CN201198706Y - Inside and outside heat insulation composite section bar - Google Patents

Abstract

The utility model discloses an internal and external heat insulation composite profile, consisting of a heat insulation profile and a metal profile. The internal side is the heat insulation profile, the middle part is the metal profile, and the external side is the heat insulation profile. The heat insulation profile at the internal side is connected with the internal side of the metal profile at the middle part, and the insulation profile at the external side is connected with the external side of the metal profile at the middle part.

Description

The thermal insulation composite material

Technical field;

The utility model relates to a kind of building doors and windows and architectural decoration section bar.

Background technology;

Existing aluminium wood or aluminium-plastic composite section, wood section or plastic material are arranged on the indoor, the outside is aluminium alloy extrusions or disconnected hot aluminium alloy extrusions, as patent No. 200320104135.X " mechanical combined type wood aluminium special-purpose section ", the patent No. 200420063216.4 " aluminium-plastic-wood composite energy-saving heat-insulating shapes door and window " 200620025456.4 " wooden aluminium composite door and window frame " 200620063311.3 " pulling on press type aluminium-wood composite section " disclose said structure, the shortcoming of this structure is: 1, the outside aluminium alloy extrusions conducts heat fast, it is poor to only depend on indoor wood section or plastic material to carry out heat insulation its heat-insulating property, wastes energy.2, because aluminium alloy extrusions is different with the linear contractive quotiety of heat insulation section, when temperature reduces, the linear shrinkage amount of heat insulation section is greater than the linear shrinkage amount of aluminium alloy extrusions, when making door and window with interior heat insulation section with the combined heat insulated section bar of outer aluminium alloy extrusions manufacturing, the slit appears in the place at the adjacent heat insulation section angle of cut.Because aluminium alloy extrusions and heat insulation section lay respectively at indoor and outside, can't solve the shrinkage joint problem by process the method for reserving retraction slot in the aluminium alloy extrusions end.3, wood, plastics, plastic-wood material all are soft elastic materials, when the grab card is pressed wood, plastics, plastic-wood material about the aluminium alloys, and the distortion of soft elastic material, reduce the aluminium alloys thrust of grab up and down, the long-term use, because the release and the variation of temperature of stress, aluminium wood junction is easily loosening.4, aluminium alloys up and down grab only be stuck in wood, plastics, plastic-wood material about, the locating slot between middle no wood section and aluminium alloy extrusions, during the roll-in aluminium alloy extrusions, the easy sideslip of wood section, the precision of reduction aluminium-wood composite section.

The utility model content;

The purpose of this utility model is; 1, makes up by medial septal hot profiles and middle aluminium alloy extrusions and lateral septal hot profiles, improve the heat-insulating property of heat insulation section, energy conservation.When 2, making door and window with the thermal insulation composite material, reserve retraction slot and reserving the method that the retraction slot position adds elastic gum by middle aluminium alloy extrusions end is processed, when solving the temperature reduction, adjacent heat insulation section occurs gap problem because of linear shrinkage at angle of cut place.3, by the method that supports the location tenon or support the location supporting plate being set up and down between grab at aluminium alloys, realize that aluminium alloys and wood section wear fashionable gapped and gapless conversion when compressing, improve the aluminium-wood composite section precision, prevent that aluminium wood junction from becoming flexible.

The thermal insulation composite material that the utility model proposes is by heat insulation section, shape is formed, the inboard is a heat insulation section, and the centre is a shape, and the outside is a heat insulation section, the medial septal hot profiles is connected with the intermetallic metal section bar is inboard, the lateral septal hot profiles is connected with the intermetallic metal section bar outside, and the intermetallic metal section bar is aluminium alloy extrusions, magnesium alloy profiles, steel profile, shape is link slot up and down, and butt hook and positioning supports tenon, positioning supports plate are established in both sides.Heat insulation section is wood section, plastic material, plastic-wood section, mould glass section bar, high polymer alloy section bar.Heat insulation section is a solid profile, hollow profile, foamed profile.

It is as follows to have the thermal insulation composite material combining structure that supports the location tenon: holddown groove and connector are established in medial septal hot profiles and shape sides adjacent top, open slot is established in the centre, the open slot shape is generally the little manger shape of outer imperial palace, holddown groove and connector are established in the bottom, intermetallic metal section bar inside upper part is established and is compressed hook, the support location tenon that matches with heat insulation section middle opening groove shape is established in the centre, it is outer big trapezoidal in little that the shape that supports the location tenon is generally, the bottom is established and is compressed hook, medial septal hot profiles top connector injects intermetallic metal section bar top and compresses hook and support in the tongue-and-groove of locating the tenon composition, medial septal hot profiles bottom connector injects intermetallic metal section bar bottom and compresses hook and support in the tongue-and-groove of locating the tenon composition, the intermetallic metal section bar supports the location tenon and inserts in the medial septal hot profiles intermediate open channel, intermetallic metal section bar inside upper part compresses hook and is pressed in the holddown groove of medial septal hot profiles top, and intermetallic metal section bar lower inside compresses hook and is pressed in the holddown groove of medial septal hot profiles bottom.Holddown groove and connector are established in lateral septal hot profiles and shape sides adjacent top, open slot is established in the centre, the open slot shape is generally the little manger shape of outer imperial palace, holddown groove and connector are established in the bottom, intermetallic metal section bar outer upper is established and is compressed hook, the support location tenon that matches with heat insulation section middle opening groove shape is established in the centre, it is outer big trapezoidal in little that the shape that supports the location tenon is generally, the bottom is established and is compressed hook, lateral septal hot profiles top connector injects intermetallic metal section bar outer upper and compresses hook and support in the tongue-and-groove of locating the tenon composition, lateral septal hot profiles bottom connector injects intermetallic metal section bar outer lower portion and compresses hook and support in the tongue-and-groove of locating the tenon composition, the intermetallic metal section bar supports the location tenon and inserts in the lateral septal hot profiles intermediate open channel, intermetallic metal section bar outer upper compresses hook and is pressed in the holddown groove of lateral septal hot profiles top, and intermetallic metal section bar outer lower portion compresses hook and is pressed in the holddown groove of lateral septal hot profiles bottom.

When having the thermal insulation composite material assembling of supporting the location tenon, utilize between heat insulation section and middle aluminium alloy extrusions notch the slit to the inside or outer side shifting, the intermetallic metal section bar is supported between location tenon and medial septal hot profiles intermediate open channel form the slit, this moment, heat insulation section can easily penetrate in the middle aluminium alloy extrusions notch, when middle shape top compresses that hook is pressed in the holddown groove of heat insulation section top and intermetallic metal section bar bottom when compressing hook and being pressed in the holddown groove of heat insulation section bottom, by compressing the thrust that rotatablely moves of hook up and down, heat insulation section moves to middle aluminium alloy extrusions direction, intermetallic metal section bar support location tenon and heat insulation section intermediate open channel are fitted tightly together, shape supports location tenon holder on the heat insulation section connector, shape compresses hook up and down lower union joint on the heat insulation section is compressed, and prevents to be connected loosening problem with middle aluminium alloy extrusions because of the soft elastic deformation generation heat insulation section of heat insulation section.Other effect of supporting the location tenon is; 1, heat insulation section accurate positioning during pressing improves the dimensional accuracy of section bar.2, support the anti-deformation that the location tenon improves shape.3, realize that aluminium alloys and wood section wear fashionable gapped and gapless conversion when compressing.

The thermal insulation composite material combining structure that has the positioning supports supporting plate is as follows: holddown groove and connector are established in medial septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar inside upper part is established and is compressed hook, last positioning supports supporting plate and the following positioning supports supporting plate that matches with heat insulation section middle opening groove shape established in the centre, the bottom is established and is compressed hook, medial septal hot profiles top connector reeve intermetallic metal section bar top compresses in the tongue-and-groove of hook and last positioning supports supporting plate composition, intermetallic metal section bar inside upper part compresses hook and is pressed in the holddown groove of medial septal hot profiles top, medial septal hot profiles bottom connector reeve intermetallic metal section bar bottom compresses in the tongue-and-groove of hook and following positioning supports supporting plate composition, intermetallic metal section bar lower inside compresses hook and is pressed in the holddown groove of medial septal hot profiles bottom, holddown groove and connector are established in lateral septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar outer upper is established and is compressed hook, last positioning supports supporting plate and the following positioning supports supporting plate that matches with heat insulation section middle opening groove shape established in the centre, the bottom is established and is compressed hook, lateral septal hot profiles top connector reeve intermetallic metal section bar top compresses in the tongue-and-groove of hook and last positioning supports supporting plate composition, intermetallic metal section bar outer upper compresses hook and is pressed in the holddown groove of lateral septal hot profiles top, lateral septal hot profiles bottom connector reeve intermetallic metal section bar bottom compresses in the tongue-and-groove of hook and following positioning supports supporting plate composition, and intermetallic metal section bar outer lower portion compresses hook and is pressed in the holddown groove of lateral septal hot profiles bottom.

For improving the bonding strength of thermal insulation section bar and middle aluminium alloy extrusions, prevent that heat insulation section and aluminium alloy extrusions break away from gluing between aluminium alloy extrusions and heat insulation section.

For improving the ageing-resistant performance of heat insulation section, the sticking metal composite film in heat insulation section surface or organic film.Metal composite film is made up of aluminium foil, organic film and glue, is provided with decorative pattern or decorating film on the surface of aluminium foil, improves the decorative effect and the application life of section bar.

For improving the decorate properties of heat insulation section, heat insulation section surface impressing pattern.

The heat insulation section surface is coated with photocatalyst of titanium dioxide coating, under the effect of light, utilizes titanium dioxide as catalyzer accelerated oxidation reduction reaction, destroys the cell membrane of bacterium, makes the thermal insulation composite material that anti-fouling and self-cleaning be arranged, sterilization, mildew-proof function.

The utility model has the advantages that: 1, make up, improve the heat-insulating property of heat insulation built-up sectional material by medial septal hot profiles and middle aluminium alloy extrusions and lateral septal hot profiles.When 2, making door and window with the thermal insulation composite material, reserve retraction slot and reserving the method that the retraction slot position adds elastic gum by middle aluminium alloy extrusions end is processed, when solving the temperature reduction, adjacent heat insulation section occurs gap problem because of linear shrinkage at angle of cut place.3, by the method that supports the location tenon or support the location supporting plate being set up and down between grab at aluminium alloys, realize that aluminium alloys and wood section wear fashionable gapped and gapless conversion when compressing, improve the aluminium-wood composite section precision, prevent that aluminium wood junction from becoming flexible.

Description of drawings;

Below in conjunction with drawings and Examples the utility model is further described.

Fig. 1 has the utility model feature to have the interior thermal-insulated frame section bar end view drawing that supports the location tenon.

Fig. 2 has the utility model feature to have the outer thermal-insulated frame section bar end view drawing that supports the location tenon.

Fig. 3 has the utility model feature to have the middle aluminum alloy frame section bar end view drawing that supports the location tenon.

Fig. 4 has the utility model feature to have the thermal insulation combo box section bar that supports the location tenon and wear and close the procedure structure schematic diagram.

Fig. 5 has the utility model feature to have the thermal insulation combo box section bar that supports the location tenon and compress back section bar end view drawing.

Fig. 6 has the utility model feature to have the middle aluminum alloy frame section bar of positioning supports supporting plate end view drawing.

Fig. 7 has the utility model feature to have the thermal insulation combo box section bar that supports the location supporting plate and wear and close the procedure structure schematic diagram.

Fig. 8 has the utility model feature to have the thermal insulation combo box section bar that supports the location supporting plate and compress back section bar end view drawing.

The specific embodiment

Embodiment 1:

A kind of have support the location tenon interior thermal-insulated frame section bar end view drawing as shown in Figure 1, Fig. 2 has the outer thermal-insulated frame section bar end view drawing that supports the location tenon, Fig. 3 has the middle aluminum alloy frame section bar end view drawing that supports the location tenon, Fig. 4 has the thermal insulation combo box section bar that supports the location tenon to wear and close the procedure structure schematic diagram, Fig. 5 has the thermal insulation combo box section bar that supports the location tenon to compress back section bar end view drawing, wherein: the 1st, interior thermal-insulated frame section bar, the 2nd, the interior holddown groove of going up, the 3rd, interior upper binding head, the 4th, interior holddown groove down, the 5th, interior lower union joint, the 6th, interior manger shape open slot, the 7th, outer thermal-insulated frame section bar, the 8th, the outer holddown groove of going up, the 9th, outer upper binding head, the 10th, outer holddown groove down, the 11st, outer lower union joint, the 12nd, outer manger shape open slot, the 13rd, middle aluminum alloy frame section bar, the 14th, compress hook on interior, the 15th, interior support location tenon, the 16th, compress hook under interior, the 17th, compress hook on outer, the 18th, the outer location tenon that supports, the 19th, compress hook under outer, the 20th, slit between interior manger shape open slot and interior support location tenon, the 21st, outer manger shape open slot and outer the support are located slit between tenon, Fig. 4 has the thermal insulation combo box section bar that supports the location tenon to wear and close the procedure structure schematic diagram, it is as follows to wear the process of closing: at first interior thermal-insulated frame section bar 1 is moved in the direction of arrows, 15 of manger shape open slot 6 and interior support location tenons form slit 20 in making, thermal-insulated frame section bar 1 inserts in the middle aluminum alloy frame section bar 13 inboard notches in being beneficial to, outer thermal-insulated frame section bar 7 is moved outward in the direction of arrows, make outer manger shape open slot 12 and outer 18 of the location tenons that support form slit 21, being beneficial to outer thermal-insulated frame section bar 7 inserts in middle aluminum alloy frame section bar 13 outside notches, send wearing the thermal insulation combo box section bar that gets togather into roll squeezer, the roll squeezer pressure roller will compress the hook rotation and be pressed in the corresponding holddown groove, in the pressing process, compressing the hook rotary thrust fits tightly interior support location tenon 15 and is integral with interior manger shape open slot 6, to support location tenon 18 outward and fit tightly with outer manger shape open slot 12 and be integral, and compress hook and adjacent supports and locate tenon and corresponding connector is fixed is integral.Fig. 5 shows the thermal insulation combo box section bar that supports the location tenon and compresses back section bar end view drawing structure.

The utility model has the advantages that: 1, the outer manger shape open slot of heat insulation section and middle aluminum alloy frame section bar support between the tenon of location the problem of closing of wearing between slit solution heat insulation section and aluminum alloy frame section bar.2, compress hook and with adjacent supports location tenon corresponding connector is fixed into one, the solution heat insulation section heat insulation section occurs because of elastic deformation and the aluminium alloy extrusions pressing is not tight, loosening problem.3, the aluminum alloy frame section bar supports location tenon raising aluminum alloy frame section bar anti-bending strength.4, aluminium alloy extrusions end processing contraction mouth, solution aluminium, wood gap problem occurs because of variations in temperature.

Embodiment 2:

A kind ofly have in the middle of the positioning supports supporting plate aluminum alloy frame section bar end view drawing as shown in Figure 6, Fig. 7 has the thermal insulation combo box section bar that supports the location supporting plate to wear and close the procedure structure schematic diagram, Fig. 8 has the thermal insulation combo box section bar that supports the location supporting plate to compress back section bar end view drawing, wherein: the 22nd, middle aluminum alloy frame section bar, the 23rd, compress hook on interior, the 24th, interior upper support location supporting plate, the 25th, compress hook under interior, the 26th, interior lower support location supporting plate, the 27th, compress hook on outer, the 28th, outer upper support location supporting plate, the 29th, compress hook under outer, the 30th, outer lower support location supporting plate, the 31st, slit between interior manger shape open slot and interior support location supporting plate, the 32nd, outer manger shape open slot and outer the support are located slit between supporting plate.It is as follows to wear the process of closing: at first interior thermal-insulated frame section bar 1 is moved in the direction of arrows, form slit 31 between the supporting plate of manger shape open slot 6 and interior support location in making, thermal-insulated frame section bar 1 inserts in the middle aluminum alloy frame section bar 22 inboard notches in being beneficial to, outer thermal-insulated frame section bar 7 is moved outward in the direction of arrows, make outer manger shape open slot 12 and outer the support between the supporting plate of location form slit 32, being beneficial to outer thermal-insulated frame section bar 7 inserts in middle aluminum alloy frame section bar 22 outside notches, send wearing the thermal insulation combo box section bar that gets togather into roll squeezer, the roll squeezer pressure roller will compress the hook rotation and be pressed in the corresponding holddown groove, in the pressing process, compress the hook rotary thrust with interior support location mounting plate 24, bottom plate 26 fits tightly with interior manger shape open slot 6 and is integral, to support location mounting plate 28 outward, bottom plate 30 fits tightly with outer manger shape open slot 12 and is integral, and compresses hook and adjacent supports and locatees supporting plate and corresponding connector is fixed is integral.Fig. 8 shows support location supporting plate thermal insulation composite material and compresses back section bar end view drawing structure.

Claims (10)

1. a thermal insulation composite material is by heat insulation section, and shape is formed, and it is characterized in that; The inboard is a heat insulation section, and the centre is a shape, and the outside is a heat insulation section, and the medial septal hot profiles is connected with the intermetallic metal section bar is inboard, and the lateral septal hot profiles is connected with the intermetallic metal section bar outside.

2. thermal insulation composite material as claimed in claim 1 is characterized in that; The centre is that shape is aluminium alloy extrusions, magnesium alloy profiles, steel profile.

3. thermal insulation composite material as claimed in claim 1 is characterized in that; Shape is divided into butt hook on the both sides, and tenon or positioning supports plate are supported in the intermediate settings position.

4. thermal insulation composite material as claimed in claim 1 is characterized in that; Heat insulation section is wood section, plastic material, plastic-wood section, mould glass section bar, high polymer alloy section bar.

5. thermal insulation composite material as claimed in claim 1 is characterized in that; Divide into holddown groove and connector on heat insulation section and the shape sides adjacent, open slot is established in the centre.

6. thermal insulation composite material as claimed in claim 1 is characterized in that; Holddown groove and connector are established in medial septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar inside upper part is established and is compressed hook, the support location tenon that matches with heat insulation section middle opening groove shape is established in the centre, the bottom is established and is compressed hook, medial septal hot profiles top connector injects intermetallic metal section bar top and compresses hook and support in the tongue-and-groove of locating the tenon composition, medial septal hot profiles bottom connector injects intermetallic metal section bar bottom and compresses hook and support in the tongue-and-groove of locating the tenon composition, the intermetallic metal section bar supports the location tenon and inserts in the medial septal hot profiles intermediate open channel, intermetallic metal section bar inside upper part compresses hook and is pressed in the holddown groove of medial septal hot profiles top, intermetallic metal section bar lower inside compresses hook and is pressed in the holddown groove of medial septal hot profiles bottom, holddown groove and connector are established in lateral septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar outer upper is established and is compressed hook, the support location tenon that matches with heat insulation section middle opening groove shape is established in the centre, the bottom is established and is compressed hook, lateral septal hot profiles top connector injects intermetallic metal section bar top and compresses hook and support in the tongue-and-groove of locating the tenon composition, lateral septal hot profiles bottom connector injects intermetallic metal section bar bottom and compresses hook and support in the tongue-and-groove of locating the tenon composition, the intermetallic metal section bar supports the location tenon and inserts in the lateral septal hot profiles intermediate open channel, intermetallic metal section bar outer upper compresses hook and is pressed in the holddown groove of lateral septal hot profiles top, and intermetallic metal section bar outer lower portion compresses hook and is pressed in the holddown groove of lateral septal hot profiles bottom.

7. thermal insulation composite material as claimed in claim 1 is characterized in that; Holddown groove and connector are established in medial septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar inside upper part is established and is compressed hook, last positioning supports supporting plate and the following positioning supports supporting plate that matches with heat insulation section middle opening groove shape established in the centre, the bottom is established and is compressed hook, medial septal hot profiles top connector reeve intermetallic metal section bar top compresses in the tongue-and-groove of hook and last positioning supports supporting plate composition, intermetallic metal section bar inside upper part compresses hook and is pressed in the holddown groove of medial septal hot profiles top, medial septal hot profiles bottom connector reeve intermetallic metal section bar bottom compresses in the tongue-and-groove of hook and following positioning supports supporting plate composition, intermetallic metal section bar lower inside compresses hook and is pressed in the holddown groove of medial septal hot profiles bottom, holddown groove and connector are established in lateral septal hot profiles and shape sides adjacent top, open slot is established in the centre, holddown groove and connector are established in the bottom, intermetallic metal section bar outer upper is established and is compressed hook, last positioning supports supporting plate and the following positioning supports supporting plate that matches with heat insulation section middle opening groove shape established in the centre, the bottom is established and is compressed hook, lateral septal hot profiles top connector reeve intermetallic metal section bar top compresses in the tongue-and-groove of hook and last positioning supports supporting plate composition, intermetallic metal section bar outer upper compresses hook and is pressed in the holddown groove of lateral septal hot profiles top, lateral septal hot profiles bottom connector reeve intermetallic metal section bar bottom compresses in the tongue-and-groove of hook and following positioning supports supporting plate composition, and intermetallic metal section bar outer lower portion compresses hook and is pressed in the holddown groove of lateral septal hot profiles bottom.

8. thermal insulation composite material as claimed in claim 1 is characterized in that; Gluing between heat insulation section and aluminium alloy extrusions.

9. thermal insulation composite material as claimed in claim 1 is characterized in that; Sticking metal composite film in heat insulation section surface or decorating film.

10. thermal insulation composite material as claimed in claim 1 is characterized in that; The heat insulation section surface is coated with photocatalyst of titanium dioxide coating.

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