CN205638152U - Assembledly prevent fire door frame / window frame - Google Patents

Abstract

The utility model provides an assembledly prevent fire door frame / window frame belongs to the thermal -insulated fire door window technical field that prevents. Prevent that fire door frame / window frame includes cover, frame protheca and smoke protection strip behind frame skeleton, the frame, cover, frame protheca paper spare can conveniently be assembled or the change method behind mutually independent frame skeleton and the frame. The utility model discloses a fire -retardant combined material and steel or other flameresistant material's combination has improved holistic fire resistance, simple structure, and the material chooses in can following fireproof door leaf's production rim charge, make full use of the resource, and equipment mode in back can remedy in the at utmost and prevents that fire door frame / window frame is by the damage and can't repair or change loaded down with trivial details defect in installation and use to can assemble at any time and change, and not influence the fire behavior who prevents the fire door window.

Description

Assembled fireproof door frame / Window frame

Technical field

The present invention relates to the material in heat-insulating fireproof door/window setting technique field, a kind of assembled fireproof door frame/window frame and installation method thereof.

Background technology

Along with the raising to fire-fighting safety requirements of the NFA security department, heat-insulating fireproof door being forced property in major part engineering uses.Fireproof door frame, as the important component of heat-insulating fireproof door, plays pivotal role to the heat-insulating, fire-preventing of heat-insulating fireproof door.Existing fire-proof wooden door (window) frame, although its wooden frame material has carried out flame treatment, but machined after, the flame-retardant layer on surface has remained little, actual it is difficult to ensure that its fire resistance.Existing steel fire-proof doorframe/window frame, easily is quickly delivered to carry on the back fire side from by fire side by heat, and its heat-proof quality is poor；Additionally there is cavity in steel fire-proof doorframe/window frame, need after mounting to fill with concrete grouting, construction volume and labor intensity are the biggest, thus cause during practice of construction a large amount of occur leakage fill, fill less, the phenomenon such as unreal of being in the milk, it is difficult to guarantee steadiness and the thermal insulation of steel fire-proof doorframe/window frame.

How on the premise of guaranteeing the fire insulation performance of heat-insulating fireproof door, consumption and the installation amount of material can either be reduced, maintenance can be replaced again easily, be fire resistant doorsets/window manufacturing enterprise and use unit urgent problem.Existing technology provides the technology example of some assembled fireproof door frames, such as: 201510307795.5 disclose a kind of assembled fireproof door frame, including frame and frame connecting pieces.This invention mainly solves the connected mode between doorframe and door leaf, the version of its doorframe not actual augmentation.

For solving above-mentioned technical problem, the present invention provides a kind of assembled fireproof door frame/window frame and installation method thereof.

Summary of the invention

Goal of the invention: for overcoming above-mentioned the deficiencies in the prior art, the present invention provides a kind of assembled fireproof door frame/window frame and installation method thereof.

Technical scheme: for achieving the above object, a kind of assembled fireproof door frame/window frame of the present invention, including the frame rear enclosure being sequentially connected with, frame skeleton and frame protheca, being folded with anti-plume between described frame rear enclosure and frame protheca, the side of described anti-plume is fixedly connected on frame skeleton.Frame protheca, anti-plume and frame rear enclosure are collectively forming the protection to frame skeleton, stop naked light direct connecting frame skeleton.And anti-plume intercepts between frame protheca and frame protheca, heat is stoped to be delivered to carry on the back fire face from fire surface.

Specifically, described frame skeleton is the multiple structure being composited by inorganic anti-flaming material and wood materials, and described inorganic anti-flaming material is coated on wood materials outer layer, stops naked light directly to contact wood materials.

Specifically, described frame rear enclosure is layered composite structure, and its internal layer is the multiple structure being composited by inorganic anti-flaming material and wood materials, and wherein inorganic anti-flaming material is coated on wood materials outer layer, stops naked light directly to contact wood materials；Shell is bending, rolling, extrudes or be cast into the steel plate of required moulding, wood-plastic board, silica-magnesia panel or cement pressure plate.

Specifically, the internal layer of described frame protheca is inorganic anti-flaming material, and shell is bending, rolling, extrudes or be cast into the steel plate of required moulding, wood-plastic board, silica-magnesia panel or cement pressure plate.

Specifically, described frame protheca has cover plate, and described cover plate is for blocking the gap between frame skeleton and body of wall.

Specifically, the shell of described frame protheca has the first lengthening section, the shell of described frame rear enclosure has the second lengthening section, there is on described frame skeleton the first groove and the second groove, described anti-plume is fixed between the first groove and the second groove, described first lengthening section embeds in the first groove, and described second lengthening section embeds in the second groove.

Specifically, dismountable connection is formed between described frame rear enclosure, frame skeleton, anti-plume and frame protheca.Pre-assembled mode or rear assembling mode can be selected flexibly according to the construction requirement of engineering.

Present invention simultaneously provides the installation method of above-mentioned assembled fireproof door frame/window frame, use pre-assembled mode, described frame skeleton, frame rear enclosure, frame protheca and anti-plume are previously-completed assembling in factory, and debug and the coordinating of fire-proof door leaf/sash.

The present invention provides the another kind of installation method of above-mentioned assembled fireproof door frame/window frame, the mode assembled after employing, first frame skeleton is arranged on body of wall, after civil engineering is basically completed, frame rear enclosure, frame protheca and anti-plume being respectively assembled on frame skeleton, debugging simultaneously coordinates with fire-proof door leaf/sash again.

Specifically, it it is dismountable connection between described frame rear enclosure, frame protheca and frame skeleton；Install and use during damaged after, can be replaced easily, and not affect fire-proof function and the decorative effect of fireproof door frame/window frame.

During use, this assembled fireproof door frame/window frame, including frame skeleton, frame protheca, frame rear enclosure and anti-plume；Described frame protheca, frame rear enclosure can be fixed on frame skeleton with screw or nail, stop naked light direct connecting frame skeleton；Separate with anti-plume between described frame protheca, frame rear enclosure, stop heat to be delivered to carry on the back fire face from fire surface.Its frame protheca, frame rear enclosure are dismountable, can mount and dismount in the different construction stages as required.When fire resistant doorsets (window) fan tolerance dimension is less than normal, the inorganic fire-retarded sheet material of desired thickness can be placed to regulate the interior dead size between door (window) frame to coordinate fire-proof door leaf between frame skeleton with frame protheca, lay equal stress on new production without destroying the fire-proof door leaf that completed, decrease the workload producing and installing.The multiple structure that frame skeleton is composited by inorganic anti-flaming material and wood materials, inorganic anti-flaming material is coated on wood materials outer layer, stops naked light directly to contact wood materials.Frame rear enclosure includes inner layer material and shell；The multiple structure that internal layer is combined by inorganic anti-flaming material and wood materials, inorganic anti-flaming material is coated on wood materials outer layer, stops naked light directly to contact wood materials；Outward for bending, rolling, extrude or be cast into the steel plate of required moulding, wood-plastic board, silica-magnesia panel or cement pressure plate, naked light can be stoped directly to contact internal layer.Frame protheca includes internal layer and shell: internal layer is inorganic anti-flaming material；For bending, rolling, extrude or be cast into the steel plate of required moulding, wood-plastic board, silica-magnesia panel or cement pressure plate；The cover plate of frame protheca can block the gap between frame skeleton and body of wall to stop pyrotechnics to pass.Frame rear enclosure can also be pre-installed on frame skeleton with the internal layer of frame protheca, forms Combined frame skeleton.Inorganic anti-flaming material can be inorganic fire-proof plate, silica-magnesia panel, cement pressure plate, cement-bonded wood chipboard, plasterboard.Wood materials can be solid wood board, plywood, fibre board, particieboard or other sheet material with timber as raw material.

This assembled fireproof door frame/window frame, can select pre-assembled mode or rear assembling mode flexibly according to the construction requirement of engineering.

Pre-assembled mode, i.e. the frame skeleton of fireproof door frame/window frame, frame rear enclosure, frame protheca and anti-plume can be previously-completed assembling in factory, and debugs and the coordinating of fireproof door frame/window frame and door leaf/sash.

The frame skeleton of rear assembling mode, i.e. fireproof door frame/window frame is first arranged on body of wall, and after civil engineering is basically completed, frame protheca, frame rear enclosure and anti-plume are respectively assembled on frame skeleton, and debugging simultaneously coordinates with fire-proof door leaf/sash.

Rear assembling mode, its frame protheca, frame rear enclosure are dismountable；Install and use during damaged after, can be replaced easily, and not affect fire-proof function and the decorative effect of fireproof door frame/window frame.

Beneficial effect: the assembled fireproof door frame/window frame of the present invention, the advantage with following aspect:

Simple three stage structure, frame protheca separates with frame rear enclosure, both can play heat-blocking action, again can be with dead size in conditioning box；Cover plate covers the gap between frame skeleton and body of wall, both can stop smoke spillage and alter fire, and can beautify again overall appearance；Frame skeleton, frame protheca and frame rear enclosure all use combined type material, can make full use of production rim charge, economy of drawing materials, environmental protection low-carbon (LC)；Rear assembling mode had both been readily transported and had installed, more can change the assembly of damage easily, it is ensured that the integrity of heat-insulating fireproof door/window.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of the assembled fireproof door frame/window frame of the present invention；

Fig. 2 is a kind of structural representation of the frame skeleton of the present invention；

Fig. 3 a, 3b are a kind of structural representation of the frame rear enclosure of the present invention；

Fig. 4 a, 4b, 4c are a kind of structural representation of the frame protheca of the present invention；

Fig. 5 is the frame skeleton scheme of installation of the present invention；

Fig. 6 is that the frame protheca of the present invention assembles schematic diagram；

Fig. 7 be the present invention frame in clean control method schematic diagram；

Fig. 8 is that frame rear enclosure of the present invention assembles schematic diagram；

Fig. 9 is the schematic diagram installing fire-proof door leaf/sash of the present invention；

Figure 10 is the facade effect schematic diagram of the assembled fireproof door frame/window frame of the present invention；

Figure 11 is the structural representation of the another embodiment of the assembled fireproof door frame/window frame of the present invention；

Figure 12 is the another kind of structural representation of the frame skeleton of the present invention；

Figure 13 is the another kind of structural representation of the frame rear enclosure of the present invention；

Figure 14 is the another kind of structural representation of the frame protheca of the present invention；

Figure 15 is the structural representation of another embodiment of the assembled fireproof door frame/window frame of the present invention；

Figure 16 is another structural representation of the frame skeleton of the present invention；

Figure 17 is another structural representation of the frame rear enclosure of the present invention；

Figure 18 is another structural representation of the frame protheca of the present invention；

Figure 19 is the structural representation of another embodiment of the assembled fire prevention window frame of the present invention；

Figure 20 is another structural representation of the frame protheca of the present invention；

Figure 21 is the schematic diagram assembling fixed fire window of the present invention.

Reference: 1-assembled fireproof door frame/window frame, 1a-assembled fireproof door frame/window frame, 1b-assembled fireproof door frame/window frame, 1c-assembled fire prevention window frame, 2-fire resistant doorsets (window) are fanned, 3-Fire-proof lock, 4-hinge for fireproof, 5-Concrete Filled, 6-body of wall, 7-iron nail, 8-flame resistant glass；11-frame skeleton, 11a-frame skeleton, 11b-frame skeleton, 11c-frame skeleton, 12-frame rear enclosure, 12a-frame rear enclosure, 12b-frame rear enclosure, 13-frame protheca, 13a-frame protheca, 13b-frame protheca, 13b-frame protheca, the anti-plume of 14-, the anti-plume of 14a-, 15-screw, 16-inorganic anti-flaming material (regulates)；111-inorganic anti-flaming material (frame skeleton), 112-wood materials (frame skeleton), 113-installs notch, 121-shell (frame rear enclosure), 121a-shell (frame rear enclosure), 121b-shell (frame rear enclosure), 122-inorganic anti-flaming material (frame rear enclosure), 123-wood materials (frame rear enclosure), 131-shell (frame protheca), 131a-shell (frame protheca), 131b-shell (frame protheca), 131c-shell (frame protheca), 132-inorganic anti-flaming material (frame protheca), 133-wood materials (frame protheca), 1211-assembly hole, 1212-lengthening section, 1311-assembly hole, 1312-pan, 1313-locking plate hole, 1314-knuckle, 1315-lengthening section；11b1-main framing (frame skeleton), 11b2-forward projection (frame skeleton), protuberance (frame skeleton) after 11b3-.

Detailed description of the invention

It is more fully described the exemplary of the disclosure below with reference to accompanying drawings.Although accompanying drawing shows the exemplary embodiment of the disclosure, it is to be understood that, may be realized in various forms the disclosure and should not limited by embodiments set forth here, other embodiments can include structure, material, assembling mode and other changes.Embodiment only represents possible change.On the contrary, it is provided that these embodiments are able to be best understood from the disclosure, and the scope of the present disclosure can intactly convey to those skilled in the art.Herein, embodiments of the invention can be by individually or overall term " is invented " and represented, this is only used to conveniently, and if in fact disclose the invention more than, it is not meant to automatically limit this application in the range of any single invention or inventive concept.

Embodiment one:

As it is shown in figure 1, the structural representation of a kind of embodiment of assembled fireproof door frame/window frame that Fig. 1 is the present invention；

Assembled fireproof door frame/the window frame of the present embodiment includes frame skeleton 11, frame rear enclosure 12, frame protheca 13 and anti-plume 14.Described frame rear enclosure 12, frame protheca 13 can be fixed on frame skeleton 11 with screw 15 or adhesive；Described anti-plume 14 can be with carrying glue or adhesive is fixed on frame skeleton 11；It is peripheral that described frame rear enclosure 12, frame protheca 13 and anti-plume 14 is wrapped in frame skeleton 11, stops naked light direct connecting frame skeleton；Separate with anti-plume 14 between described frame rear enclosure 12, frame protheca 13, stop heat to be delivered to carry on the back fire face from fire surface.

As in figure 2 it is shown, a kind of structural representation of the frame skeleton that Fig. 2 is the present invention；

Three layers or the multiple structure that frame skeleton 11 is composited by inorganic anti-flaming material 111 and wood materials 112, inorganic anti-flaming material 111 is coated on wood materials 112 outer layer, stops naked light directly to contact wood materials 112.

Inorganic anti-flaming material 111 can be inorganic fire-proof plate, silica-magnesia panel, cement pressure plate, cement-bonded wood chipboard, plasterboard；Wood materials 112 can be solid wood board, plywood, fibre board, particieboard or other sheet material with timber as raw material.

As shown in Fig. 3 a, 3b, Fig. 3 a, 3b are a kind of structural representation of the frame rear enclosure of the present invention；

Frame rear enclosure 12 is made up of with wood materials 123 shell 121, inorganic anti-flaming material 122；Relatively thin part is the inorganic anti-flaming material 122 of monolayer, thicker part is three layers or the multiple structure that inorganic anti-flaming material 122 is composited with wood materials 123, inorganic anti-flaming material 122 is coated on wood materials 123 outer layer, stops naked light directly to contact wood materials 123 by shell 121.

Inorganic anti-flaming material 122 can be inorganic fire-proof plate, silica-magnesia panel, cement pressure plate, cement-bonded wood chipboard, plasterboard；Wood materials 123 can be solid wood board, plywood, fibre board, particieboard or other sheet material with timber as raw material.

Assembly hole 1211 is had on the face that shell 121 is parallel with frame skeleton 11；Assembly hole 1211 answers countersunk head, and after guaranteeing to install screw 15, the surface of screw 15 and shell 121 flush, in order to avoid affecting fire resistant doorsets (window) fan switch.

As shown in Fig. 4 a, 4b, 4c, Fig. 4 a, 4b, 4c are a kind of structural representation of the frame protheca of the present invention；

Frame protheca 13 is made up of shell 131, inorganic anti-flaming material 132.

Inorganic anti-flaming material 132 can be inorganic fire-proof plate, silica-magnesia panel, cement pressure plate, cement-bonded wood chipboard or plasterboard.

Assembly hole 1311 is had on the face that shell 131 is parallel with frame skeleton 11；Assembly hole 1311 answers countersunk head, and after guaranteeing to install screw 15, the surface of screw 15 and shell 131 flush, in order to avoid affecting fire resistant doorsets (window) fan switch；The face that shell 131 is parallel with frame skeleton 11, should output the pan 1312 for installing hinge for fireproof and for installing the jam plate hole 1313 of Fire-proof lock；Shell 131 turning, should form a step 1314, and its size should be greater than the diameter of hinge for fireproof rotating shaft.

As it is shown in figure 5, the frame skeleton scheme of installation that Fig. 5 is the present invention；

Frame skeleton 11 is fixed on the inner side of body of wall 6 with iron nail 7, and the interior dead size between frame skeleton 11 is considered as height, width and the gap that fire resistant doorsets (window) are fanned；Space concrete 5 between frame skeleton 11 and body of wall 6 tamps.

As shown in Figure 6, Fig. 6 is the frame protheca assembling schematic diagram of the present invention；

Frame protheca 13 is fixed on frame skeleton 11 by assembly hole 1311 with screw 15.

As it is shown in fig. 7, clean control method schematic diagram in the frame that Fig. 7 is the present invention；

After frame protheca 13 is completed, measuring dead size in it, during dead size as outer more than door leaf in interior dead size, taken off by frame protheca 13, on frame protheca 13 with frame skeleton 11 pad, the inorganic anti-flaming material 16 of desired thickness, then refills upper ledge protheca 13.

As shown in Figure 8, Fig. 8 is the frame rear enclosure assembling schematic diagram of the present invention；

Frame rear enclosure 12 being fixed on frame skeleton 11 by assembly hole 1211 with screw 15, before and after frame rear enclosure 12, position is considered as thickness and the gap that fire resistant doorsets (window) are fanned.

As it is shown in figure 9, the schematic diagram that installation fire resistant doorsets (window) that Fig. 9 is the present invention is fanned；

Fire resistant doorsets (window) are fanned 2 use hinge for fireproofs 3 and it are linked together with assembled fireproof door frame/window frame；Fire resistant doorsets (window) are fanned 2 opposite sides and are installed Fire-proof lock 4.

Figure 10 is the facade effect schematic diagram of the assembled fireproof door frame/window frame of the present invention.

Frame protheca 13 and frame rear enclosure 12 can take the mode of multiple splicing according to the requirement of client, to reach required decorative effect.

Embodiment two:

As shown in figure 11, Figure 11 is the structural representation of another embodiment of assembled fireproof door frame/window frame of the present invention；

Assembled fireproof door frame/window frame the 1a of the present embodiment includes frame skeleton 11a, frame rear enclosure 12a, frame protheca 13a and anti-plume 14.The lengthening section 1212 of described frame rear enclosure 12a shell 121a inserts in the notch 114 of frame skeleton 11a respectively with the lengthening section 1315 of frame protheca 13a shell 131a, frame rear enclosure 12a and frame protheca 13a is fixed on frame skeleton 11a with screw 15 or adhesive simultaneously；Described anti-plume 14 can be with carrying glue or adhesive is fixed on frame skeleton 11a.

As shown in figure 12, Figure 12 is the another kind of structural representation of frame skeleton of the present invention；

The structure of frame skeleton 11a is same as in Example 1 with material；Twice notch 114 is outputed, for installing frame protheca 13a and frame rear enclosure 12a in the side of frame skeleton 11a.

As shown in figure 13, Figure 13 is the another kind of structural representation of frame rear enclosure of the present invention；

The structure of frame rear enclosure 12a is same as in Example 1 with material；At the shell 121a's while being provided with lengthening section 1212 of frame rear enclosure 12a, when assembled frame rear enclosure 12a, lengthening section 1212 is inserted in the notch 114 of frame skeleton 11a, in order to fixed frame rear enclosure 12a.

As shown in figure 14, Figure 14 is the another kind of structural representation of frame protheca of the present invention；

The structure of frame protheca 13a is same as in Example 1 with material；At the shell 131a's while being provided with lengthening section 1315 of frame protheca 13a, when assembled frame protheca 13a, lengthening section 1315 is inserted in the notch 114 of frame skeleton 11a, in order to fixed frame protheca 13a.

Embodiment three:

As shown in figure 15, Figure 15 is the structural representation of another embodiment of assembled fireproof door frame/window frame of the present invention；

Assembled fireproof door frame/window frame the 1b of the present embodiment includes frame skeleton 11b, frame rear enclosure 12b, frame protheca 13b and anti-plume 14.The lengthening section 1212 of described frame rear enclosure 12b shell 121b inserts in the notch 114 of frame skeleton 11b respectively with the shell 131b lengthening section 1315 of frame protheca 13b, frame rear enclosure 12b and frame protheca 13b is fixed on frame skeleton 11b with screw 15 or adhesive simultaneously；Described anti-plume 14 can be with carrying glue or adhesive is fixed on frame skeleton 11b.

As shown in figure 16, Figure 16 is another structural representation of frame skeleton of the present invention；

The material of frame skeleton 11b is same as in Example 1；Frame skeleton 11b is made up of main framing 11b1, forward projection 11b2 and rear protuberance 11b3；Three layers or the multiple structure that main framing 11b1 and rear protuberance 11b3 is composited by inorganic anti-flaming material 111 and wood materials 112, forward projection 11b2 is single-layer inorganic fire proofing 111, inorganic anti-flaming material 111 is coated on wood materials 112 outer layer, stops naked light directly to contact wood materials 112；Twice notch 114 is outputed, for installing frame protheca 13b and frame rear enclosure 12b in the side of frame skeleton 11b.

As shown in figure 17, Figure 17 is another structural representation of frame rear enclosure of the present invention；

Frame rear enclosure 12b is made up of the inorganic anti-flaming material 122 of shell 121b with internal layer；At the shell 121b's while being provided with lengthening section 1212 of frame rear enclosure 12b, when assembled frame rear enclosure 12b, lengthening section 1212 is inserted in the notch 114 of frame skeleton 11b, in order to fixed frame rear enclosure 12b.

As shown in figure 18, Figure 18 is another structural representation of frame protheca of the present invention；

Frame protheca 13b is made up of shell 131b, inorganic anti-flaming material 132；At the shell 131b's while being provided with lengthening section 1315 of frame protheca 13b, when assembled frame protheca 13b, lengthening section 1315 is inserted in the notch 114 of frame skeleton 11b, in order to fixed frame protheca 13b.

Embodiment four:

As shown in figure 19, Figure 19 is the structural representation of another embodiment of assembled fire prevention window frame of the present invention；

The assembled fire prevention window frame 1c of the present embodiment includes frame skeleton 11c, frame rear enclosure 12c, frame protheca 13c and anti-plume 14.The frame skeleton 11c of described fire prevention window frame 1c, frame rear enclosure 12c are identical with embodiment 1, embodiment 2 and embodiment 3 with assembling mode with the structure of anti-plume 14.The lengthening section 1212 of described frame rear enclosure 12c outer cover of steel plate 121c inserts in the notch 114 of frame skeleton 11c respectively with the shell 131c lengthening section 1315 of frame protheca 13c, frame rear enclosure 12c and frame protheca 13c is fixed on frame skeleton 11c with screw 15 or adhesive simultaneously；Described anti-plume 14 is with carrying glue or adhesive is fixed on frame skeleton 11c.

As shown in figure 20, Figure 20 is another structural representation of frame protheca of the present invention；

Frame protheca 13c is made up of with wood materials 133 shell 131c, inorganic anti-flaming material 132；Relatively thin part is the inorganic anti-flaming material 132 of monolayer, thicker part is three layers or the multiple structure that inorganic anti-flaming material 132 is composited with wood materials 133, inorganic anti-flaming material 132 is coated on wood materials 133 outer layer, stops naked light directly to contact wood materials 133 by shell 121c；At the shell 131c's while being provided with lengthening section 1315 of frame protheca 13c, when assembled frame protheca 13c, lengthening section 1315 is inserted in the notch 114 of frame skeleton 11c, in order to fixed frame protheca 13c.

As shown in figure 21, Figure 21 is the schematic diagram assembling fixed fire window of the present invention；

This embodiment is applicable to the fire prevention window frame of fixed fire window, and its number of assembling steps is: 1, be fixed on body of wall by frame skeleton 11c use iron nail 7；2, the lengthening section 1212 of the shell 121c of frame rear enclosure 12c is inserted in the notch 114 of frame skeleton 11c, use screw 15 or adhesive fixed frame rear enclosure 12c simultaneously；3, by anti-plume 14 with carrying glue or adhesive is fixed on frame skeleton 11c；4, fire window glass 8 is put in the middle of fire prevention window frame, up and down alignment front and back；5, the lengthening section 1315 of the shell 131c of frame protheca 13c is inserted in the notch 114 of frame skeleton 11c, use screw 15 or adhesive fixed frame rear enclosure 13c simultaneously.

Finally should be noted that: above example is merely to illustrate the technology example of the application rather than the restriction to its protection domain; although the application being described in detail with reference to above-described embodiment; those of ordinary skill in the field are it is understood that those skilled in the art still can carry out all changes, amendment or equivalent to the detailed description of the invention of application after reading the application; but these changes, amendment or equivalent, all within the claims that application is awaited the reply.

Claims (7)

1. assembled fireproof door frame/window frame, including the frame rear enclosure being sequentially connected with, frame skeleton and frame protheca, it is characterised in that: being folded with anti-plume between described frame rear enclosure and frame protheca, the side of described anti-plume is fixedly connected on frame skeleton.

2. assembled fireproof door frame/window frame as claimed in claim 1, it is characterised in that: described frame skeleton is the multiple structure being composited by inorganic fire-retarded sheet material layers and layer of wood, and described inorganic fire-retarded layer is coated on layer of wood outer layer.

3. assembled fireproof door frame/window frame as claimed in claim 1, it is characterised in that: described frame rear enclosure is layered composite structure, and its internal layer is the multiple structure being composited by inorganic fire-retarded layer and layer of wood, and the most inorganic fire-retarded layer is coated on layer of wood outer layer；Shell is steel plate, wood-plastic board, silica-magnesia panel or cement pressure plate.

4. assembled fireproof door frame/window frame as claimed in claim 1, it is characterised in that: the internal layer of described frame protheca is inorganic fire-retarded layer, and shell is steel plate, wood-plastic board, silica-magnesia panel or cement pressure plate.

5. assembled fireproof door frame/window frame as claimed in claim 1, it is characterised in that: described frame protheca has cover plate.

6. assembled fireproof door frame/window frame as claimed in claim 1, it is characterized in that: the shell of described frame protheca has the first lengthening section, the shell of described frame rear enclosure has the second lengthening section, there is on described frame skeleton the first groove and the second groove, described anti-plume is fixed between the first groove and the second groove, described first lengthening section embeds in the first groove, and described second lengthening section embeds in the second groove.

7. assembled fireproof door frame/window frame as claimed in claim 1, it is characterised in that: it is dismountable connection between described frame rear enclosure, frame skeleton, anti-plume and frame protheca.