CN104653040A - Metal sectional material and heat insulation sectional material assembly structure - Google Patents

Abstract

The invention provides a metal sectional material and heat insulation sectional material assembly structure. A metal sectional material is positioned at one side or two sides of a heat insulation sectional material, the middle part of an external facade of the heat insulation sectional material is provided with a trapezoidal positioning groove with the smaller inner side and the larger outer side, the upper part of the trapezoidal positioning groove of the external facade is provided with a bulge, the upper part of the bulge is provided with a V-shaped pressing inclined surface, the lower part of the trapezoidal positioning groove of the upper external facade is provided with a bulge of which the lower part is provided with a V-shaped pressing inclined surface, the middle part of the metal sectional material is provided with an upper support bar and a lower support bar, the two support bars are provided with the smaller outer sides and the larger inner sides and are matched with the trapezoidal groove, with the smaller inner side and the larger outer side, formed in the middle part of the heat insulation sectional material, the upper and lower support bars with the smaller outer sides and the larger inner sides are inserted into the trapezoidal groove, with the smaller inner side and the larger outer side, of the heat insulation sectional material, the upper support bar, the lower support bar, the heat insulation sectional material and the metal sectional material vertical plate form air heat insulation cavities, a pressing inclined surface of an upper press plate of the metal sectional material is pressed on the upper V-shaped pressing inclined surface of the upper bulge of the heat insulation sectional material after plastic deformation, a pressing inclined surface of a lower press plate of the metal sectional material is pressed on a lower V-shaped pressing inclined surface of the lower bulge of the heat insulation sectional material after the plastic deformation, and the metal sectional material and the heat insulation sectional material are combined into a whole.

Description

Shape and heat insulation section package assembly

Technical field

The present invention relates to Door for building window profile.

Background technology

Patent CN201420344759 discloses a kind of high-strength heat-insulation section bar, described heat insulation section and the first aluminium extruded sections, the side that the second aluminium extruded sections is relative are respectively equipped with at least one fixing feet, fixing feet outer face is provided with the locating surface of indent or evagination, heat insulation section both sides are equipped with stiffener, be connected by least one terminal between stiffener with heat insulation section, heat insulation section inside is cavity structure.There is the characteristic of high strength, good heat resistance.

It is interior large outer little swallow tail shaped slot between upper and lower two fixing feet of this patent, outside shape middle part, little upper and lower two brace rods of imperial palace cannot side direction insert in the interior large outer little swallow tail groove between two fixing feet, can only longitudinally insert, for the building doors and windows section bar of standard 6 meters of length, cannot solve and wear conjunction gap problem between little upper and lower two brace rods of outer imperial palace and upper and lower two fixing feet, cause shape and heat insulation section to wear and close difficulty.

When shape with the upper lower platen on pressing inclined-plane be pressed in the upper and lower swallow-tail form inclined-plane of heat insulation section and side pressure roll-in on shape time, the inner small and outside big brace rod up and down of shape large outer little dovetail groove direction in heat insulation section is moved, pressing mobile space is produced between large outer little dovetail groove outward in the shape brace rod up and down that imperial palace is little and heat insulation section, cause pressing not tight, upper and lower two fixing feet produce distortion, produce internal stress, reduce the application life of product, upper and lower two fixing feet fracture of roots time serious.

Summary of the invention

The object of the invention is: the trapezoid groove structure that 1, heat insulation section is inner small and outside big matches with the outer little interior trapezoidal projection greatly of adjacent inside and outside shape, and can side direction insert, wear and close easily, the side direction solving heat insulation section and shape wears conjunction problem.2, when shape is pressed on heat insulation section upper and lower V-arrangement pressing inclined-plane with the upper lower platen on pressing inclined-plane, under the effect of lateral pressure, shape moves to heat insulation section direction, the outer little interior upper brace rod upper inclined surface greatly of shape be supported in the inner small and outside big trapezoid groove structure upper step of heat insulation section with inclined-plane close contact, the outer little interior large lower support muscle lower bevel of shape be supported in the inner small and outside big trapezoid groove structure lower step of heat insulation section with inclined-plane close contact, when preventing shape to be pressed on the upper and lower pressing inclined-plane of heat insulation section with the upper lower platen on pressing inclined-plane, heat insulation section projection produces distortion and displacement. 3, heat insulation section forms the little T-shaped groove of outer imperial palace by longitudinal fluting and transverse concave groove, it is protruding that shape forms outer little interior large T-slot by cannelure projection and transverse groove projection, the outer little interior large T-slot projection of shape is inserted in the little T-shaped groove of the outer imperial palace of heat insulation section, can the characteristic of lateral separation by the protruding T-shaped groove little with the outer imperial palace of heat insulation section of the outer little interior large T-slot of shape, what solve shape and heat insulation section wears conjunction problem.4, shape is protruding by the protruding and interior T-slot establishing the transverse groove projection of group angle cavity to form of cannelure, has the effect improving heat insulation section opposing torsional deformation.5, group angle cavity is established in shape transverse groove projection, the door and window accessory be arranged on outside heat insulation section transverse concave groove in U-lag can be made, as: lock, hinge, connecting rod, in connection corner brace on the shape being connected to transverse groove convex sets angle cavity sidewalls through heat insulation section by screw or in the cavity of shape transverse groove convex sets angle, solving door and window accessory is directly installed on outside heat insulation section transverse concave groove, bonding strength is low, fragile problem.6, shape cannelure is protruding is connected heat insulation section with arranging between shape transverse groove projection, connect heat insulation section heat transfer between shape cannelure projection and shape transverse groove projection is cut off, improve the heat-insulating property of groove heat insulation section and protruding metal section combination heat insulation section

A kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, shape is positioned at heat insulation section side or bilateral, inner small and outside big trapezoidal detent is established in the middle part of heat insulation section alien invasion, projection is established on the trapezoidal detent top of alien invasion, V-arrangement pressing inclined-plane is established on projection top, downward-sloping upper supporting surface is established in protruding bottom, projection is set in the trapezoidal detent bottom of alien invasion, V-arrangement pressing inclined-plane is established in lower convexity bottom, acclivitous lower support face is established on lower convexity top, establish in the middle part of shape with heat insulation section in the middle part of outer little interior two brace rods up and down greatly of matching of inner small and outside big trapezoidal groove, outer little interior two brace rods up and down greatly inject in the inner small and outside big trapezoidal groove of heat insulation section, outside upper brace rod top, little interior large ramp is supported on the outer little downward-sloping upper supporting surface of imperial palace of heat insulation section, outside lower support muscle bottom, little interior large lower inclined plane is supported on the outer little acclivitous lower support face of imperial palace of heat insulation section, upper brace rod and lower support muscle and heat insulation section and shape riser form air thermal preservation chamber, shape top board pressing inclined-plane after plastic strain to be pressed in heat insulation section projection on V-arrangement pressing inclined-plane, shape lower platen pressing inclined-plane after plastic strain to be pressed under heat insulation section lower convexity on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

The another kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, shape is positioned at heat insulation section side or bilateral, rectangular detent is established in the middle part of heat insulation section alien invasion, projection is established on rectangular position fixing groove top, V-arrangement pressing inclined-plane is established on projection top, supporting surface in level is established in projection bottom, projection is set in square detent bottom, V-arrangement pressing inclined-plane is established in lower convexity bottom, horizontal lower support face is established on lower convexity top, establish in the middle part of shape with heat insulation section in the middle part of two brace rods up and down of matching of rectangular recess, upper and lower two brace rods inject in heat insulation section rectangular recess, upper brace rod upper plane to be supported on heat insulation section on supporting surface, lower support muscle lower flat is supported on heat insulation section lower support face, upper brace rod and lower support muscle and heat insulation section and shape riser form rectangular air incubation cavity, shape top board pressing inclined-plane after plastic strain to be pressed in heat insulation section projection on V-arrangement pressing inclined-plane, shape lower platen pressing inclined-plane after plastic strain to be pressed under heat insulation section lower convexity on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

For improving the heat-insulating property of above-mentioned shape and heat insulation section, fill insulant material in heat insulation section cavity.

For improving the anti-deformation of above-mentioned shape and heat insulation section, in heat insulation section cavity, establish multiple cavity.

For improving the sealing performance of above-mentioned shape and heat insulation section, heat insulation section is established the sealing inclined-plane to lopsidedness.

The another kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, heat insulation section forms T-shaped groove by longitudinal fluting and transverse concave groove, longitudinal fluting top is projection, projection bottom is upper supporting surface, projection top is upper V-arrangement pressing inclined-plane, longitudinal fluting bottom is lower convexity, lower convexity top is lower support face, lower convexity bottom is lower V-arrangement pressing inclined-plane, transverse concave groove is established in longitudinal fluting side, establish outside transverse concave groove outside U-lag or transverse concave groove and establish outer little interior large T-slot, shape and heat insulation section longitudinal fluting adjacent are established with the cannelure of longitudinal fluting mating shapes protruding, shape cannelure projection is inserted in heat insulation section longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of heat insulation section projection bottom, the protruding lower support face of cannelure is supported on the lower support face on heat insulation section lower convexity top, shape and heat insulation section transverse concave groove adjacent are established with the transverse groove of transverse concave groove mating shapes protruding, shape transverse groove projection is inserted in heat insulation section transverse concave groove, supporting surface and heat insulation section transverse concave groove upper contact in shape transverse groove projection, the protruding lower support face of shape transverse groove and heat insulation section transverse concave groove lower contacts, group angle cavity is established in shape transverse groove projection, shape cannelure is protruding is connected heat insulation section with arranging between shape transverse groove projection, shape cannelure protruding be connected heat insulation section and shape transverse groove projection combines, shape top board after plastic strain to be pressed on heat insulation section on V-arrangement pressing inclined-plane, shape lower platen after plastic strain to be pressed under heat insulation section on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

The another kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, heat insulation section forms T-shaped groove by longitudinal fluting and transverse concave groove, longitudinal fluting top is projection, projection bottom is upper supporting surface, projection top is upper V-arrangement pressing inclined-plane, longitudinal fluting bottom is lower convexity, lower convexity top is lower support face, lower convexity bottom is lower V-arrangement pressing inclined-plane, transverse concave groove is established in longitudinal fluting side, establish outside transverse concave groove outside U-lag or transverse concave groove and establish outer little interior large T-slot, it is protruding that shape forms T-slot by cannelure projection and transverse groove projection, shape and heat insulation section longitudinal fluting adjacent are established with the cannelure of longitudinal fluting mating shapes protruding, shape cannelure projection is inserted in heat insulation section longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of heat insulation section projection bottom, the protruding lower support face of cannelure is supported on the lower support face on heat insulation section lower convexity top, shape and heat insulation section transverse concave groove adjacent are established with the transverse groove of transverse concave groove mating shapes protruding, shape transverse groove projection is inserted in heat insulation section transverse concave groove, supporting surface and heat insulation section transverse concave groove upper contact in shape transverse groove projection, the protruding lower support face of shape transverse groove and heat insulation section transverse concave groove lower contacts, group angle cavity is established in shape transverse groove projection, shape top board after plastic strain to be pressed on heat insulation section on V-arrangement pressing inclined-plane, shape lower platen after plastic strain to be pressed under heat insulation section on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

The another kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, shape between medial septal hot profiles and lateral septal hot profiles, inner small and outside big trapezoidal detent is established in the middle part of outer heat insulation section, projection is established on trapezoidal detent top, convex upper portion establishes V-arrangement pressing inclined-plane, downward-sloping upper supporting surface is established in protruding bottom, projection is established in trapezoidal detent bottom, V-arrangement pressing inclined-plane is established in protruding bottom, convex upper portion establishes acclivitous lower support face, T-shaped groove is formed by longitudinal fluting and transverse concave groove in the middle part of interior heat insulation section, longitudinal fluting top is projection, projection top is upper V-arrangement pressing inclined-plane, projection bottom is downward-sloping upper supporting surface, longitudinal fluting bottom is lower convexity, lower convexity bottom is lower V-arrangement pressing inclined-plane, lower convexity top is acclivitous lower support face, transverse concave groove is established in longitudinal fluting side, establish outside transverse concave groove outside U-lag or transverse concave groove and establish outer little interior large T-slot, the outer middle side part of intermetallic metal section bar establish with lateral septal hot profiles in the middle part of outer little interior two brace rods up and down greatly of matching of inner small and outside big trapezoidal groove, outer little interior two brace rods up and down greatly inject in the inner small and outside big trapezoidal groove of lateral septal hot profiles, outside upper brace rod top, little interior large ramp is supported on the outer little downward-sloping upper supporting surface of imperial palace of lateral septal hot profiles, outside lower support muscle bottom, little interior large lower inclined plane is supported on the outer little acclivitous lower support face of imperial palace of lateral septal hot profiles, outside upper brace rod and lower support muscle and lateral septal hot profiles and shape, riser forms air thermal preservation chamber, outside shape after plastic strain, top board pressing inclined-plane to be pressed in lateral septal hot profiles projection on V-arrangement pressing inclined-plane, outside shape after plastic strain, lower platen pressing inclined-plane to be pressed under lateral septal hot profiles lower convexity on V-arrangement pressing inclined-plane, be combined into one outside shape with lateral septal hot profiles, T-slot is formed by cannelure projection and transverse groove projection protruding inside intermetallic metal section bar, establish with the cannelure of longitudinal fluting mating shapes protruding inside shape with medial septal hot profiles longitudinal fluting adjacent, inside shape, cannelure projection is inserted in medial septal hot profiles longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of medial septal hot profiles projection bottom, the protruding lower support face of cannelure is supported on the lower support face on medial septal hot profiles lower convexity top, establish with the transverse groove of transverse concave groove mating shapes protruding inside shape with medial septal hot profiles transverse concave groove adjacent, inside shape, transverse groove projection is inserted in medial septal hot profiles transverse concave groove, supporting surface and medial septal hot profiles transverse concave groove upper contact in transverse groove projection inside shape, the protruding lower support face of transverse groove and medial septal hot profiles transverse concave groove lower contacts inside shape, group angle cavity is established in transverse groove projection inside shape, inside shape after plastic strain, top board to be pressed on medial septal hot profiles on V-arrangement pressing inclined-plane, inside shape after plastic strain, lower platen to be pressed under medial septal hot profiles on V-arrangement pressing inclined-plane, be combined into one inside shape with medial septal hot profiles.

The another kind of shape that the present invention proposes and heat insulation section package assembly, comprise: shape, heat insulation section, it is metallic insulation section bar between medial septal hot profiles and lateral septal hot profiles, inner small and outside big trapezoidal detent is established in the middle part of lateral septal hot profiles, projection is established on trapezoidal detent top, convex upper portion establishes V-arrangement pressing inclined-plane, downward-sloping upper supporting surface is established in protruding bottom, projection is set in trapezoidal detent bottom, V-arrangement pressing inclined-plane is established in lower convexity bottom, acclivitous lower support face is established on lower convexity top, T-shaped groove is formed by longitudinal fluting and transverse concave groove in the middle part of medial septal hot profiles, longitudinal fluting top is projection, projection top is upper V-arrangement pressing inclined-plane, projection bottom is downward-sloping upper supporting surface, longitudinal fluting bottom is lower convexity, lower convexity bottom is lower V-arrangement pressing inclined-plane, lower convexity top is acclivitous lower support face, transverse concave groove is established in longitudinal fluting side, transverse concave groove outside is established outside U-lag or transverse concave groove and is established outer little interior large T-slot, the outer middle side part of intermetallic metal section bar establish with lateral septal hot profiles in the middle part of outer little interior two brace rods up and down greatly of matching of inner small and outside big trapezoidal groove, outer little interior two brace rods up and down greatly inject in the inner small and outside big trapezoidal groove of lateral septal hot profiles, outside upper brace rod top, little interior large ramp is supported on the outer little downward-sloping upper supporting surface of imperial palace of lateral septal hot profiles, outside lower support muscle bottom, little interior large lower inclined plane is supported on the outer little acclivitous lower support face of imperial palace of lateral septal hot profiles, upper brace rod and lower support muscle and lateral septal hot profiles and shape riser form air thermal preservation chamber, outside shape after plastic strain, top board pressing inclined-plane to be pressed in lateral septal hot profiles projection on V-arrangement pressing inclined-plane, outside shape after plastic strain, lower platen pressing inclined-plane to be pressed under lateral septal hot profiles lower convexity on V-arrangement pressing inclined-plane, be combined into one outside shape with lateral septal hot profiles, inside intermetallic metal section bar by cannelure protruding and heat insulation section and transverse groove is protruding forms the heat insulation projection of T-slot, establish with the cannelure of longitudinal fluting mating shapes protruding inside shape with medial septal hot profiles longitudinal fluting adjacent, inside shape, cannelure projection is inserted in medial septal hot profiles longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of medial septal hot profiles projection bottom, the protruding lower support face of cannelure is supported on the lower support face on medial septal hot profiles lower convexity top, establish with the transverse groove of transverse concave groove mating shapes protruding inside shape with medial septal hot profiles transverse concave groove adjacent, between the protruding and transverse groove of cannelure is protruding, heat insulation section is set, inside shape, transverse groove projection is inserted in medial septal hot profiles transverse concave groove, supporting surface and medial septal hot profiles transverse concave groove upper contact in transverse groove projection inside shape, the protruding lower support face of transverse groove and medial septal hot profiles transverse concave groove lower contacts inside shape, group angle cavity is established in transverse groove projection inside shape, inside shape after plastic strain, top board to be pressed on medial septal hot profiles on V-arrangement pressing inclined-plane, inside shape after plastic strain, lower platen to be pressed under medial septal hot profiles on V-arrangement pressing inclined-plane, be combined into one inside shape with medial septal hot profiles.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, prior art is further described.

Fig. 1 is that end face structure decomposing schematic representation is assembled in existing shape and heat insulation section local.

Fig. 2 is that the existing shape of Fig. 1 and heat insulation section longitudinally wear conjunction view.

Fig. 3 is the existing shape of Fig. 1 and heat insulation section stitching state schematic diagram.

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 4 has the shape of feature of the present invention with upper and lower brace rod to assemble end face structure decomposing schematic representation with the heat insulation section with inner small and outside big trapezoidal detent.

To be Fig. 4 wear conjunction view with the shape of upper and lower brace rod and heat insulation section side direction to Fig. 5.

Fig. 6 is Fig. 4 with the shape of upper and lower brace rod and heat insulation section stitching state schematic diagram.

Fig. 7 has the inside and outside shape with upper and lower brace rod of feature of the present invention to assemble end face structure decomposing schematic representation with the heat insulation section local with inner small and outside big trapezoidal detent.

Fig. 8 is that the inside and outside shape with upper and lower brace rod of Fig. 7 and heat insulation section side direction wear conjunction view.

Fig. 9 is the inside and outside shape with upper and lower brace rod of Fig. 7 and heat insulation section stitching state schematic diagram.

Figure 10 has the shape of feature of the present invention with upper and lower brace rod to assemble end face structure decomposing schematic representation with the heat insulation section local with rectangular position fixing groove.

To be Figure 10 wear conjunction view with the shape of upper and lower brace rod and heat insulation section side direction to Figure 11.

Figure 12 is Figure 10 with the shape of upper and lower brace rod and heat insulation section stitching state schematic diagram.

Figure 13 has the inside and outside shape with upper and lower brace rod of feature of the present invention to assemble end face structure decomposing schematic representation with the heat insulation section local with rectangular position fixing groove.

Figure 14 is that the inside and outside shape with upper and lower brace rod of Figure 13 and heat insulation section side direction wear conjunction view.

Figure 15 is the inside and outside shape with upper and lower brace rod of Figure 13 and heat insulation section stitching state schematic diagram.

Figure 16 has feature of the present invention form the heat insulation section of T-shaped groove by longitudinal fluting and transverse concave groove and form T-shaped heat insulation protruding metal section bar sash separating end face structure chart by longitudinal projection and lateral projection.

Figure 17 is Figure 16 sash combination end face structure figure.

Figure 18 has feature of the present invention form the heat insulation section of T-shaped groove by longitudinal fluting and transverse concave groove and form T-shaped protruding metal section bar sash separating end face structure chart by longitudinal projection and lateral projection.

Figure 19 is Figure 18 sash combination end face structure figure.

Figure 20 has connection metal section bar sash separating end face structure chart inside and outside feature thermal insulation section bar of the present invention and middle part.

Figure 21 is Figure 20 sash combination end face structure figure.

Figure 22 has feature of the present invention to be separated end face structure chart by connection metal heat insulation section window frame inside and outside thermal insulation section bar and middle part.

Figure 23 is Figure 22 sash combination end face structure figure.

Specific embodiment

Embodiment 1:

End face structure decomposing schematic representation is assembled as shown in Figure 1 in existing shape and heat insulation section local, Fig. 2 is that the existing shape of Fig. 1 and heat insulation section longitudinally wear conjunction view, Fig. 3 is the existing shape of Fig. 1 and heat insulation section stitching state schematic diagram, wherein: 1 is aluminium extruded sections, 2 is top boards, 3 is top board stitching surfaces, 4 is upper brace rods that outer imperial palace is little, 5 is upper brace rod supporting oblique surfaces, 7 is lower platens, 7 is lower platen stitching surfaces, 8 is lower support muscle that outer imperial palace is little, 9 is lower support muscle supporting oblique surfaces, 10 is heat insulation sections, 11 is upper fixing feet, 12 is stitching surfaces in upper fixing feet, 13 is upper fixing feet lower support faces, 14 is V-shaped grooves, 15 is lower fixing feet, 16 is stitching surfaces under lower fixing feet, 17 is supporting surfaces in lower fixing feet, 18 is V-shaped grooves, 19 is the outer little interior large dovetail grooves of heat insulation section, 20 is that shape and upper fixedly wearing close gap, 21 is that shape and lower fixedly wearing close gap, 22 is pressure rollers on roll squeezer, 23 is roll squeezer lower compression rollers, 24 is upside pressure rollers, 25 is downside pressure rollers, 26 is upper fixing feet lower support face and upper brace rod supporting oblique surface pressing displacement gaps, 27 is lower fixing feet lower support face and lower support muscle supporting oblique surface pressing displacement gaps.

When shape and heat insulation section are assembled, as shown in Figure 1, the lower support muscle 8 outside opening size that the upper brace rod 4 that outer imperial palace is little is little with outer imperial palace is greater than the entrance opening dimension of the outer little interior large dovetail groove 19 of heat insulation section, the lower support muscle 8 that the upper brace rod 4 that the outer imperial palace of shape is little is little with outer imperial palace cannot enter in the outer little interior large dovetail groove 19 of heat insulation section by side direction, as shown in Figure 2, the lower support muscle 8 that the upper brace rod 4 that the outer imperial palace of shape is little is little with outer imperial palace is merely able to by longitudinally entering in the outer little interior large dovetail groove 19 of heat insulation section, for the architectural shape that standard 6 meters is long, fixing feet lower support face 13 and lower fixing feet must ensure enough wide arc gap between supporting surface 17 to shape 1 for brace rod supporting oblique surface 5 and lower support muscle supporting oblique surface 9 and heat insulation section and can ensure that shape 1 pierces in the outer little interior large dovetail groove 19 of heat insulation section 10 smoothly, as shown in Figure 3, when pressure roller on roll squeezer 22 is pressed in top board 2 and roll squeezer lower compression roller 23 is pressed on lower platen 6, shape top board stitching surface 3 and stitching surface 12 in fixing feet on heat insulation section and lower platen stitching surface 7 and stitching surface 16 under lower fixing feet produce lateral thrust and under the effect of upside pressure roller 24 and downside pressure roller 25, shape 1 is moved to heat insulation section 11 direction, as shown in arrow A direction, brace rod supporting oblique surface 5 and heat insulation section 10 form displacement gaps 26 between fixing feet lower support face 13 to shape 1, shape 1 lower support muscle supporting oblique surface 19 and heat insulation section 10 times fixing feet form displacement gaps 27 between supporting surface 17, cause shape 1 and heat insulation section 1 pressing not tight, fixing feet 11 and lower fixing feet 15 on heat insulation section 10 is caused to produce displacement deformation, produce internal stress, time serious, fixing feet fractures, reduce product application life.Above-mentioned reason makes existing heat insulation section heat insulating strip all adopt the structure be separated up and down, closes difficulty and fixing feet generation internal stress or the problem that fractures to solve to wear.

The present invention is directed to above-mentioned shape and heat insulation section assembles Problems existing, improve as follows.

Embodiment 2:

Shape with upper and lower brace rod assembles end face structure decomposing schematic representation as shown in Figure 4 with the heat insulation section with inner small and outside big trapezoidal detent, to be Fig. 4 wear conjunction view with the shape of upper and lower brace rod and heat insulation section side direction to Fig. 5, Fig. 6 is Fig. 4 with the shape of upper and lower brace rod and heat insulation section stitching state schematic diagram, wherein: 28 is aluminium extruded sectionss, 29 is top boards, 30 is top board stitching surfaces, 31 is outer little interior upper brace rods greatly, 32 is upper brace rod supporting oblique surfaces, 33 is lower platens, 34 is lower platen stitching surfaces, 35 is outer little interior large lower support muscle, 36 is lower support muscle supporting oblique surfaces, 37 is heat insulation sections, 38 is the outer little dovetail grooves of imperial palace of heat insulation section, 39 is that upper trapezoid is protruding, 40 is stitching surfaces in upper trapezoid projection, 41 is the protruding lower support faces of upper trapezoid, 42 is that lower trapezoid is protruding, 43 is stitching surfaces under lower trapezoid projection, 44 is supporting surfaces in lower trapezoid projection, 45 is the outer little upper dovetail grooves of imperial palace of heat insulation section, 46 is rectangular channels under heat insulation section, 47 is chambeies, heat insulation section group angle, 48 is the protruding side clearancies of shape and upper trapezoid, 49 is shape and gap, upper trapezoid raised support face, 50 is the protruding side clearancies of shape and lower trapezoid, 51 is shape and gap, lower trapezoid raised support face, 52 is air chambers between shape and heat insulation section, 53 is pressure rollers on roll squeezer, 54 is roll squeezer lower compression rollers.

When shape and heat insulation section are assembled, the outer little interior large upper brace rod 31 of shape enters in the outer imperial palace little swallow tail groove 38 of heat insulation section with outer little interior large lower support muscle 35 side direction, before roll-in, the protruding side clearance 48 of shape and upper trapezoid and shape and gap, upper trapezoid raised support face 49 and shape and lower trapezoid projection side clearance 50 and shape and gap, lower trapezoid raised support face 51 is formed between shape 28 and heat insulation section 37, as shown in Figure 5, on roll squeezer, pressure roller 53 is pressed on top board 29 and is pressed on lower platen 33 with roll squeezer lower compression roller 54, shape top board 29 and lower platen 33 produce plastic strain, top board stitching surface 30 is pressed on the upper stitching surface 40 of upper trapezoid projection 39, lower platen stitching surface 34 to be pressed under lower trapezoid projection on stitching surface 43, under top board stitching surface 30 and lower platen stitching surface 34 lateral force and upside pressure roller 53 and downside pressure roller 54 act on, shape 28 moves to heat insulation section 37 direction, as shown in arrow B direction, outer little interior upper supporting oblique surface 32 is greatly squeezed on the protruding lower support face 41 of the inner small and outside big upper trapezoid of heat insulation section, outside lower support muscle bottom, little interior large lower support inclined-plane 36 to be squeezed in the inner small and outside big lower trapezoid projection of heat insulation section on supporting surface 44, outer little interior large upper brace rod 31 and outer little interior large lower support muscle 35 and the outer imperial palace little swallow tail groove 38 of heat insulation section form air thermal preservation chamber.

The advantage of the present embodiment is: the trapezoid groove structure that 1, heat insulation section is inner small and outside big matches with the outer little interior brace rod up and down greatly of adjacent inside and outside shape, can side direction insert, handling ease, section bar required precision is low, solves existing heat insulation section and shape and longitudinally wears conjunction gap problem.2, on roll squeezer, shape top board stitching surface is pressed on the upper stitching surface of heat insulation section upper trapezoid projection by pressure roller, shape lower platen stitching surface to be pressed under heat insulation section lower trapezoid projection on stitching surface by roll squeezer lower compression roller, under top board stitching surface and lower platen stitching surface lateral force and upside pressure roller and downside compression rollers work in combination, shape moves to heat insulation section direction, the outer little interior upper supporting oblique surface greatly of shape is squeezed on the protruding lower support face of the inner small and outside big upper trapezoid of heat insulation section, outside shape lower support muscle bottom, little interior large lower support inclined-plane to be squeezed in the inner small and outside big lower trapezoid projection of heat insulation section on supporting surface, top board stitching surface and lower platen stitching surface lateral force is made to be directly passed to the upper and lower brace rod of shape by upper lower trapezoid projection and to be combined into one closely.Solve between existing shape and heat insulation section fixing feet lower support face and form pressing displacement gaps, to cause between shape and heat insulation section the tight and heat insulation section fixing feet problem on deformation of pressing.

Embodiment 3:

The inside and outside shape with upper and lower brace rod assembles end face structure decomposing schematic representation as shown in Figure 7 with the heat insulation section local with inner small and outside big trapezoidal detent, Fig. 8 is that the inside and outside shape with upper and lower brace rod of Fig. 7 and heat insulation section side direction wear conjunction view, Fig. 9 is the inside and outside shape with upper and lower brace rod of Fig. 7 and heat insulation section stitching state schematic diagram, wherein: 55 is heat insulation sections, 56 is horizontal bars on heat insulation section, 57 is outer little interior upper embedding grooves greatly, 58 is horizontal bars under heat insulation section, 59 is outer little interior lower embedding grooves greatly, 60 is medial shaft muscle, 61 is interior trapezoidal grooves that outer imperial palace is little, 62 is interior projections, 63 is stitching surfaces in interior upper trapezoid projection, 64 is the protruding lower support faces of interior upper trapezoid, 65 is interior lower convexity, 66 is stitching surfaces under interior lower trapezoid projection, 67 is the protruding lower support faces of interior lower trapezoid, 68 is the perpendicular muscle in outside, 69 is outer trapezoidal grooves that outer imperial palace is little, 70 is outer projections, 71 is stitching surfaces in outer upper trapezoid projection, 72 is the protruding lower support faces of outer upper trapezoid, 73 is outer lower convexity, 74 is stitching surfaces under outer lower trapezoid projection, 75 is the protruding lower support faces of outer lower trapezoid, 76 is inner side aluminium extruded sectionss, 77 is outer little interior interior upper brace rods greatly, 78 is interior upper brace rod supporting oblique surfaces, 79 is interior top boards, 80 is interior top board stitching surfaces, 81 is outer little interior interior lower support muscle greatly, 82 is interior lower support muscle lower support inclined-planes, 83 is interior lower platens, 84 is interior lower platen stitching surfaces, 85 is chambeies, aluminium extruded sections group angle, inner side, 86 is outside aluminium extruded sectionss, 87 is outer little interior outside upper brace rods greatly, 88 is supporting oblique surfaces on outside upper brace rod, 89 is outer top boards, 90 is outer top board stitching surfaces, 91 is outer little interior outside lower brace rods greatly, 92 is outside lower brace rod lower support inclined-planes, 93 is outer lower platens, 94 is outer lower platen stitching surfaces, 95 is chambeies, aluminium extruded sections group angle, outside, 96 is inner metal section bar and interior projection side clearance, 97 is brace rod and interior trapezoidal projection side clearancies on inner metal section bar, 98 is inner metal section bar and interior lower convexity side clearance, 99 is inner metal section bar lower support muscle and interior lower convexity side clearance, 100 is outside shape and outside upper protruding side clearance, 101 is brace rod and outside upper protruding side clearancies on the shape of outside, 102 is outside shape and outside lower protruding side clearance, 103 is inner metal section bar lower support muscle and interior lower convexity side clearance, 104 is air chambers between inner metal section bar and heat insulation section, 105 is air chambers between outside shape and heat insulation section, 106 is upper pressure rollers in roll squeezer, 107 is lower compression rollers in roll squeezer, 108 is the outside upper pressure rollers of roll squeezer, 109 is the outer lower compression rollers of roll squeezer.

When assembling inside inner metal section bar 76 and heat insulation section 55, the outer little interior large upper brace rod 77 of inner metal section bar and outer little interior large lower support muscle 81 side direction to enter inside heat insulation section in outer imperial palace little swallow tail groove 61, before roll-in, brace rod and interior trapezoidal projection side clearance 97 and inner metal section bar and interior lower convexity side clearance 98 and inner metal section bar lower support muscle and interior lower convexity side clearance 99 on inner metal section bar and interior projection side clearance 96 and inner metal section bar is formed between the interior trapezoidal groove 61 that the outer imperial palace of inner metal section bar 76 and heat insulation section is little, as shown in Figure 8, in roll squeezer, upper pressure roller 106 is pressed on top board 79 and is pressed on interior lower platen 83 with lower compression roller 107 in roll squeezer, in shape, top board 79 and interior lower platen 83 produce plastic strain, interior top board stitching surface 80 is pressed on the upper stitching surface 63 of interior upper trapezoid projection 79, lower platen stitching surface 84 to be pressed under lower trapezoid projection on stitching surface 66, under the effect of interior top board stitching surface 80 and interior lower platen stitching surface 84 lateral force, inner metal section bar 76 moves to heat insulation section 55 direction, as shown in arrow C direction, outer little interior interior upper supporting oblique surface 78 is greatly squeezed on the protruding lower support face 64 of the inner small and outside big interior upper trapezoid of heat insulation section, outside interior lower support muscle bottom, little interior large lower support inclined-plane 82 to be squeezed in the inner small and outside big lower trapezoid projection of heat insulation section on supporting surface 67, on inner metal section bar and interior projection side clearance 96 and inner metal section bar, brace rod and interior trapezoidal projection side clearance 97 and inner metal section bar and interior lower convexity side clearance 98 and inner metal section bar lower support muscle and interior lower convexity side clearance 99 are eliminated, outer little interior large interior upper brace rod 77 and outer little interior large lower support muscle 81 and the little trapezoidal inner groovy 61 of the outer imperial palace of heat insulation section form air thermal preservation chamber 104, inner side.

When assembling outside outside shape 86 and heat insulation section 55, the outer little interior large upper brace rod 87 of shape and outer little interior large outside lower brace rod 91 side direction to enter outside heat insulation section in outer imperial palace little swallow tail groove 69, before roll-in, brace rod and outer trapezoidal projection side clearance 101 and outside shape and outside lower protruding side clearance 102 and outside shape lower support muscle and outside lower protruding side clearance 103 on shape and outside upper protruding side clearance 100 and outside shape outside being formed between outside shape 86 and the outer imperial palace of heat insulation section little outer trapezoidal groove 69, as shown in Figure 8, the outside upper pressure roller of roll squeezer 108 is pressed on top board 89 and the outer lower compression roller 109 of roll squeezer is pressed on outer lower platen 93, the outer top board 89 of shape and outer lower platen 93 produce plastic strain, outer top board stitching surface 90 is pressed on the upper stitching surface 71 of outer upper trapezoid projection 79, lower platen stitching surface 94 to be pressed under lower trapezoid projection on stitching surface 74, under the effect of top board stitching surface 90 and outer lower platen stitching surface 94 lateral force outside, outside shape 86 moves to heat insulation section 55 direction, as shown in arrow D direction, outer little interior outside upper supporting oblique surface 88 is greatly squeezed on the protruding lower support face 72 of the inner small and outside big outer upper trapezoid of heat insulation section, outside outside lower brace rod bottom, little interior large lower support inclined-plane 92 to be squeezed in the inner small and outside big lower trapezoid projection of heat insulation section on supporting surface 75, on outside shape and outside upper protruding side clearance 100 and outside shape, brace rod and outer trapezoidal projection side clearance 101 and outside shape and outside lower protruding side clearance 102 and outside shape lower support muscle and outside lower protruding side clearance 103 are eliminated, outer little interior large outside upper brace rod 87 and outer little outer large lower support muscle 91 and the little trapezoidal outer groove 69 of the outer imperial palace of heat insulation section form outside air incubation cavity 105.

Embodiment 4:

Shape with upper and lower brace rod assembles end face structure decomposing schematic representation as shown in figure 11 with the heat insulation section with rectangular position fixing groove, to be Figure 11 wear conjunction view with the shape of upper and lower brace rod and heat insulation section side direction to Figure 12, Figure 13 is Figure 11 with the shape of upper and lower brace rod and heat insulation section stitching state schematic diagram, wherein: 110 is heat insulation sections, 111 is heat insulation section rectangular channels, 112 is projections, 113 is pressing inclined-planes in projection, 114 is the protruding lower support faces of upper trapezoid, 115 is that lower trapezoid is protruding, 116 is pressing inclined-planes under lower convexity, 117 is supporting surfaces on lower convexity, 118 is aluminium extruded sectionss, 119 is top boards, 120 is top board stitching surfaces, 121 is upper brace rods, 122 is upper brace rod supporting planes, 123 is lower platens, 124 is lower platen stitching surfaces, 125 is lower support muscle, 126 is lower support muscle supporting planes, 127 is the protruding side clearancies of shape and upper trapezoid, 128 is brace rod and protruding end clearances of upper trapezoid on shape, 129 is the protruding side clearancies of shape and lower trapezoid, 130 is the protruding end clearances of shape lower support muscle and lower trapezoid, 131 is air chambers between shape and heat insulation section, 132 is pressure rollers on roll squeezer, 133 is roll squeezer lower compression rollers.

When shape and heat insulation section are assembled, on shape, brace rod 121 and lower support muscle 125 side direction enter in heat insulation section rectangular recess 111, before roll-in, brace rod and projection end clearance 128 and shape and the protruding side clearance 129 of lower trapezoid and shape lower support muscle and lower convexity end clearance 130 on shape and projection side clearance 127 and shape is formed between shape 118 and heat insulation section rectangular recess 111, as shown in figure 12, on roll squeezer, pressure roller 132 is pressed on top board 119 and is pressed on lower platen 123 with roll squeezer lower compression roller 133, shape top board 119 and lower platen 123 produce plastic strain, top board stitching surface 120 is pressed on the upper stitching surface 113 of projection 112, lower platen stitching surface 124 to be pressed under lower convexity on stitching surface 116, under top board stitching surface 120 and lower platen stitching surface 124 lateral forces, shape 118 moves to heat insulation section 110 direction, as shown in arrow E direction, it is on projection lower support face 114 that upper supporting plane 122 is squeezed in heat insulation section, lower support muscle bottom lower support plane 126 to be squeezed on heat insulation section lower convexity on supporting plane 117, upper brace rod 121 and lower support muscle 125 and heat insulation section rectangular recess 111 form air thermal preservation chamber 131.

The advantage of the present embodiment is: 1, heat insulation section rectangular groove structure matches with the adjacent inside and outside upper and lower brace rod of shape, can side direction insert, handling ease, solves existing heat insulation section and wears conjunction gap problem with shape longitudinal direction.2, on roll squeezer, shape top board stitching surface is pressed on the upper stitching surface of heat insulation section projection by pressure roller, shape lower platen stitching surface to be pressed under heat insulation section lower convexity on stitching surface by roll squeezer lower compression roller, under top board stitching surface and lower platen stitching surface lateral forces, shape moves to heat insulation section direction, on shape, brace rod plane is squeezed on heat insulation section projection lower support face, lower support inclined-plane, shape lower support muscle bottom to be squeezed on heat insulation section lower convexity on supporting plane, top board stitching surface and lower platen stitching surface lateral force is made to be directly passed to the upper and lower brace rod of shape by upper lower convexity and to be combined into one closely.Solve between existing shape and heat insulation section fixing feet lower support face and form pressing displacement gaps, to cause between shape and heat insulation section the tight and heat insulation section fixing feet problem on deformation of pressing.

Embodiment 5:

The inside and outside shape with upper and lower brace rod assembles end face structure decomposing schematic representation as shown in figure 13 with the heat insulation section local with rectangular position fixing groove, Figure 14 is that the inside and outside shape with upper and lower brace rod of Figure 13 and heat insulation section side direction wear conjunction view, Figure 15 is the inside and outside shape with upper and lower brace rod of Figure 13 and heat insulation section stitching state schematic diagram, wherein: 134 is heat insulation sections, 135 is horizontal bars on heat insulation section, 136 is outer little interior large embedding grooves, 137 is horizontal bars under heat insulation section, 138 is interior perpendicular muscle, 139 is interior rectangular recess, 140 is interior projections, 141 is upper stitching surfaces in interior projection, 142 is interior projection lower support planes, 143 is interior lower convexity, 144 is stitching surfaces under interior lower trapezoid projection, 145 is outer rectangular recess, 146 is outer perpendicular muscle, 147 7 is outer rectangular recess, 148 is outer projections, 149 is stitching surfaces in outer upper trapezoid projection, 150 is the protruding lower support planes of outer upper trapezoid, 151 is outer lower convexity, 152 is that outer lower convexity presses down conjunction face, 153 is supporting planes on outer lower convexity, 154 is inner side aluminium extruded sectionss, 155 is interior shape rectangular channels, 156 is interior upper brace rods, 157 is interior upper supporting planes, 158 is interior top boards, 159 is interior top board stitching surfaces, 160 is interior lower support muscle, 161 is interior lower support muscle supporting planes, 162 is interior lower platens, 163 is interior lower platen stitching surfaces, 164 is chambeies, aluminium alloys group angle, inner side, 165 is outside aluminium extruded sectionss, 166 is outer rectangular channels, 167 is outside upper brace rods, 168 is outside upper supporting planes, 169 is outer top boards, 170 is outer top board stitching surfaces, 171 is outside lower brace rods, 172 is outer lower support lower planes, 173 is outer lower platens, 174 is that outer lower platen presses down conjunction face, 175 is chambeies, aluminium extruded sections group angle, outside, 176 is interior shape and projection side clearance, 177 is brace rod and projection end clearances on interior shape, 178 is interior shape and lower convexity side clearance, 179 is interior shape lower support muscle and lower convexity end clearance, 180 is outer shape and outside upper protruding side clearance, 181 is brace rod and outside upper protruding end clearances on outer shape, 182 is outer shape and lower convexity side clearance, 183 is outer shape lower support muscle and lower convexity end clearance, 184 is rectangular air chambeies between inner metal section bar and heat insulation section, 185 is rectangular air chambeies between outside shape and heat insulation section, 187 is upper pressure rollers in roll squeezer, 188 is lower compression rollers in roll squeezer, 189 is the outside upper pressure rollers of roll squeezer, 189 is the outer lower compression rollers of roll squeezer.

When assembling inside inner metal section bar 154 and heat insulation section 134, upper brace rod 156 and interior lower support muscle 160 side direction to enter in heat insulation section in rectangular recess 139 in shape, before roll-in, brace rod and projection end clearance 177 and interior shape and lower convexity side clearance 178 and interior shape lower support muscle and lower convexity end clearance 179 on shape and projection side clearance 176 and interior shape in being formed between rectangular recess 139 in inner metal section bar 154 and heat insulation section, as shown in figure 14, in roll squeezer, upper pressure roller 187 is pressed on top board 158 and is pressed on lower platen 162 with lower compression roller 188 in roll squeezer, in shape, top board 158 and interior lower platen 162 produce plastic strain, interior top board stitching surface 159 is pressed on the upper stitching surface 141 of interior projection 140, interior lower platen stitching surface 163 to be pressed under interior lower convexity on stitching surface 144, under the effect of interior top board stitching surface 159 and interior lower platen stitching surface 163 lateral force, inner metal section bar 154 moves to heat insulation section 134 direction, as shown in arrow F direction, in the upper tapered plane 157 that supports to be squeezed in heat insulation section on projection lower support face 142, interior lower support plane 161 to be squeezed on heat insulation section lower convexity on supporting surface 145, brace rod on interior shape and projection side clearance 176 and interior shape and projection end clearance 177 and interior shape and lower convexity side clearance 178 and interior shape lower support muscle and lower convexity end clearance 179 are eliminated, the interior brace rod 156 and interior horizontal bar 161 and interior rectangular recess 139 gone up forms inner rectangular air thermal preservation chamber 184.

When assembling outside outside shape 164 and heat insulation section 134, the outside upper brace rod of shape 167 and outside lower brace rod 171 side direction enter in the outer rectangular recess 147 of heat insulation section, before roll-in, brace rod and projection end clearance 181 and outer shape and lower convexity side clearance 182 and outer shape lower support muscle and lower convexity end clearance 183 on outer shape and projection side clearance 180 and outer shape is formed between outside shape 164 and the outer rectangular recess 147 of heat insulation section, as shown in figure 14, the outside upper pressure roller of roll squeezer 187 is pressed on top board 169 and the outer lower compression roller 188 of roll squeezer is pressed on outer lower platen 173, the outer top board 169 of shape and outer lower platen 173 produce plastic strain, outer top board stitching surface 170 is pressed on the upper stitching surface 149 of interior projection 148, outer lower platen stitching surface 174 is pressed in outer lower convexity and presses down on conjunction face 152, under the effect of top board stitching surface 170 and outer lower platen stitching surface 174 lateral force outside, outside shape 165 moves to heat insulation section 134 direction, as shown in arrow G direction, in the upper tapered plane 168 that supports to be squeezed in heat insulation section on projection lower support face 150, interior lower support plane 172 to be squeezed on heat insulation section lower convexity on supporting surface 153, brace rod on outside shape and projection side clearance 180 and outside shape and projection end clearance 181 and outside shape and lower convexity side clearance 182 and outer shape lower support muscle and lower convexity end clearance 183 are eliminated, outside upper brace rod 169 and outside lower brace rod 171 and outer rectangular recess 147 form outside rectangular air thermal preservation chamber 185.

Embodiment 6:

The heat insulation section being made up of T-shaped groove longitudinal fluting and transverse concave groove with by longitudinally protruding be connected heat insulation section and be separated end face structure chart as shown in Figure 10 with the shape sash that lateral projection forms the heat insulation projection of T-shaped, Figure 11 be Figure 10 heat insulation section of being made up of T-shaped groove longitudinal fluting and transverse concave groove with by longitudinally protruding and be connected the shape sash combination end face structure figure that heat insulation section and lateral projection form the heat insulation projection of T-shaped, wherein: 190 is heat insulation sections, 191 is longitudinal flutings, 192 is projections, 193 is upper supporting surfaces, 194 is inclined-planes, upper location, 195 is lower convexity, 196 is lower support faces, 197 is inclined-planes, lower location, 198 is horizontal trapezoid grooves, 199 is supporting oblique surfaces on horizontal trapezoid groove, 200 is horizontal trapezoid groove lower support inclined-planes, 201 is upper outside little interior large T-shaped embedding grooves, 202 is U-shaped hinge accessory embedding grooves, 203 is adhesive tape sealing inclined-planes, 204 is heat insulation section air thermal preservation chambeies, 205 is metal bump section bars, 206 is that cannelure is protruding, 207 is supporting surfaces in cannelure projection, 208 is top boards, 209 is connect heat insulation section top board, 210 is the protruding lower support faces of cannelure, 211 is lower platens, 212 is connect heat insulation section lower platen, 213 is connect heat insulation section, 214 is that horizontal groove is protruding, 215 is transverse concave groove ramps, 216 is transverse concave groove top boards, 217 is transverse concave groove lower inclined planes, 218 is transverse concave groove lower platens, 219 is chambeies, rectangle group angle, 220 is pressure rollers on roll squeezer, 221 is roll squeezer lower compression rollers.

During assembling, the protruding 206 connection heat insulation section top boards 209 of shape cannelure are pressed in connect inside heat insulation section 213 to be gone up in indent, the protruding 206 connection heat insulation section lower platens 212 of shape cannelure are pressed in connect inside heat insulation section 213 and descend in indent, the protruding 214 transverse concave groove top boards 216 of the horizontal groove of shape are pressed in connect outside heat insulation section 213 to be gone up in indent, the protruding 214 transverse concave groove lower platens 218 of shape transverse groove are pressed in connect outside heat insulation section 213 and descend in indent, by protruding for shape cannelure 206 be connected heat insulation section 213 and shape transverse groove projection 214 combines.

When shape 205 and heat insulation section 190 are assembled, shape cannelure protruding 206 inserts in heat insulation section longitudinal fluting 191, in cannelure projection, supporting surface 207 is supported on the upper supporting surface 193 of heat insulation section projection 192 bottom, the protruding 206 lower support faces 210 of shape cannelure are supported on the lower support face 196 on heat insulation section lower convexity 195 top, the horizontal groove protruding 214 of shape inserts in heat insulation section transverse concave groove 198, in shape transverse groove projection, supporting surface 215 contacts with supporting surface 199 on heat insulation section horizontal trapezoid groove, the protruding lower support face 217 of shape transverse groove contacts with heat insulation section horizontal trapezoid groove lower support face 200, on roll squeezer, pressure roller 220 is pressed on shape top board 208, being pressed in after top board 208 plastic strain on heat insulation section locates on inclined-plane 194, roll squeezer lower compression roller 221 is pressed on shape lower platen 211, locate under shape lower platen 211 after plastic strain is pressed in heat insulation section on inclined-plane 197, produce shape cannelure protruding 206 and shape transverse groove projection 214 lateral force to heat insulation section 190 direction movement, shape cannelure protruding 206 and transverse groove protruding 214 is made to combine closely integral with heat insulation section longitudinal fluting 191 and transverse concave groove 198.

The advantage of the present embodiment is: shape cannelure protruding 206 and be connected heat insulation section 213 and shape transverse direction groove projection 214 combines, effectively can prevent the heat transfer between shape cannelure protruding 206 and shape transverse groove projection 214, improve the heat-insulating property of heat insulation section.

Embodiment 7:

The heat insulation section being made up of T-shaped groove longitudinal fluting and transverse concave groove is separated end face structure chart as shown in figure 18 with the shape sash being made up of the heat insulation projection of T-shaped longitudinal projection and lateral projection, Figure 19 be Figure 18 heat insulation section of being made up of T-shaped groove longitudinal fluting and transverse concave groove with by longitudinally protruding and be connected the shape sash combination end face structure figure that heat insulation section and lateral projection form the heat insulation projection of T-shaped, wherein: 222 is heat insulation sections, 223 is longitudinal flutings, 224 is projections, 225 is upper supporting surfaces, 226 is inclined-planes, upper location, 227 is lower convexity, 228 is lower support faces, 229 is inclined-planes, lower location, 230 is horizontal trapezoid grooves, 231 is supporting oblique surfaces on horizontal trapezoid groove, 232 is horizontal trapezoid groove lower support inclined-planes, 233 is upper outside little interior large T-shaped embedding grooves, 234 is U-shaped hinge accessory embedding grooves, 235 is adhesive tape sealing inclined-planes, 236 is heat insulation section air thermal preservation chambeies, 237 is metal bump section bars, 238 is that cannelure is protruding, 239 is supporting surfaces in cannelure projection, 240 is top boards, 241 is the protruding lower support faces of cannelure, 242 is lower platens, 243 is that horizontal groove is protruding, 244 is supporting surfaces in transverse groove projection, 245 is the protruding lower support faces of transverse groove, 246 is chambeies, rectangle group angle, 247 is pressure rollers on roll squeezer, 248 is roll squeezer lower compression rollers.

During assembling, shape cannelure protruding 238 inserts in heat insulation section longitudinal fluting 223, in cannelure projection, supporting surface 239 is supported on the upper supporting surface 225 of heat insulation section projection 224 bottom, the protruding 238 lower support faces 241 of shape cannelure are supported on the lower support face 228 on heat insulation section lower convexity 227 top, the horizontal groove protruding 243 of shape inserts in heat insulation section transverse concave groove 230, in shape transverse groove projection, supporting surface 244 contacts with supporting surface 231 on heat insulation section horizontal trapezoid groove, the protruding lower support face 245 of shape transverse groove contacts with heat insulation section horizontal trapezoid groove lower support face 232, on roll squeezer, pressure roller 247 is pressed on shape top board 240, being pressed in after top board 240 plastic strain on heat insulation section locates on inclined-plane 226, roll squeezer lower compression roller 248 is pressed on shape lower platen 242, locate under shape lower platen 242 after plastic strain is pressed in heat insulation section on inclined-plane 229, produce the lateral force of shape cannelure projection 238 to heat insulation section 222 direction movement, shape cannelure protruding 238 and transverse groove protruding 243 are combined into one closely with heat insulation section longitudinal fluting 223 and transverse concave groove 230.

The advantage of the present embodiment is: 1, on roll squeezer, pressure roller is pressed on shape top board, being pressed in after top board plastic strain on heat insulation section locates on inclined-plane, shape cannelure projection is moved to heat insulation section direction, in cannelure projection, supporting surface is supported on the upper supporting surface of heat insulation section projection bottom, the protruding lower support face of cannelure is supported on the lower support face on heat insulation section lower convexity top, effectively can prevent the deformation and fracture that projection and lower convexity produce in roll-in processing.2, the T-slot bulge-structure of shape cannelure projection and shape horizontal groove projection composition, effectively can prevent the torsional deformation of shape, improve assembly precision and the sealing performance of door and window.

Embodiment 8:

By connection metal section bar sash separating end face structure chart inside and outside thermal insulation section bar and middle part as shown in figure 20, end face structure figure is combined as shown in figure 21 by connection metal section bar sash inside and outside thermal insulation section bar and middle part, wherein: 249 is medial septal hot profiles, 250 is medial septal hot profiles longitudinal flutings, 251 is medial septal hot profiles projections, 252 is supporting surfaces on medial septal hot profiles, 253 is that medial septal hot profiles locates inclined-plane, 254 is medial septal hot profiles lower convexity, 255 is medial septal hot profiles lower support faces, 256 is locate inclined-plane under medial septal hot profiles, 257 is medial septal hot profiles horizontal trapezoid grooves, 258 is supporting oblique surfaces on medial septal hot profiles horizontal trapezoid groove, 259 is medial septal hot profiles horizontal trapezoid groove lower support inclined-planes, 260 is the upper outside little interior large T-shaped embedding grooves of medial septal hot profiles, 261 is medial septal hot profiles U-shaped hinge accessory embedding grooves, 262 is medial septal hot profiles adhesive tape sealing inclined-planes, 263 is medial septal hot profiles air thermal preservation chambeies, 264 is middle inside and outside connection metal section bars, 265 is that inner side cannelure is protruding, 266 is supporting surfaces in the cannelure projection of inner side, 267 is inner side top boards, 268 is the protruding lower support faces of inner side cannelure, 269 is inner side lower platens, 270 is outer central slot, 271 is outside top boards, 272 is the upper brace rods in outside, 273 is outside lower platens, 274 is outside lower support muscle, 275 is that horizontal groove is protruding, 276 is transverse concave groove ramps, 277 is transverse concave groove lower inclined planes, 278 is transverse passageway, 279 is chambeies, rectangle group angle, 280 is lateral septal hot profiles, 281 is the outer little dead slots of imperial palace of lateral septal hot profiles, 282 is lateral septal hot profiles projections, 283 is supporting surfaces on lateral septal hot profiles, 284 is locating slots on lateral septal hot profiles, 285 is lateral septal hot profiles lower convexity, 286 is lateral septal hot profiles lower support faces, 287 is locating slots under lateral septal hot profiles, 288 is lateral septal hot profiles air thermal preservation chambeies, 289 is upper pressure rollers in roll squeezer, 290 is lower compression rollers in roll squeezer, 291 is the outside upper pressure rollers of roll squeezer, 292 is the outer lower compression rollers of roll squeezer.

During assembling, shape cannelure protruding 265 inserts in heat insulation section longitudinal fluting 250, in cannelure projection, supporting surface 266 is supported on the upper supporting surface 252 of heat insulation section projection 251 bottom, the protruding 265 lower support faces 268 of shape cannelure are supported on the lower support face 255 on heat insulation section lower convexity 254 top, the horizontal groove protruding 275 of shape inserts in heat insulation section transverse concave groove 257, in shape transverse groove projection, supporting surface 276 contacts with supporting oblique surface 258 on heat insulation section horizontal trapezoid groove, the protruding lower support face 277 of shape transverse groove contacts with heat insulation section horizontal trapezoid groove lower support inclined-plane 259, upper pressure roller 289 to be pressed in shape on top board 267 in roll squeezer, being pressed in after the plastic strain of interior top board 267 on heat insulation section locates on inclined-plane 253, in roll squeezer, lower compression roller 290 is pressed on shape lower platen 269, locate under shape lower platen 269 after plastic strain is pressed in heat insulation section on inclined-plane 256, cannelure protruding 265 and transverse groove protruding 275 in shape are combined into one closely with medial septal hot profiles longitudinal fluting 250 and transverse concave groove 257.

Outside intermetallic metal heat insulation section, upper brace rod 272 and outside lower support muscle 274 inject in the little dead slot 281 of the outer imperial palace of lateral septal hot profiles and form air thermal preservation chamber, on outside, brace rod 272 ramp to be supported on lateral septal hot profiles on supporting surface 283, outside lower support muscle 274 lower inclined plane is supported on lateral septal hot profiles lower support face 286, the outside upper pressure roller 291 of roll squeezer is pressed on the outer top board 271 of shape, be pressed in the outside upper locating slot 274 of heat insulation section after the plastic strain of outer top board 271, the outer lower compression roller 292 of roll squeezer is pressed on the outer lower platen 273 of shape, the outer lower platen 273 of shape after plastic strain to be pressed under heat insulation section on locating slot 287, be combined into one inside and outside lateral septal hot profiles 280 and centre closely outside connection metal section bar 364.

Embodiment 9:

By thermal insulation section bar and metallic insulation section bar window frame separating end face, middle part structure chart as shown in figure 22, by thermal insulation section bar and middle part metallic insulation section bar sash combination end face structure figure as shown in figure 23, wherein: 293 is medial septal hot profiles, 294 is medial septal hot profiles longitudinal flutings, 295 is medial septal hot profiles projections, 296 is supporting surfaces on medial septal hot profiles, 297 is that medial septal hot profiles locates inclined-plane, 298 is medial septal hot profiles lower convexity, 299 is medial septal hot profiles lower support faces, 300 is locate inclined-plane under medial septal hot profiles, 301 is medial septal hot profiles horizontal trapezoid grooves, 302 is supporting oblique surfaces on medial septal hot profiles horizontal trapezoid groove, 303 is medial septal hot profiles horizontal trapezoid groove lower support inclined-planes, 304 is the upper outside little interior large T-shaped embedding grooves of medial septal hot profiles, 305 is medial septal hot profiles U-shaped hinge accessory embedding grooves, 306 is medial septal hot profiles adhesive tape sealing inclined-planes, 307 is medial septal hot profiles air thermal preservation chambeies, 308 is middle inside and outside connection metal section bars, 309 is that inner side cannelure is protruding, 310 is supporting surfaces in the cannelure projection of inner side, 311 is inner side top boards, 312 is that inner side connects heat insulation section top board, 313 is the protruding lower support faces of inner side cannelure, 314 is inner side lower platens, 315 is that inner side connects heat insulation section lower platen, 316 is outside top boards, 317 is the upper brace rods in outside, 318 is central slot, 319 is outside lower platens, 320 is outside lower support muscle, 321 is metallic insulation profile combined corner chambeies, middle part, 322 is connect heat insulation section, 323 is that horizontal groove is protruding, 324 is transverse concave groove ramps, 325 is transverse concave groove top boards, 326 is transverse concave groove lower inclined planes, 327 is transverse concave groove lower platens, 328 is chambeies, rectangle group angle, 329 is lateral septal hot profiles, 330 is the outer little dead slots of imperial palace of lateral septal hot profiles, 331 is lateral septal hot profiles projections, 332 is supporting surfaces on lateral septal hot profiles, 333 is locating slots on lateral septal hot profiles, 334 is lateral septal hot profiles lower convexity, 335 is lateral septal hot profiles lower support faces, 336 is locating slots under lateral septal hot profiles, 337 is lateral septal hot profiles air thermal preservation chambeies, 338 is upper pressure rollers in roll squeezer, 339 is lower compression rollers in roll squeezer, 340 is the outside upper pressure rollers of roll squeezer, 341 is the outer lower compression rollers of roll squeezer,

During assembling, the protruding 309 connection heat insulation section top boards 312 of shape cannelure are pressed in connect inside heat insulation section 322 to be gone up in indent, the protruding 309/ connection heat insulation section lower platen 315 of shape cannelure is pressed in connect inside heat insulation section 322 and descends in indent, the protruding 323 transverse concave groove top boards 325 of the horizontal groove of shape are pressed in connect outside heat insulation section 322 to be gone up in indent, the protruding 323 transverse concave groove lower platens 327 of shape transverse groove are pressed in connect outside heat insulation section 322 and descend in indent, by protruding for shape cannelure 309 be connected heat insulation section 322 and shape transverse groove projection 323 combines.

Shape cannelure protruding 309 inserts in heat insulation section longitudinal fluting 294, in cannelure projection, supporting surface 310 is supported on the upper supporting surface 296 of heat insulation section projection 295 bottom, the protruding 309 lower support faces 313 of shape cannelure are supported on the lower support face 299 on heat insulation section lower convexity 298 top, the horizontal groove protruding 323 of shape inserts in heat insulation section transverse concave groove 301, in shape transverse groove projection, supporting surface 324 contacts with supporting oblique surface 302 on heat insulation section horizontal trapezoid groove, the protruding lower support face 326 of shape transverse groove contacts with heat insulation section horizontal trapezoid groove lower support inclined-plane 303, upper pressure roller 338 to be pressed in shape on top board 311 in roll squeezer, being pressed in after the plastic strain of interior top board 311 on heat insulation section locates on inclined-plane 297, in roll squeezer, lower compression roller 339 is pressed on shape lower platen 314, locate under shape lower platen 314 after plastic strain is pressed in heat insulation section on inclined-plane 300, produce the lateral force of shape cannelure protruding 309 and the heat insulation section 293 direction movement to the inside of the horizontal groove projection 323 of shape, cannelure protruding 309 and transverse groove protruding 323 in shape are combined into one closely with heat insulation section longitudinal fluting 294 and transverse concave groove 301.

Outside intermetallic metal heat insulation section, upper brace rod 317 and outside lower support muscle 320 inject in the little dead slot 330 of the outer imperial palace of lateral septal hot profiles and form air thermal preservation chamber, on outside, brace rod 317 ramp to be supported on lateral septal hot profiles on supporting surface 332, outside lower support muscle 320 lower inclined plane is supported on lateral septal hot profiles lower support face 335, the outside upper pressure roller 340 of roll squeezer is pressed on the outer top board 316 of shape, be pressed in the outside upper locating slot 333 of heat insulation section after the plastic strain of outer top board 316, the outer lower compression roller 341 of roll squeezer is pressed on the outer lower platen 319 of shape, the outer lower platen 319 of shape after plastic strain to be pressed under heat insulation section on locating slot 336, be combined into one inside and outside lateral septal hot profiles 329 and centre closely outside connection metal section bar 308.

Claims (10)

1. shape and heat insulation section package assembly, comprise: shape, heat insulation section, shape is positioned at heat insulation section side or bilateral, it is characterized in that: in the middle part of heat insulation section alien invasion, establish inner small and outside big trapezoidal detent, projection is established on the trapezoidal detent top of alien invasion, V-arrangement pressing inclined-plane is established on projection top, downward-sloping upper supporting surface is established in protruding bottom, projection is set in the trapezoidal detent bottom of alien invasion, V-arrangement pressing inclined-plane is established in lower convexity bottom, acclivitous lower support face is established on lower convexity top, establish in the middle part of shape with heat insulation section in the middle part of outer little interior two brace rods up and down greatly of matching of inner small and outside big trapezoidal groove, outer little interior two brace rods up and down greatly inject in the inner small and outside big trapezoidal groove of heat insulation section, outside upper brace rod top, little interior large ramp is supported on the outer little downward-sloping upper supporting surface of imperial palace of heat insulation section, outside lower support muscle bottom, little interior large lower inclined plane is supported on the outer little acclivitous lower support face of imperial palace of heat insulation section, upper brace rod and lower support muscle and heat insulation section and shape riser form air thermal preservation chamber, shape top board pressing inclined-plane after plastic strain to be pressed in heat insulation section projection on V-arrangement pressing inclined-plane, shape lower platen pressing inclined-plane after plastic strain to be pressed under heat insulation section lower convexity on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

2. shape and heat insulation section package assembly, comprise: shape, heat insulation section, shape is positioned at heat insulation section side or bilateral, it is characterized in that: in the middle part of heat insulation section alien invasion, establish rectangular position fixing groove, projection is established on rectangular position fixing groove top, V-arrangement pressing inclined-plane is established on projection top, supporting surface in level is established in projection bottom, projection is set in square detent bottom, V-arrangement pressing inclined-plane is established in lower convexity bottom, horizontal lower support face is established on lower convexity top, establish in the middle part of shape with heat insulation section in the middle part of two brace rods up and down of matching of rectangular recess, upper and lower two brace rods inject in heat insulation section rectangular recess, upper brace rod upper plane to be supported on heat insulation section on supporting surface, lower support muscle lower flat is supported on heat insulation section lower support face, upper brace rod and lower support muscle and heat insulation section and shape riser form rectangular air incubation cavity, shape top board pressing inclined-plane after plastic strain to be pressed in heat insulation section projection on V-arrangement pressing inclined-plane, shape lower platen pressing inclined-plane after plastic strain to be pressed under heat insulation section lower convexity on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

3. shape and heat insulation section package assembly, comprise: shape, heat insulation section, it is characterized in that: heat insulation section forms T-shaped groove by longitudinal fluting and transverse concave groove, longitudinal fluting top is projection, projection bottom is upper supporting surface, projection top is upper V-arrangement pressing inclined-plane, longitudinal fluting bottom is lower convexity, lower convexity top is lower support face, lower convexity bottom is lower V-arrangement pressing inclined-plane, transverse concave groove is established in longitudinal fluting side, shape and heat insulation section longitudinal fluting adjacent are established with the cannelure of longitudinal fluting mating shapes protruding, shape cannelure projection is inserted in heat insulation section longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of heat insulation section projection bottom, the protruding lower support face of cannelure is supported on the lower support face on heat insulation section lower convexity top, shape and heat insulation section transverse concave groove adjacent are established with the transverse groove of transverse concave groove mating shapes protruding, shape transverse groove projection is inserted in heat insulation section transverse concave groove, supporting surface and heat insulation section transverse concave groove upper contact in shape transverse groove projection, the protruding lower support face of shape transverse groove and heat insulation section transverse concave groove lower contacts, group angle cavity is established in shape transverse groove projection, shape cannelure is protruding is connected heat insulation section with arranging between shape transverse groove projection, shape cannelure protruding be connected heat insulation section and shape transverse groove projection combines, shape top board after plastic strain to be pressed on heat insulation section on V-arrangement pressing inclined-plane, shape lower platen after plastic strain to be pressed under heat insulation section on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

4. shape and heat insulation section package assembly, comprise: shape, heat insulation section, it is characterized in that: heat insulation section forms T-shaped groove by longitudinal fluting and transverse concave groove, longitudinal fluting top is projection, projection bottom is upper supporting surface, projection top is upper V-arrangement pressing inclined-plane, longitudinal fluting bottom is lower convexity, lower convexity top is lower support face, lower convexity bottom is lower V-arrangement pressing inclined-plane, transverse concave groove is established in longitudinal fluting side, shape and heat insulation section longitudinal fluting adjacent are established with the cannelure of longitudinal fluting mating shapes protruding, shape cannelure projection is inserted in heat insulation section longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of heat insulation section projection bottom, the protruding lower support face of cannelure is supported on the lower support face on heat insulation section lower convexity top, shape and heat insulation section transverse concave groove adjacent are established with the transverse groove of transverse concave groove mating shapes protruding, shape transverse groove projection is inserted in heat insulation section transverse concave groove, supporting surface and heat insulation section transverse concave groove upper contact in shape transverse groove projection, the protruding lower support face of shape transverse groove and heat insulation section transverse concave groove lower contacts, group angle cavity is established in shape transverse groove projection, shape top board after plastic strain to be pressed on heat insulation section on V-arrangement pressing inclined-plane, shape lower platen after plastic strain to be pressed under heat insulation section on V-arrangement pressing inclined-plane, shape and heat insulation section are combined into one.

5. shape and heat insulation section package assembly, comprise: shape, heat insulation section, shape between medial septal hot profiles and lateral septal hot profiles, it is characterized in that: in the middle part of lateral septal hot profiles, establish inner small and outside big trapezoidal detent, projection is established on trapezoidal detent top, convex upper portion establishes V-arrangement pressing inclined-plane, downward-sloping upper supporting surface is established in protruding bottom, projection is established in trapezoidal detent bottom, V-arrangement pressing inclined-plane is established in protruding bottom, convex upper portion establishes acclivitous lower support face, T-shaped groove is formed by longitudinal fluting and transverse concave groove in the middle part of medial septal hot profiles, longitudinal fluting top is projection, projection top is upper V-arrangement pressing inclined-plane, projection bottom is downward-sloping upper supporting surface, longitudinal fluting bottom is lower convexity, lower convexity bottom is lower V-arrangement pressing inclined-plane, lower convexity top is acclivitous lower support face, transverse concave groove is established in longitudinal fluting side, establish outside transverse concave groove outside U-lag or transverse concave groove and establish outer little interior large T-slot, the outer middle side part of intermetallic metal section bar establish with lateral septal hot profiles in the middle part of outer little interior two brace rods up and down greatly of matching of inner small and outside big trapezoidal groove, outer little interior two brace rods up and down greatly inject in the inner small and outside big trapezoidal groove of lateral septal hot profiles, outside upper brace rod top, little interior large ramp is supported on the outer little downward-sloping upper supporting surface of imperial palace of lateral septal hot profiles, outside lower support muscle bottom, little interior large lower inclined plane is supported on the outer little acclivitous lower support face of imperial palace of lateral septal hot profiles, outside upper brace rod and lower support muscle and lateral septal hot profiles and shape, riser forms air thermal preservation chamber, outside shape after plastic strain, top board pressing inclined-plane to be pressed in lateral septal hot profiles projection on V-arrangement pressing inclined-plane, outside shape after plastic strain, lower platen pressing inclined-plane to be pressed under lateral septal hot profiles lower convexity on V-arrangement pressing inclined-plane, be combined into one outside shape with lateral septal hot profiles, T-slot is formed by cannelure projection and transverse groove projection protruding inside intermetallic metal section bar, establish with the cannelure of longitudinal fluting mating shapes protruding inside shape with medial septal hot profiles longitudinal fluting adjacent, inside shape, cannelure projection is inserted in medial septal hot profiles longitudinal fluting, in cannelure projection, supporting surface is supported on the upper supporting surface of medial septal hot profiles projection bottom, the protruding lower support face of cannelure is supported on the lower support face on medial septal hot profiles lower convexity top, establish with the transverse groove of transverse concave groove mating shapes protruding inside shape with medial septal hot profiles transverse concave groove adjacent, inside shape, transverse groove projection is inserted in medial septal hot profiles transverse concave groove, supporting surface and medial septal hot profiles transverse concave groove upper contact in transverse groove projection inside shape, the protruding lower support face of transverse groove and medial septal hot profiles transverse concave groove lower contacts inside shape, group angle cavity is established in transverse groove projection inside shape, inside shape after plastic strain, top board to be pressed on medial septal hot profiles on V-arrangement pressing inclined-plane, inside shape after plastic strain, lower platen to be pressed under medial septal hot profiles on V-arrangement pressing inclined-plane, be combined into one inside shape with medial septal hot profiles.

6. shape as claimed in claim 1 or 2 and heat insulation section package assembly, is characterized in that: fill insulant material in heat insulation section cavity.

7. shape as claimed in claim 1 or 2 and heat insulation section package assembly, is characterized in that: establish multiple cavity in heat insulation section cavity.

8. shape as claimed in claim 1 or 2 and heat insulation section package assembly, is characterized in that: heat insulation section is established the sealing inclined-plane to lopsidedness.

9. shape as claimed in claim 5 and heat insulation section package assembly, is characterized in that: cannelure projection and transverse groove protruding between heat insulation section is set.

10. the shape as described in claim 1 or 2 or 3 or 4 or 5 or 6 and heat insulation section package assembly, is characterized in that: establish U-lag or outer little interior large T-slot outside transverse concave groove.