-proof door/window frame and sash and a door/window comprising the door/window frame and sash. The energy-saving, heat-insulating and fire-proof door/window frame and sash comprise a heat-insulating core, a refractory layer and a protective layer, wherein the heat-insulating core is provided with a supporting plane which faces glass and is used for supporting the glass, and an inner wall and an outer wall which are positioned on both sides of the supporting plane and face the inner side and the outer side; at least one cavity is formed in the heat-insulating core; the refractory layer comprises a first refractory layer and/or a second refractory layer; the first refractory layer is arranged on the outer side of the outer wall of the heat-insulating core; the second refractory layer is arranged on the outer side of the inner wall of the heat-insulating core; the protective layer is arranged on outer sides of the first refractory layer and the second refractory layer. The energy-saving, heat-insulating and fire-proof door/window frame and sash and the door/window comprising the door/window frame and sash are simple in structures, and have good fire-proof effects and energy-saving and heat-insulating performance.

Description

Energy-saving heat preserving fireproof doorframe and window frame and fan and comprise the door and window of this doorframe and window frame and fan

Technical field

The present invention relates to a kind of doorframe and window frame and fan, be specifically related to energy-saving heat preserving fireproof doorframe and window frame and fan and comprise the door and window of this doorframe and window frame and fan.

Background technology

Door and window is the most common in existing building is also one of most popular parts, along with the development of science and technology, energy-saving and emission-reduction are fundamental state policies of China, country requires more and more higher to building energy conservation, thus require more and more higher to the energy-saving heat preserving of body of wall and door and window, and in succession put into effect country and local regulation, there are many energy-saving index requirements to building energy conservation, comprise the insulation index request of body of wall and door and window.For building energy conservation requirement, wall thermal insulating uses a large amount of organic insulation materials, and the addiction having buried large area initiation fire is suffered from, and fire can be diffused into face by point, thus causes large area fire, and in fact various places take place frequently large-area building fire.Like this, propose again new requirement to door and window, door and window not only will meet the heat-insulation and heat-preservation index request of building energy conservation, also requires to reach fire protection requirement.Current fireproof sash is on the market generally clean steel window frame, and the doorframe and window frame that clean steel is made is high temperature resistant, reaches fire protection requirement, but its thermal and insulating performance is but as one wishes not to the utmost, can not reach the index request of the thermal-insulation energy-conservation door and window of national requirements.And the doorframe and window frame with heat insulation and preservation effect is difficult to reach fireproof standard on flameproof effect.Fire prevention and heat-insulation and heat-preservation are conflict bodies.Namely reach fire protection requirement, meet again the door and window of the energy-saving heat preserving index of building, also belong to blank at present in market.

Therefore a kind of structure is simple, security performance is high, the door and window having a kind of energy-saving heat preserving fireproof doorframe and window frame of energy-saving heat preserving flameproof effect and fan and comprise this doorframe and window frame and fan urgently proposes.

Summary of the invention

In order to solve the problems of the technologies described above, the present invention proposes a kind of energy-saving heat preserving fireproof doorframe and window frame and fan and comprise the door and window of this doorframe and window frame and fan, its structure is simple, has good flameproof effect and energy-saving heat preserving performance.

In order to achieve the above object, technical scheme of the present invention is as follows:

Energy-saving heat preserving fireproof doorframe and window frame and fan, energy-saving heat preserving fireproof doorframe and window frame and fan comprise: heat-insulating core, heat-insulating core to be provided with towards glass for the supporting surface of support glass and the inner and outer wall towards inner side and outer side in supporting surface two side, is provided with at least one cavity in heat-insulating core; Flame retardant coating, flame retardant coating comprises the first flame retardant coating and/or the second flame retardant coating, and the first flame retardant coating is arranged at the outside of the outer wall of heat-insulating core, and the second flame retardant coating is arranged at the outside of the inwall of heat-insulating core; Overcoat, overcoat is arranged at the outside of the first flame retardant coating, the second flame retardant coating.

A kind of energy-saving heat preserving fireproof doorframe and window frame of the present invention and fan structure simply, utilize overcoat as layer structure, make the outside of door and window have fireproof effect attractive in appearance.Utilize flame retardant coating to realize heat-insulation and heat-preservation fireproof effect.Heat-insulating core is utilized to play the effect of decision to the Wind-Pressure Resistance of door and window and energy-saving heat preserving.

On the basis of technique scheme, also can do following improvement:

As preferred scheme, flame retardant coating also comprises the 3rd flame retardant coating, and the 3rd flame retardant coating is arranged at the outside of the supporting surface of heat-insulating core.

Adopt above-mentioned preferred scheme, there is better fire prevention and protect heat-insulating core from the effect of ablation.

As preferred scheme, flame retardant coating adopts fibre-reinforced phenolic resins to make.

Adopt above-mentioned preferred scheme, phenolic resins, as organic material, has good heat insulation and preservation effect.Moreover, it also has good heat-resisting quantity, even if at very high temperatures, it there will be carbonization phenomenon, and keep the globality of its structure and the stability of size, structure can not be destroyed, and effectively can protect the integrality of heat-insulating core.

As preferred scheme, overcoat is shape; Be connected with buckle between overcoat with flame retardant coating.

Adopt above-mentioned preferred scheme, the overcoat of shape is ensureing that it has good flameproof effect while attractive in appearance, and buckle makes overcoat and flame retardant coating form insulated cavity, has better flameproof effect, more firmly.

As preferred scheme, heat-insulating core is glass fiber reinforced polyester ammonia ester resin section bar, and glass fiber reinforced polyester ammonia ester resin section bar is composited by continuous glass fibre and/or glass fabric and/or glass mat and polyurethane resin.

Adopt above-mentioned preferred scheme, the coefficient of thermal conductivity of glass fiber reinforced polyester ammonia ester resin section bar is low, and mechanical strength is high, has good effect of heat insulation and stressed effect, plays the decisive action of section bar Wind-Pressure Resistance and insulation.Meanwhile, effectively can reduce the overall weight of section bar, transport of being more convenient for.

As preferred scheme, when the outside of the inwall of heat-insulating core does not arrange the second flame retardant coating, be provided with decorative layer in the outside of inwall; Or the outside of the outer wall of heat-insulating core is not when arranging the first flame retardant coating, be provided with decorative layer in the outside of outer wall; Decorative layer is metal or wooden or polymeric membrane or painting layer.

Adopt above-mentioned preferred scheme, door and window is decorated, make it more attractive in appearance.

As preferred scheme, scribble fireproof paint at the lateral surface of flame retardant coating and/or the lateral surface of the inwall of heat-insulating core and/or the lateral surface of the lateral surface of heat-insulating core outer wall and/or the supporting surface of heat-insulating core.

Adopt above-mentioned preferred scheme, the fire endurance of energy-saving heat preserving fire window can be improved effectively further.

As preferred scheme, between overcoat and flame retardant coating and/or the lateral surface of the lateral surface of the lateral surface of the inwall of heat-insulating core and/or heat-insulating core outer wall and/or heat-insulating core supporting surface be provided with insulated fire cotton.

Adopt above-mentioned preferred scheme, the setting of insulated fire cotton can not only play heat-insulating, fire-preventing, realizes secondary heat insulation, and further available protecting heat-insulating core, not by high temperature, improves safety factor, and can also improve the energy-saving heat preserving effect of door and window.

As preferred scheme, be provided with blocking part between overcoat and flame retardant coating, the insulated cavity between overcoat with flame retardant coating is intercepted into multiple heat insulation sub-cavity by blocking part.

Adopt above-mentioned preferred scheme, when big fire occurs, a large amount of dense smoke and gas can be produced, and the temperature of this dense smoke and gas is very high, multiple heat insulation sub-cavitys effectively can reduce the circulation of dense smoke and gas, thus the pressure and temperature inside reduction flame retardant coating, make the heat-insulating core of inner side can not produce deformation because being subject to huge pressure, safety is higher.

Door and window, comprises energy-saving heat preserving fireproof doorframe and window frame and fan, doorframe and window frame and fan and flame resistant glass be assembled into door and window.This door and window has good insulated fire effect.

Accompanying drawing explanation

One of sectional view of the door and window that Fig. 1 provides for the embodiment of the present invention.

The sectional view two of the door and window that Fig. 2 provides for the embodiment of the present invention.

The sectional view three of the door and window that Fig. 3 provides for the embodiment of the present invention.

The sectional view four of the door and window that Fig. 4 provides for the embodiment of the present invention.

The sectional view five of the door and window that Fig. 5 provides for the embodiment of the present invention.

The sectional view six of the door and window that Fig. 6 provides for the embodiment of the present invention.

The sectional view seven of the door and window that Fig. 7 provides for the embodiment of the present invention.

The sectional view eight of the door and window that Fig. 8 provides for the embodiment of the present invention.

The sectional view nine of the door and window that Fig. 9 provides for the embodiment of the present invention.

The sectional view ten of the door and window that Figure 10 provides for the embodiment of the present invention.

11 of the sectional view of the door and window that Figure 11 provides for the embodiment of the present invention.

Wherein: 1 overcoat, 2 flame retardant coatings, 21 first flame retardant coatings, 22 second flame retardant coatings, 23 the 3rd flame retardant coatings, 24 blocking parts, 3 heat-insulating cores, 31 cavitys, 32 supporting surfaces, 33 inwalls, 34 outer walls, 4 decorative layers, 5 buckles, 6 insulated fire cottons, 7 flame resistant glasses, 8 fireproof paints, 9 insulated cavity.

Detailed description of the invention

The preferred embodiment of the present invention is described in detail below in conjunction with accompanying drawing.

In order to reach object of the present invention, a kind of energy-saving heat preserving fireproof doorframe and window frame and fan and comprise in the some of them embodiment of door and window of this doorframe and window frame and fan,

As shown in Figure 1, a kind of fire-proof doors and windows comprises: flame resistant glass 7 and energy-saving heat preserving fireproof doorframe and window frame and fan, and energy-saving heat preserving fireproof doorframe and window frame and fan comprise: overcoat 1, flame retardant coating 2, heat-insulating core 3 and decorative layer 4, are provided with two cavitys 31 in heat-insulating core 3; Heat-insulating core 3 is provided with towards glass for the supporting surface 32 of support glass 7 and the inwall 33 towards inner side and outer side in supporting surface two side and outer wall 34.

Flame retardant coating 2 comprises the outside that the first flame retardant coating 21 and the 3rd flame retardant coating 23, first flame retardant coating 21 are arranged at the outer wall 34 of heat-insulating core 3; 3rd flame retardant coating 23 is arranged at the outside of the supporting surface 32 of heat-insulating core 3.

Overcoat 1 is arranged at the outside of the first flame retardant coating 21, and decorative layer 4 is arranged at the outside of the inwall 33 of heat-insulating core 3, and decorative layer 4 adopts aluminium extruded sections to make.

Overcoat 1 is shape, can be other shapes such as aluminium alloy extrusions, copper alloy section bar, steel section.The overcoat 1 of shape guarantee its attractive in appearance while, there is good flameproof effect, be connected with steel fastener 5 between overcoat 1 with the first flame retardant coating 21.Certainly, buckle 5 also can be made for other materials of phenolic aldehyde, PVC, nylon etc.

Flame retardant coating 2 adopts fibre-reinforced phenolic resins to make.Phenolic resins, as organic material, has good heat insulation and preservation effect.Moreover, it also has good heat-resisting quantity, even if at very high temperatures, it there will be carbonization phenomenon, and keep the globality of its structure and the stability of size, structure can not be destroyed.And the phenolic resins of glass fiber reinforcement has better high-fire resistance and anti-flammability.

Heat-insulating core 3 is glass fiber reinforced polyester ammonia ester resin section bar, and glass fiber reinforced polyester ammonia ester resin section bar is composited by continuous glass fibre and/or glass fabric and/or glass mat and polyurethane resin.Heat-insulating core 3 is stressed main bodys, and the coefficient of thermal conductivity of glass fiber reinforced polyester ammonia ester resin section bar is low, and mechanical strength is high, has good effect of heat insulation and stressed effect, plays the effect of support.Meanwhile, effectively can reduce the overall weight of section bar, transport of being more convenient for.

Energy-saving heat preserving fireproof door window frame structure of the present invention is simple, utilizes overcoat 1 as layer structure, has fireproof effect attractive in appearance.Utilize flame retardant coating 2 to realize heat-insulation and heat-preservation fireproof effect.Heat-insulating core 3 pairs of flame resistant glasses 7 are utilized to play the effect of support.

Traditional door and window functionally comes to divide roughly two large classes.One class is universal door and window, present country requires more and more higher to building energy conservation, the energy-saving heat preserving of the door and window protected as building external requires also more and more higher, for adapting to and meeting the energy-saving index requirement of government, market mainly contains broken-bridge aluminum alloy door and window, PVC plastic steel casement door window, wooden door and window, aluminium Wood-door window, glass fiber reinforced plastic door and window.Corresponding has bridge-cut aluminum section bar, PVC profile, wooden profile material, glass fiber reinforced plastic shapes.The door and window that heat preservation energy-saving glass makes is mixed by the window frame of this kind of section combination, although can reach country and governments at all levels to the energy-saving index requirement of door and window heat-insulation and heat-preservation, but these door and windows are not fireproof, country is the window integrality kept under the flame of 700-800 DEG C 0.5 hour to the minimum requirements of fire-proof doors and windows.Under these conditions, the window frame of universal door and window cannot meet fire protection requirement.Another kind of is fire-proof doors and windows, the main fireproof partition being used as building zones of different.The fire-proof doors and windows of existing market is the fire-proof doors and windows that the doorframe and window frame of clean steel matter is made substantially.Clean steel matter doorframe and window frame coefficient of thermal conductivity is large, is not incubated, moreover steel door window frame easily gets rusty for open air, and stainless steel is very expensive again.Other also has some inorganic fire door and windows, is not incubated equally, is also not suitable for building external and protects use.

From doorframe and window frame and fan material therefor basically, fire prevention and energy-saving heat preserving be conflict body.How energy-saving heat preserving and both fire prevention effectively to be united, be the technical barrier of those skilled in the art.

Under the prerequisite through creative thinking, creation point of the present invention is mainly divided into 4 points:

First point: utilize metal to make overcoat 1, as first fireprotection layer.First, metal does not fire body, can not burn, and flame can not be passed to the second layer; Secondly, the general temperature tolerance of metal is better, even aluminium alloys, fusing point also reaches more than 600 degree; Moreover metal is better shock-resistant, external coating is also ripe, particularly aluminium alloys, and the door and window alumium alloy door and window of existing use on market are in the great majority, and meets user and likes requirement to aluminium alloys.

Second point: utilize fibre-reinforced phenolic resins to make flame retardant coating 2, as second fireprotection layer.Fibre-reinforced phenolic resins is used to make flame retardant coating 2, design ingenious, those skilled in the art can think that macromolecular material very easily decomposes or burning under high temperature big fire is burnt substantially, fibre-reinforced phenolic resins is utilized to make flame retardant coating 2, as second fireprotection layer, this is that door and window those skilled in the art not easily expect.Those skilled in the art have not easily expect at 2: first, although this door and window fields personnel can not know that phenolic resins belongs to macromolecular material, but anti-flammability is fine, low-smoke low-toxicity, not only can not decompose completely under high temperature big fire burning and become gas, and understand some charing, and can fully carbonize when there is no naked light, it is just very high temperature resistant after phenolic resins fully carbonizes, phenolic resins after abundant charing also can retain certain intensity under the effect of fiber, and this point those skilled in the art are difficult to expect; Second; just not yielding when there is no naked light during fibre-reinforced phenolic resins high temperature carbonization; effectively could play the effect of high temperature insulating; heat-insulating core 3 is separated flame completely owing to there being flame retardant coating 2; adequately protect heat-insulating core 3 from flame and high temperature, and this is also that those skilled in the art are difficult to expect.

Thirdly: using glass fiber reinforced polyester ammonia ester material as heat-insulating core 3, is be applicable to very much with cleverly.Glass fiber reinforced polyester ammonia ester material is a kind of new material, its coefficient of thermal conductivity is low is its feature with composite bending modulus height, but can decompose under degree more than 400, ingenious design with this materials as heat-insulation core, because make with glass fiber reinforced polyester ammonia ester the resisting wind press capacity that heat-insulating core 3 not only can bear door and window, and well can play the effect of heat-insulation and heat-preservation, its decomposition temperature of glass fiber reinforced polyester ammonia ester material also reaches more than 400 degree in addition, higher than the fusing point of nylon, PVC a lot, by contrast, be comparatively easy to do fire prevention protection.But as the heat-insulating core of fire-proof doors and windows, under high temperature big fire is burnt, the external temperature of its heat-insulating core 3 must control below 400 degree.The surface temperature of heat-insulating core 3 effectively controls below 400 degree by first fireprotection layer (i.e. overcoat 1) and second fireprotection layer (i.e. flame retardant coating 2) by the present invention; thus effectively protect heat-insulating core 3 can not the destruction of recurring structure, ensure the integrality of door and window under big fire high temperature.Through test, when combustion furnace reach nearly 800 degree burn 0.5 hour, heat-insulating core 3 remains intact substantially, and door and window integrality is good.

4th point: overcoat 1 connects with flame retardant coating 2 buckle 5, forms insulated cavity 9, thus play air heat insulation between overcoat 1 and flame retardant coating 2, farthest utilizes the first flameproof effect of overcoat 1 to protect flame retardant coating 2.

This patent makes full use of the advantage of various material; several materials is combined effectively; compound layer by layer; the shortcoming of another kind of material is made up by a kind of advantage of material; by making up layer by layer; protect layer by layer; the ingenious design of every one deck and arrangement; both the energy-saving heat preserving of door and window had been reached; the requirement of window or door when fire can be reached again; the performance organically unification that both fireproof performances of the energy-saving heat preserving of door and window and door and window can not be melted mutually, this is that those skilled in the art can not expect, this is the invention of this patent and innovation just.

As shown in Figure 2, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, flame retardant coating 2 comprises the outside that the second flame retardant coating 22 and the 3rd flame retardant coating 23, second flame retardant coating 22 are arranged at the inwall 33 of heat-insulating core 3, and the 3rd flame retardant coating 23 is arranged at the outside of the supporting surface 32 of heat-insulating core 3.Be provided with overcoat 1 in the outside of the second flame retardant coating 21, be provided with decorative layer 4 in the outside of the outer wall of heat-insulating core 3.Meanwhile, be connected with phenolic aldehyde buckle 5 between overcoat 1 with the second flame retardant coating 22.The inner side flameproof effect of the present embodiment fire-proof doors and windows is good.

As shown in Figure 3, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, and difference is, flame retardant coating 2 comprises the first flame retardant coating 21, second flame retardant coating 22 and the 3rd flame retardant coating 23; First flame retardant coating 21 is arranged at the outside of the outer wall 34 of heat-insulating core 3; Second flame retardant coating 22 is arranged at the outside of the inwall 33 of heat-insulating core 3; 3rd flame retardant coating 23 is arranged at the outside of the supporting surface 32 of heat-insulating core 3.Meanwhile, overcoat 1 is provided with in the outside of the first flame retardant coating 21 and the second flame retardant coating 22.Be connected with steel buckle 5 between overcoat 1 with the first flame retardant coating 21; Be connected with steel buckle 5 between overcoat 1 with the second flame retardant coating 22.The inner side and outer side flameproof effect of the present embodiment fire-proof doors and windows is good.

As shown in Figure 4, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, and difference is, between the first flame retardant coating 21 and the outer wall 34 of heat-insulating core 3, be provided with insulated fire cotton 6.Insulated fire cotton 6 can not only play heat-insulating, fire-preventing, enters an available protecting heat-insulating core 3 not by high temperature, improves safety factor, and can also improve the energy-saving heat preserving effect of door and window.The outside flameproof effect of the heat-insulating core 3 of a kind of energy-saving heat preserving fireproof of the present embodiment doorframe and window frame is better, more can protect heat-insulating core 3 surface temperature below 400 degrees Celsius.

As shown in Figure 5, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, and difference is, between overcoat 1 and the first flame retardant coating 21, be provided with insulated fire cotton 6.Insulated fire cotton 6 can not only play heat-insulating, fire-preventing, realizes secondary heat insulation, enters an available protecting heat-insulating core not by high temperature, improves safety factor, and can also improve the energy-saving heat preserving effect of door and window.

As shown in Figure 6, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, between overcoat 1 and the first flame retardant coating 21 and the lateral surface of the outer wall 34 of heat-insulating core 3 be equipped with insulated fire cotton 6.Insulated fire cotton 6 can not only play heat-insulating, fire-preventing, realizes secondary heat insulation, enters an available protecting heat-insulating core not by high temperature, improves safety factor, and can also improve the energy-saving heat preserving effect of door and window.

As shown in Figure 7, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, and difference is, scribble fireproof paint 8 at the lateral surface of the first flame retardant coating 21.At the outside application fireproof paint 8 of flame retardant coating 2, improve the fire endurance of energy-saving heat preserving fire window further.

As shown in Figure 8, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, fireproof paint 8 is scribbled, the fire endurance of further multi-faceted raising energy-saving heat preserving fire-proof doors and windows at the lateral surface of the lateral surface of the first flame retardant coating 21, the lateral surface of the inwall 33 of heat-insulating core 3, the lateral surface of the outer wall 34 of heat-insulating core 3 and the supporting surface 32 of heat-insulating core 3.

As shown in Figure 9, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, what decorative layer 4 adopted is not aluminium extruded sections, but wooden profile material, and adopting metal buckle 5 to be connected between the decorative layer 4 of wooden profile material and the inwall 33 of heat-insulating core 3, the door and window making energy-saving heat preserving fireproof doorframe and window frame of the present invention and fan and comprise this doorframe and window frame and fan is more suitable for other different occasions.

As shown in Figure 10, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, what decorative layer 4 adopted is not aluminium extruded sections, but is arranged at the painting layer of the lateral surface of the inwall of heat-insulating core 3, and the door and window making energy-saving heat preserving fireproof doorframe and window frame of the present invention and fan and comprise this doorframe and window frame and fan is more suitable for other different occasions.

As shown in figure 11, in order to optimize implementation result of the present invention further, in other embodiment, all the other feature technologies are identical, difference is, between overcoat 1 and the first flame retardant coating 21, be not provided with buckle 5, but be provided with multiple blocking part 24 between overcoat 1 and the first flame retardant coating 21, the insulated cavity 9 between overcoat 1 with the first flame retardant coating 21 is intercepted into multiple heat insulation sub-cavity by blocking part 24.When big fire occurs, produce a large amount of dense smoke and gas, and the temperature of this dense smoke and gas is very high, multiple heat insulation sub-cavitys effectively can reduce the circulation of gas, thus the pressure and temperature reduced inside the first flame retardant coating 21, make the heat-insulating core 3 of inner side can not produce deformation because being subject to huge pressure, safety is higher.

Novel preferred embodiment, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (10)

1. energy-saving heat preserving fireproof doorframe and window frame and fan, is characterized in that, described energy-saving heat preserving fireproof doorframe and window frame and fan comprise:

Heat-insulating core, described heat-insulating core to be provided with towards glass for the supporting surface of support glass and the inner and outer wall towards inner side and outer side in supporting surface two side, is provided with at least one cavity in described heat-insulating core;

Flame retardant coating, described flame retardant coating comprises the first flame retardant coating and/or the second flame retardant coating, and described first flame retardant coating is arranged at the outside of the outer wall of described heat-insulating core, and described second flame retardant coating is arranged at the outside of the inwall of described heat-insulating core;

Overcoat, described overcoat is arranged at the outside of described first flame retardant coating, described second flame retardant coating.

2. energy-saving heat preserving fireproof doorframe and window frame according to claim 1 and fan, is characterized in that, described flame retardant coating also comprises the 3rd flame retardant coating, and described 3rd flame retardant coating is arranged at the outside of the supporting surface of described heat-insulating core.

3. energy-saving heat preserving fireproof doorframe and window frame according to claim 2 and fan, is characterized in that, described flame retardant coating adopts fibre-reinforced phenolic resins to make.

4. energy-saving heat preserving fireproof doorframe and window frame according to claim 3 and fan, is characterized in that, described overcoat is shape; Be connected with buckle between described overcoat with described flame retardant coating.

5. energy-saving heat preserving fireproof doorframe and window frame according to claim 4 and fan, it is characterized in that, described heat-insulating core is glass fiber reinforced polyester ammonia ester resin section bar, and described glass fiber reinforced polyester ammonia ester resin section bar is composited by continuous glass fibre and/or glass fabric and/or glass mat and polyurethane resin.

6. energy-saving heat preserving fireproof doorframe and window frame according to claim 5 and fan, is characterized in that, when the outside of the inwall of described heat-insulating core does not arrange described second flame retardant coating, is provided with decorative layer in the outside of described inwall; Or the outside of the outer wall of described heat-insulating core is not when arranging described first flame retardant coating, be provided with decorative layer in the outside of described outer wall; Described decorative layer is metal or wooden or polymeric membrane or painting layer.

7. the energy-saving heat preserving fireproof doorframe and window frame according to any one of claim 1-6 and fan, it is characterized in that, scribble fireproof paint at the lateral surface of described flame retardant coating and/or the lateral surface of the inwall of described heat-insulating core and/or the lateral surface of the lateral surface of described heat-insulating core outer wall and/or the supporting surface of described heat-insulating core.

8. energy-saving heat preserving fireproof doorframe and window frame according to claim 7 and fan, it is characterized in that, between described overcoat and described flame retardant coating and/or the lateral surface of the lateral surface of the lateral surface of the inwall of described heat-insulating core and/or described heat-insulating core outer wall and/or described heat-insulating core supporting surface be provided with insulated fire cotton.

9. energy-saving heat preserving fireproof doorframe and window frame according to claim 8, it is characterized in that, be provided with blocking part between described overcoat and described flame retardant coating, the insulated cavity between described overcoat with described flame retardant coating is intercepted into multiple heat insulation sub-cavity by described blocking part.

10. door and window, is characterized in that, comprise as claim 1 ?energy-saving heat preserving fireproof doorframe and window frame as described in 9 any one and fan, described doorframe and window frame and fan and flame resistant glass are assembled into described door and window.