CN205532022U - Energy -conserving sliding door of bridge cut -off aluminium alloy - Google Patents

Abstract

The utility model discloses an energy -conserving sliding door of bridge cut -off aluminium alloy. Window frame and push -and -pull fan frame are the bridge cut -off aluminium alloy, and the thermal -insulated section bar of compriseing plastic material and foaming polyurethane of complex is installed in the window frame and the well club frame outside, and there is aluminium alloy decoration safety cover in the outside. The push -and -pull is fanned and is fixed and seals structural form for elastic rubber strip between the frame. Compared with the prior art, the utility model discloses when having the push -and -pull, push -and -pull fan is earlier to inboard translation, and with the phase separation of fixed frame member, the push -and -pull fan moves in the integral type track of frame fixed from top to bottom, and the particularly outstanding is, all there is a compound thermal -insulated section bar in the whole window fixed frame structure outside, and push -and -pull fan and fix and be elastic rubber strip structural form between the frame effectively cuts off heat transfer, reaches energy -conserving effect. Aluminium alloy ageing resistance UV -resistant long service life, but the surface spraying becomes different colours, has rich and varied pleasing to the eye effect.

Description

A kind of bridge-cut aluminum section bar energy-saving sliding door and window

Technical field

The utility model one bridge-cut aluminum section bar energy-saving sliding door and window, relates to the window technology field in building decoration, special Do not relate to bridge-cut aluminum section bar energy-saving sliding door and window technical field.

Background technology

At present, domestic construction energy-saving sliding door and window mainly has the forms such as bridge-cut aluminum section bar window, plastic window, aluminum plastic compound window, Push-and-pull fan frame mostly is gripper rail both sides form, and between sliding sash and fixed border, gap is using rubber strip or wool top as sealing structure Part, containment member is easy to wear in Long-Time Service, thus affects that push-and-pull is smooth and easy and whole window air-tightness, watertightness performance etc., broken , there is many defects in bad effective energy-saving effect, the popularization affecting energy-saving sliding door and window is practical.Plastic material sliding window ageing resistance Poor, thus also be difficult to ensure high usability energy-conservation, durable and the combination of aesthetic.

Utility model content

The purpose of this utility model is to overcome drawbacks described above, is improved existing door and window, and design is a kind of by aluminium profiles Novel a kind of energy-conservation push-and-pull of bridge-cut aluminum section bar that material, plastic material, rubber strip and four kinds of materials of polyurathamc are combined into one Door and window.Its technology is achieved in that the structure including aluminium section bar, plastic material, rubber strip and polyurathamc.It is special Levy and be: window fixed frame and push-and-pull fan frame are that continuous bridge insulation thermal resistance form, simultaneously window fixed border and middle stile frame are all with by filling out Fill the plastics composite heat insulation section of blown polyurethane materials, outside window fixed frame and fan frame, increase that to arrange continuous print fixed Composite heat insulation section (this composite heat insulation section is made up of aluminium section bar protective cover, plastic material and polyurathamc), push-and-pull fan frame And be elastic adhesive tape seal construction between fixed frame, use screw to be installed and fixing by whole window by aluminium gusset plate, window fixed frame and Push-and-pull fan frame is bridge-cut aluminum section bar structure, and this bridge-cut aluminum section bar is heat insulation section structure.Between push-and-pull fan frame and fixed frame it is Elastic rubber strip, in off position under can form sealing equivalent pressure cavity.Sliding sash is during push-pull operation, and push-and-pull fan frame is first to room Inner side translation certain distance, the most vertically push-and-pull fan frame and the fixed border in movement, moving process of the track between fixed frame Between sealing rubber strip depart from, do not contact.Implement the obvious advantage after this technology and effect is: achieve unlatching and save sky Between, use usability energy-conservation, durable laborsaving, anti-aging, high and aesthetic to organically combine.Compared with prior art, whole window is The bridge-cut aluminum section bar that surface can process with kinds of processes, has the advantages such as uvioresistant length in ageing-resistant service life.Intermediate host Structure is plastic material, has effectively cut off the transmission of heat, meanwhile, the elastic rubber strip realization etc. between fan frame and fixed frame Pressure chamber structure, has effectively cut off passing through of rainwater or air, has reached energy-conservation effect.Indoor lateral aluminium section bar can distinguish root According to needing to be processed into color and the effect of applicable building, to the sensation that people is attractive in appearance.

Accompanying drawing illustrates:

Fig. 1 is the utility model embodiment cross-sectional structural representation of sliding sash bezel locations, and Fig. 2 is that the utility model is implemented Example push-and-pull fan frame and the fixing middle stile cross-sectional structural representation of frame delivery position, Fig. 3 is the utility model embodiment fixed border position Put cross-sectional structural representation, Fig. 4 be the utility model embodiment push-and-pull frame with laterally in stile position is perpendicular cuts open structural representation, its In: 1 aluminium section bar, 2 plastic materials, 3 rubber strips, 4 polyurathamcs

Detailed description of the invention:

Below in conjunction with accompanying drawing, as a example by window, the utility model is described further:

See accompanying drawing 1, accompanying drawing 2, accompanying drawing 3 and accompanying drawing 4, sliding window jamb aluminium section bar by plastic material and aluminium section bar compound and Becoming, install composite heat insulation section by draw-in groove and stop screw outside frame, window mullion frame section is also by plastic material and aluminium Section bar is composited, and installs composite heat insulation section also by draw-in groove and stop screw outside window mullion frame aluminium section bar, and window sash frame is led to Crossing plastic material to be composited with aluminium section bar, in fan frame, rubber strip is fixed on above fan frame by draw-in groove, fixed border and middle stile On frame, rubber strip is fixed on above composite heat insulation section by draw-in groove, described plastic material and rubber strip be 3 chambeies and more than Number of cavities structure.

Seeing accompanying drawing 1, accompanying drawing 2, accompanying drawing 3 and accompanying drawing 4, total is made up of 4 kinds of materials, respectively aluminium section bar, shaped plastics Material, rubber strip and polyurathamc, process aluminium section bar according to dimensional requirement aluminum alloy machinery, and plastic material, then according to chi Very little requirement intercepts rubber strip and assembles, and during assembling, plastic material is by being fixed on aluminium section bar, and rubber strip passes through draw-in groove Being fixed on plastic material, plastic material is by being fixed on aluminium section bar, because rubber strip designs for flexible cavity, effectively Achieve watertightness performance and air-tightness, jamb plastic material and fan frame plastic material, and the shaped plastics outside fixed frame Material is heat-barrier material, thus realizes the purpose of the effective heat preservation energy-saving of whole window.

Claims (4)

1. a bridge-cut aluminum section bar energy-saving sliding door and window, including aluminium section bar, plastic material, rubber strip and polyurathamc Structure, it is characterised in that: window fixed frame and push-and-pull fan frame are continuous bridge insulation thermal resistance form, window fixed border and middle stile frame all with By the plastics composite heat insulation section of filling-foam polyurethane material, between window push-and-pull fan frame and fixed frame, seal structure for elastic adhesive tape Make；Sliding sash is during push-pull operation, and push-and-pull fan frame first translates to indoor, the most vertically integral track of fixed frame Mobile, in moving process, the sealing rubber strip component between push-and-pull fan frame and fixed border departs from, and does not contacts.

A kind of bridge-cut aluminum section bar energy-saving sliding door and window the most according to claim 1, it is characterised in that: described aluminium section bar is The heat insulation section structure that aluminium and plastics are composited.

A kind of bridge-cut aluminum section bar energy-saving sliding door and window the most according to claim 1, it is characterised in that: described plastics are combined Heat insulation section is heatpiston's profile structure, interior filling-foam polyurethane heat insulation material.

A kind of bridge-cut aluminum section bar energy-saving sliding door and window the most according to claim 1, it is characterised in that: described fixes up and down The integral track of frame, keeps push-and-pull fan frame to be separated with fixed frame component in push-and-pull traveling process, does not contacts, pushing away Draw fan closed mode can reset again, formed and effectively seal equivalent pressure cavity.