CN203925198U - A kind of fire prevention composite energy-saving door - Google Patents

Abstract

The utility model relates to door and window structure technical field, particularly a kind of fire prevention composite energy-saving door.A kind of fire prevention composite energy-saving door described in the utility model, comprise aluminium-plastic section bar and door-plate, described door-plate comprises keel layer, and the both sides of keel layer are provided with heat-insulating, fire-preventing layer, the outside of heat-insulating, fire-preventing layer is provided with table coating, and the framework that the edge of door-plate surrounds with aluminium-plastic section bar is connected.The utility model is rational in infrastructure, and aluminium-plastic section bar is separated into inside and outside two chambers, adds plastics to cut off the compartment and form a plurality of independent heat-insulation chambers in chamber, increases the thermal resistance coefficient of aluminium-plastic section bar; Door-plate strengthening keel, heat-insulating, fire-preventing layer, filling silencing cotton and table coating form, and then improve fire prevention, sound insulation and the heat-insulating property of door-plate, when guaranteeing structural strength, reduce production costs.

Description

A kind of fire prevention composite energy-saving door

Technical field

The utility model relates to door and window structure technical field, particularly a kind of fire prevention composite energy-saving door.

Background technology

Along with the continuous progress of era development and science and technology, the problem that the energy is petered out has become the focus of human society, how energy conservation and reduce the important topic that energy consumption becomes current social development.The research direction of energy-saving field has a lot, has comprised door and window industry common in daily life, for the research and development of energy-conserving product, is also day by day ripe.In current builing industry, generally use aluminium alloys and plastic-steel processing door and window, but the coefficient of thermal conductivity of aluminium itself is high, its insulation and effect of heat insulation are poor, and soundproof effect is not good, along with the growth of service time, the generation of malformation can constantly increase this space, causes the tightness of the interior space to decline, the insulation and the sound insulation value that reduce door and window, make indoor temperature equipment produce more energy consumption.That common door and window is mostly is wooden, glass or alloy material, in performance due to its setting of difference of material characteristic, also differ widely, and relatively in thermal insulation and sound insulation function, have defect, and most door and window do not possess the performance of setting fire, have in use potential safety hazard.Therefore, be necessary structure to improve to improve its functional performance.

Utility model content

The purpose of this utility model is for the defect of prior art and deficiency, and a kind of compact conformation, good airproof performance, the expensive low fire prevention composite energy-saving door of intensity are provided.

For achieving the above object, the utility model is by the following technical solutions:

A kind of fire prevention composite energy-saving door described in the utility model, comprise aluminium-plastic section bar and door-plate, described door-plate comprises keel layer, and the both sides of keel layer are provided with heat-insulating, fire-preventing layer, the outside of heat-insulating, fire-preventing layer is provided with table coating, and the framework that the edge of door-plate surrounds with aluminium-plastic section bar is connected.

Further, the rectangular cylinder setting of described aluminium-plastic section bar, the insulating course that is provided with aluminium matter in aluminium-plastic section bar is separated into medial compartment and lateral compartments by inner chamber, the insulating course that is provided with aluminium matter in lateral compartments will be separated into former and later two large heat-insulation chambers in lateral compartments, the plastics that are provided with right-angled intersection in large heat-insulation chamber cut off, and the diagonal of the large heat-insulation chamber in plastics partition edge arranges large heat-insulation chamber is separated into four independently little heat-insulation chambers; The inboard of described medial compartment is provided with opening, and the edge card of described door-plate surrounding is located in opening and then the framework surrounding with aluminium-plastic section bar is connected.

Further, on the bottom surface of described opening, have bayonet socket, be connected with gum cover on bayonet socket, gum cover inner end becomes T shape structure setting and then is connected on bayonet socket, the take the shape of the letter U structure setting and then be attached at the inner surface of opening of gum cover outer end, the edge card of door-plate surrounding is located on gum cover outer end.

Further, described keel layer comprises some crisscross spaced lightweight girder steels, in the gap between lightweight girder steel, is filled with silencing cotton.

Further, described heat-insulating, fire-preventing layer comprises fire-proof asbestos layer, and the inboard face that fire-proof asbestos layer contacts with keel layer is provided with isolation layer.

Further, on the edge of described door-plate surrounding, be sheathed on sheath, the edge of door-plate is connected on aluminium-plastic section bar by sheath.

The utility model beneficial effect is: the utility model is rational in infrastructure, and aluminium-plastic section bar is separated into inside and outside two chambers, adds plastics to cut off the compartment and form a plurality of independent heat-insulation chambers in chamber, increases the thermal resistance coefficient of aluminium-plastic section bar; Door-plate strengthening keel, heat-insulating, fire-preventing layer, filling silencing cotton and table coating form, and then improve fire prevention, sound insulation and the heat-insulating property of door-plate, when guaranteeing structural strength, reduce production costs.

Accompanying drawing explanation

Fig. 1 is whole cross-sectional view of the present utility model;

Fig. 2 is door-plate hierarchy schematic diagram of the present utility model.

In figure:

10, aluminium-plastic section bar; 11, insulating course; 12, heat-insulation chamber; 13, plastics cut off;

14, opening; 15, bayonet socket; 20, gum cover; 30, door-plate;

31, keel layer; 32, fire proof heat-insulation layer; 33, table coating; 34, sheath;

311, girder steel; 321, asbestos layer; 322, isolation layer.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is further described.

A kind of fire prevention composite energy-saving door described in the utility model, comprise aluminium-plastic section bar 10 and door-plate 30, described door-plate 30 comprises keel layer 31, keel layer 31 comprises some crisscross spaced lightweight girder steels 311, in gap between lightweight girder steel 311, be filled with silencing cotton, the keel layer 31 that lightweight girder steel 311 connects to form is the main body frame of door-plate 30, the both sides of keel layer 31 are provided with heat-insulating, fire-preventing layer 32, heat-insulating, fire-preventing layer 32 is for improving the heat-proof quality of door-plate 30, and prevent from burning and wear door-plate 30, the outside of heat-insulating, fire-preventing layer 32 is provided with table coating 33, the edge of door-plate 30 is connected with the framework that aluminium-plastic section bar 10 surrounds.

The rectangular cylinder setting of above-mentioned aluminium-plastic section bar 10, the insulating course 11 that is provided with aluminium matter in aluminium-plastic section bar 10 is separated into medial compartment and lateral compartments by inner chamber, the insulating course 11 that is provided with aluminium matter in lateral compartments will be separated into former and later two large heat-insulation chambers 12 in lateral compartments, the plastics that are provided with right-angled intersection in large heat-insulation chamber 12 cut off 13, and plastics partition 13 diagonal along large heat-insulation chambers 12 arrange large heat-insulation chamber 12 is separated into four independently little heat-insulation chambers 12; Lateral compartments is cut off the thermal resistivity of 13 raising section bars by the plastics of former and later two large heat-insulation chamber 12 interior settings, and a plurality of little heat-insulation chambers 12 can reduce the interchange of heat that cross-ventilation produces, plastics cut off 13 also can improve the structural strength of aluminium-plastic section bar 10, reduces production costs; The inboard of the medial compartment of aluminium-plastic section bar 10 is provided with opening 14, and the edge of door-plate 30 surroundings snaps in opening 14 and then the framework surrounding with aluminium-plastic section bar 10 is connected.

On the bottom surface of above-mentioned opening 14, have bayonet socket 15, on bayonet socket 15, be connected with gum cover 20, gum cover 20 inner ends become T shape structure setting and then are connected on bayonet socket 15, gum cover 20 is established and is connected and is one on bayonet socket 15 and then with aluminium-plastic section bar 10 by the T shape head card of inner end, the take the shape of the letter U structure setting and then be attached at the inner surface of opening 14 of gum cover 20 outer ends, the edge card of door-plate 30 surroundings is located on gum cover 20 outer ends, and gum cover 20 is for improving the compactness being connected between door-plate 30 and opening 14.

Heat-insulating, fire-preventing layer 32 comprises fire-proof asbestos layer 321; the inboard face that fire-proof asbestos layer 321 contacts with keel layer 31 is provided with isolation layer 322, and the independent layering setting of fire-proof asbestos layer 321 and isolation layer 322 and fire-proof asbestos layer 321 are located at the outside of isolation layer 322 and then protect it by naked light, not ignited.

On the edge of above-mentioned door-plate 30 surroundings, be sheathed on sheath 34, the edge of door-plate 30 is connected on aluminium-plastic section bar 10 by sheath 34, and sheath 34 is set on the edge of door-plate 30 surroundings and then the connection dimension of assurance and aluminium-plastic section bar 10.

The above is only better embodiment of the present utility model, and the equivalence of doing according to structure, feature and principle described in the utility model patent claim therefore all changes or modifies, and is included in the utility model patent claim.

Claims (6)

1. a fire prevention composite energy-saving door, comprise aluminium-plastic section bar (10) and door-plate (30), it is characterized in that: described door-plate (30) comprises keel layer (31), the both sides of keel layer (31) are provided with heat-insulating, fire-preventing layer (32), the outside of heat-insulating, fire-preventing layer (32) is provided with table coating (33), and the edge of door-plate (30) is connected with the framework that aluminium-plastic section bar (10) surrounds.

2. fire prevention composite energy-saving door according to claim 1, it is characterized in that: the rectangular cylinder setting of described aluminium-plastic section bar (10), the insulating course (11) that is provided with aluminium matter in aluminium-plastic section bar (10) is separated into medial compartment and lateral compartments by inner chamber, the insulating course (11) that is provided with aluminium matter in lateral compartments will be separated into former and later two large heat-insulation chambers (12) in lateral compartments, the plastics that are provided with right-angled intersection in large heat-insulation chamber (12) cut off (13), and the diagonal of the large heat-insulation chamber (12) in plastics partitions (13) edge arranges large heat-insulation chamber (12) is separated into four independently little heat-insulation chambers (12); The inboard of described medial compartment is provided with opening (14), and the edge card of described door-plate (30) surrounding is located in opening (14) and then the framework surrounding with aluminium-plastic section bar (10) is connected.

3. fire prevention composite energy-saving door according to claim 2, it is characterized in that: on the bottom surface of described opening (14), have bayonet socket (15), on bayonet socket (15), be connected with gum cover (20), gum cover (20) inner end becomes T shape structure setting and then is connected on bayonet socket (15), the take the shape of the letter U structure setting and then be attached at the inner surface of opening (14) of gum cover (20) outer end, the edge card of door-plate (30) surrounding is located on gum cover (20) outer end.

4. fire prevention composite energy-saving door according to claim 1, is characterized in that: described keel layer (31) comprises some crisscross spaced lightweight girder steels (311), in the gap between lightweight girder steel (311), is filled with silencing cotton.

5. fire prevention composite energy-saving door according to claim 1, it is characterized in that: described heat-insulating, fire-preventing layer (32) comprises fire-proof asbestos layer (321), the inboard face that fire-proof asbestos layer (321) contacts with keel layer (31) is provided with isolation layer (322).

6. fire prevention composite energy-saving door according to claim 1, it is characterized in that: on the edge of described door-plate (30) surrounding, be sheathed on sheath (34), the edge of door-plate (30) is connected on aluminium-plastic section bar (10) by sheath (34).