CN205976977U - Nanometer montmorillonite combined material fireproof door leaf and nanometer montmorillonite combined material prevent fire door - Google Patents

Abstract

The utility model provides a nanometer montmorillonite combined material fireproof door leaf includes: nanometer montmorillonite combined material panel, thermal -insulated core, nanometer montmorillonite combined material edge closing board. This application still provides a nanometer montmorillonite combined material and has prevented fire door, including above -mentioned door leaf and door frame. The utility model provides a prevent fire door and prevent that the fire door fan can collect the fire prevention and with thermal -insulated as an organic whole, have good fire behaviour and heat -proof quality simultaneously, can play the dual function who keeps apart nice and warm fire, still have high strength, can keep out explosion airflow's impact, and the fireproof door leaf of this application with prevent that fire door is light and handy, the installation of being convenient for, need not to maintain and the maintenance that the cost is low, be the ideal fire prevention product that can be applied to the fire prevention place.

Description

A kind of nanometer Montmorillonitum composite fire-proof door leaf and nanometer Montmorillonitum composite are prevented Vent

Technical field

This utility model is related to public fireproofing installation technical field, more particularly, to a kind of nanometer Montmorillonitum composite fire prevention Door leaf and nanometer Montmorillonitum composite fire resistant doorsets.

Background technology

Fire resistant doorsets refer to meet the door of the requirements such as fire stability and thermal insulation within a certain period of time, except having common door Effect outside, with more stop fire spreading and flue gas diffusion effect, be easy to the evacuating personnel of scene of fire, it is generally arranged Between the fire compartment of the public buildings such as school, unit, market or emergency staircase etc., become the important fire prevention of modern architecture Component.

At present, fire resistant doorsets of the prior art mainly have fire resistance steel door, cement-based fireproofing door, fire retarding wood protection door and steel Wooden fire resistant doorsets.Wherein, fire resistance steel door quality weight, installs inconvenient, needs regular maintenance and does antirust treatment, high cost, and Conduct heat under high temperature fast, melting phenomenon occurs under continuous high temperature it is impossible to stop fire spreading well；Cement-based fireproofing door quality Heavier, install highly inconvenient, and use also extremely inconvenience；Fire-proof wooden door and steel wood fire resistant doorsets need to add in wood Plus fire retardant and produce flame retardant effect, but fire retardant can decompose loss in time and slowly, so that fire resistance is gradually weakened even Disappear, when meeting big fire, fire retardant is even more and easily decomposes, and does not have lasting anti-flammability, flameproof effect is poor.Therefore, above-mentioned various types of The fire resistant doorsets of type because installing and using inconvenience, safeguard complicated high cost or the reason such as anti-flaming thermal-insulation flameproof effect is bad, and can not become For preferably public fireproofing installation.

Utility model content

In view of this, the new purpose of this enforcement is to provide a kind of nanometer Montmorillonitum composite fire-proof door leaf and nanometer Montmorillonite composite material fire resistant doorsets, the fire resistant doorsets of the application or fire-proof door leaf, light and easy for installation, anti-flammability and thermal insulation Good, intensity height, Maintenance free and maintenance, low cost, are a kind of good desired fire-protection products of combination property.

This application provides a kind of nanometer Montmorillonitum composite fire-proof door leaf, including：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

Preferably, described heat-insulating core is one of phenol formaldehyde foam heat-insulating core, rock wool heat-insulating core or glass bead heat-insulating core Or it is several.

Preferably, the thickness of described nanometer Montmorillonitum composite material face layer is 2～6mm.

This application provides a kind of nanometer Montmorillonitum composite fire resistant doorsets, including doorframe and door leaf it is preferred that described door Fan includes：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

Preferably, described heat-insulating core is one of phenol formaldehyde foam heat-insulating core, rock wool heat-insulating core and glass bead heat-insulating core Or it is several.

Preferably, the thickness of described nanometer Montmorillonitum composite material face is 2～6mm.

Preferably, described doorframe includes nanometer Montmorillonitum composite Door frame board.

Preferably, the thickness of described nanometer Montmorillonitum composite Door frame board is 3～6mm.

Preferably, also include reinforcement, the thickness of described reinforcement is 2～6mm.

Preferably, the contact position fire proof sealing strip of described door leaf and doorframe seals.

This application provides a kind of nanometer Montmorillonitum composite fire-proof door leaf, including：Nanometer Montmorillonitum composite wood charge level Plate；Heat-insulating core；Nanometer Montmorillonitum composite banded plate.Present invention also provides a kind of nanometer Montmorillonitum composite fire prevention Door, including above-mentioned door leaf and doorframe.Compared with prior art, the fire resistant doorsets of the application and fire-proof door leaf can collect fire prevention with heat-insulated It is integrated, there is good fire resistance and heat-proof quality simultaneously, the dual function of isolation heat and fire can be played；Also there is height Intensity, can keep out the impact of air blast；And the fire-proof door leaf of the application and fire resistant doorsets are light and handy, be easily installed, need not tie up Shield and maintenance, low cost, are to be applied to the desired fire-protection product in place of preventing fires.

Brief description

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or in description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, drawings in the following description are only It is embodiment of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, also Other accompanying drawings can be obtained according to the accompanying drawing providing.

The cross section structure schematic diagram of the fire-proof door leaf that Fig. 1 provides for this utility model embodiment, wherein Fig. 1 (a) is fire prevention The structural representation of door door leaf cross section, Fig. 1 (b) is the structural representation of fire-proof door leaf longitudinal section；

The cross section structure schematic diagram of the fire-proof door leaf comprising reinforcement that Fig. 2 provides for this utility model embodiment；

The structural representation of the fire resistant doorsets that Fig. 3 provides for this utility model embodiment；

The structural representation of doorframe in the fire resistant doorsets that Fig. 4 this utility model embodiment provides；

In the fire resistant doorsets that Fig. 5 provides for this utility model embodiment, the structural relation of door leaf, doorframe and fire proof sealing strip is shown It is intended to.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

This application provides a kind of nanometer Montmorillonitum composite fire-proof door leaf, including：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

The cross section structure schematic diagram of the fire-proof door leaf providing for this utility model embodiment referring to Fig. 1, Fig. 1, Fig. 1 (a) is The structural representation of fireproof door leaf cross section, Fig. 1 (b) is the structural representation of fire-proof door leaf longitudinal section, and wherein, 1 is nanometer Montmorillonite composite material panel, 2 is heat-insulating core, and 3 is nanometer Montmorillonitum composite banded plate.

The nanometer Montmorillonitum composite fire-proof door leaf that this utility model provides includes nanometer Montmorillonitum composite material face 1；It includes forward and backward two pieces of panels.Nanometer Montmorillonitum composite have brilliance specific strength, specific modulus, waterproof, humidity, The characteristics such as aging resistance, are widely used in the fields such as defence and military, Aero-Space, track traffic, shipbuilding.This utility model is to nanometer The species of montmorillonite composite material is not particularly limited, and in some embodiments of the present utility model, described nanometer Montmorillonitum is multiple Condensation material can be made up of the nanometer Montmorillonitum organising, resin, reinforcing fiber and related auxiliaries；The described nanometer Montmorillonitum that organises Refer to the montmorillonite modified using organic modifiers, the species of the described nanometer Montmorillonitum that organises is not particularly limited, and is skill Machine nanometer Montmorillonitum is common are known to art personnel or on market；Described resin is preferably flame retardant resin, its species It is not particularly limited, be the flame-retarded resin being combined with the nanometer Montmorillonitum that organises known to technical staff, such as permissible For phenolic resin, fire-retardant epoxy resin or flame retardant type unsaturated polyester (UP) etc.；The species of described auxiliary agent is not particularly limited, for normal The auxiliary agent being easy to nanometer Montmorillonitum composite molding of rule, can be releasing agent, coupling agent, emulsifying agent, filler or face Material etc.；The species of described reinforcing fiber is not particularly limited, be known to technical staff or market on common can strengthening have The fiber of machine nanometer Montmorillonitum, preferably carbon fiber, basalt fibre or glass fibre；This utility model covers to nanometer In de- stone composite material, the mass ratio of each component is not particularly limited, and can be the mass ratio being typically suitable for.This utility model pair The preparation technology of nanometer Montmorillonitum composite is not particularly limited, and for conventional moulding process, can be such as pultrusion, mould The moulding process such as pressure or vacuum importing, in some embodiments of the present utility model, in gained nanometer Montmorillonitum composite, covers De- stone is uniformly distributed in the composite with nano-sheet, can be connected with resin in the form of chemical bond.Described nanometer is covered de- Stone composite material is purchased from Sichuan state can high-tech bio-resin company limited.

In this utility model, the thickness of described nanometer Montmorillonitum composite material face 1 is preferably 2～6mm.

The nanometer Montmorillonitum composite fire-proof door leaf that this utility model provides includes heat-insulating core 2, described heat-insulating core setting Between described nanometer Montmorillonitum composite material face；I.e. as shown in figure 1, described heat-insulating core be clipped in two nanometer Montmorillonitum be combined Between material panel.Described heat-insulating core is preferably in phenol formaldehyde foam heat-insulating core, rock wool heat-insulating core or glass bead heat-insulating core Plant or several.

The nanometer Montmorillonitum composite fire-proof door leaf that this utility model provides includes nanometer Montmorillonitum composite edge sealing Plate 3, described nanometer Montmorillonitum composite banded plate and nanometer Montmorillonitum composite material face form closing housing, described closing Enclosure interior is cavity, the stuffed heat insulated core of internal cavities of described closing housing.As shown in figure 1, former and later two nanometer Montmorillonitum Composite material face and banded plate define the enclosed construction of inner hollow, and internal cavities heat-insulating core is filled.Described nanometer is covered Nanometer Montmorillonitum composite in de- stone composite material banded plate 3 is consistent with mentioned above, will not be described here.

In this utility model, the thickness of described nanometer Montmorillonitum composite banded plate 3 is preferably 2～6mm.

In this utility model, during the banded plate of former and later two nanometer Montmorillonitum composite material faces and side is combined to form The mode of empty closing housing is not particularly limited, come using combination well known in the art with reference to panel and banded plate be Can；Such as nanometer Montmorillonitum composite banded plate 3 can be integrally formed with nanometer Montmorillonitum composite material face 1 and obtain, Can be obtained being assembled again after the two individually molding；When separately formed, can molding obtain solely respectively Vertical banded plate 3 and independent panel 1, then banded plate 3 is assembled with panel 1, can utilize well known in the art during assembling Assembly mechanical carries out assembling；When being integrally formed, that is, banded plate 3 and panel 1 are integrated, and form door leaf shell, it is possible to use Integral forming process well known in the art obtains, and such as directly forms overall door leaf shell by techniques such as pultrusion, moulding by casting； Such as, it is possible to use cast model forming obtains the door leaf shell of a face opening, is filled into after heat-insulating core into gained door leaf shell, then Edge sealing at the opening of opposite house fan case, it is also possible to direct integral door fan case on the basis of heat-insulating core, obtains door leaf.

The nanometer Montmorillonitum composite fire-proof door leaf that this utility model provides also includes reinforcement 4, and referring to Fig. 2, Fig. 2 is The cross section structure schematic diagram of the fire-proof door leaf comprising reinforcement that this utility model embodiment provides, the species of described reinforcement does not have There is particular restriction, be reinforcement commonly used in the art；Position in door leaf for the described reinforcement and number do not have special limit System, the tectonic relationship according to reinforcement in the routine fire resistant doorsets of this area is arranged.In some embodiments of the present utility model, As shown in Fig. 2 described reinforcement can be for erectting reinforcement, and described reinforcement is hung down with nanometer Montmorillonitum composite material face Directly, and be clipped between before and after two nanometer Montmorillonitum composite material face.

In this utility model, the thickness of described reinforcement 4 is preferably 3～6mm.

This utility model provides a kind of nanometer Montmorillonitum composite fire-proof door leaf, including：Nanometer Montmorillonitum composite wood Charge level plate；Heat-insulating core；Nanometer Montmorillonitum composite banded plate.This utility model adopt nanometer Montmorillonitum composite material face, Nanometer Montmorillonitum composite banded plate, and heat-insulating core formation door leaf, described nanometer Montmorillonitum composite material face has excellent Different anti-flaming thermal-insulation effect, compared to prior art, the door leaf of the application can integrate fire prevention with heat-insulated, have good simultaneously Good fire resistance and heat-proof quality, can play the dual function of isolation heat and fire；Also there is high intensity, blast can be kept out The impact of air-flow；And described fire-proof door leaf is more light and handy, be easily installed, Maintenance free and maintenance, low cost, are combination properties Excellent fire-proof door leaf.

This utility model additionally provides a kind of nanometer Montmorillonitum composite fire resistant doorsets, including doorframe and door leaf, described door Fan includes：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

The structural representation of the fire resistant doorsets providing for this utility model embodiment referring to Fig. 3, Fig. 3, wherein, A is door leaf, B For doorframe.

The nanometer Montmorillonitum composite fire resistant doorsets that this utility model provides include door leaf.Described door leaf is covered with above-mentioned nanometer De- stone composite material fire-proof door leaf is consistent, will not be described here.

The nanometer Montmorillonitum composite fire resistant doorsets that this utility model provides include doorframe, and it is de- that described doorframe includes nanometer illiteracy Stone composite material Door frame board.The structural representation of the doorframe providing for this utility model embodiment referring to Fig. 4, Fig. 4, wherein, 5 are Door frame board.In described Door frame board, nanometer Montmorillonitum composite is consistent with mentioned above, will not be described here.In this utility model Some embodiments in, described doorframe can be hollow doorframe, and that is, by Door frame board composing frame frame, door frame is centrally formed sky Chamber；In some embodiments of the present utility model, described doorframe can be with sandwich doorframe, that is, except the door frame of Door frame board composition Outward, described door frame center-filled doorframe core, the species of described doorframe core is not particularly limited, the doorframe core being known in the art ?.

In this utility model, the thickness of described Door frame board 5 is preferably 3～6mm.

The nanometer Montmorillonitum composite fire resistant doorsets that this utility model provides also include fire proof sealing strip, described fire proof seal Bar is arranged on the contact position of doorframe and door leaf, for the gap between Sealed doorframe and door leaf, is conducive to stoping scene of fire Fire and smoke spread.The knot of doorframe, door leaf and fire proof sealing strip in the fire resistant doorsets providing for this utility model embodiment referring to Fig. 5, Fig. 5 Structure relation schematic diagram, wherein 6 is fire proof sealing strip.The species of described fire proof sealing strip is not particularly limited, and is known in the art Fire proof sealing strip.

In the nanometer Montmorillonitum composite fire resistant doorsets that this utility model provides, the number of door leaf is not particularly limited, such as can Think single fan, biparting or many fan etc.；The opening/shutting mode of described fire resistant doorsets is not particularly limited, and can be such as oscillating-type or sliding-type Deng；When described fire resistant doorsets are oscillating-type fire resistant doorsets, door leaf is rotated with doorframe for axle, passes through ability between doorframe and door leaf The hardware components such as the steel plate known to domain, hinge, bolt are connecting.The size of described fire resistant doorsets is not particularly limited, according to routine The relevant regulations of fire resistant doorsets or national standard execute, and size allows certain deviation, such as within the acceptable range Dimensional discrepancy can be as follows：

Door leaf：Width ± 2mm, height ± 2mm, thickness ± 2mm；

Doorframe：Interior rabbet width ± 2mm, interior rabbet height ± 3mm, side wall wide ± 2mm；

Door leaf catercorner length is poor：<3mm；Doorframe catercorner length is poor：<3mm；

Door leaf torsion resistance：<5mm；

Door leaf width flexibility：<2‰；Door leaf short transverse flexibility：<2‰；

Door leaf doorframe corner angle R<1mm.

This utility model provides a kind of nanometer Montmorillonitum composite fire resistant doorsets, including doorframe and door leaf, described door leaf Including：Nanometer Montmorillonitum composite material face；Heat-insulating core；Nanometer Montmorillonitum composite banded plate.Compared to prior art, this Application fire resistant doorsets can integrate fire prevention with heat-insulated, there is good fire resistance and heat-proof quality simultaneously, can play Isolation heat and the dual function of fire；Also there is high intensity, the impact of air blast can be kept out；And described fire resistant doorsets are more light Ingeniously, it is easily installed, Maintenance free and maintenance, low cost, be to be applied to the desired fire-protection product in place of preventing fires.

The explanation of above example is only intended to help understand method of the present utility model and its core concept.Should refer to Go out, for those skilled in the art, on the premise of without departing from this utility model principle, can also be to this Utility model carries out some improvement and modifies, and these improve and modification also falls into this utility model scope of the claims Interior.

Claims (10)

1. a kind of nanometer Montmorillonitum composite fire-proof door leaf is it is characterised in that include：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

2. nanometer Montmorillonitum composite fire-proof door leaf according to claim 1 is it is characterised in that described heat-insulating core is phenol One or more of aldehyde foam heat-insulating core, rock wool heat-insulating core or glass bead heat-insulating core.

3. nanometer Montmorillonitum composite fire-proof door leaf according to claim 1 is it is characterised in that described nanometer Montmorillonitum The thickness of composite material face is 2～6mm.

4. a kind of nanometer Montmorillonitum composite fire resistant doorsets, including doorframe and door leaf it is characterised in that described door leaf includes：

Nanometer Montmorillonitum composite material face；

Heat-insulating core；

Nanometer Montmorillonitum composite banded plate.

5. nanometer Montmorillonitum composite fire resistant doorsets according to claim 4 are it is characterised in that described heat-insulating core is phenolic aldehyde One or more of foam heat-insulating core, rock wool heat-insulating core and glass bead heat-insulating core.

6. nanometer Montmorillonitum composite fire resistant doorsets according to claim 4 are it is characterised in that described nanometer Montmorillonitum is multiple The thickness of condensation material panel is 2～6mm.

7. nanometer Montmorillonitum composite fire resistant doorsets according to claim 4 are it is characterised in that described doorframe includes nanometer Montmorillonite composite material Door frame board.

8. nanometer Montmorillonitum composite fire resistant doorsets according to claim 7 are it is characterised in that described nanometer Montmorillonitum is multiple The thickness of condensation material Door frame board is 3～6mm.

9. nanometer Montmorillonitum composite fire resistant doorsets according to claim 4 are it is characterised in that also include reinforcement, institute The thickness stating reinforcement is 2～6mm.

10. nanometer Montmorillonitum composite fire resistant doorsets according to claim 4 are it is characterised in that described door leaf and doorframe Contact position fire proof sealing strip seal.