CN218376039U - Sunken aluminum alloy conversion frame section bar subassembly - Google Patents

Abstract

The utility model discloses a sinking type aluminum alloy conversion frame section bar component, which comprises a conversion frame section bar and an outer frame section bar; the outer frame section is provided with a plurality of convex ribs formed on the assembly side surface corresponding to the conversion frame section, and the convex ribs are abutted against the lower surface of the conversion frame section to separate a water passing space during assembly; a first outer flange matched with the window sash sectional material is formed on the outer side of the corresponding chamber of the outer frame sectional material, and a drain hole is formed on the outer side of the bottom of the corresponding water passing space of the first outer flange; the conversion frame section is formed with a friction hinge assembly position on the surface of the outdoor side, the friction hinge assembly position is formed on the lower part of the inner side of the first outer rib, and the friction hinge assembly position is provided with an open horizontal outer edge on one side corresponding to the first outer rib. The utility model discloses a formula of sinking aluminum alloy conversion frame section bar subassembly compact structure can avoid additionally processing water drainage tank on conversion frame section bar when using and reduce adhesive tape incision operation.

Description

Sunken type aluminum alloy conversion frame section assembly

Technical Field

The utility model relates to an aluminum alloy ex-trusions field, concretely relates to formula of sinking aluminum alloy conversion frame section bar subassembly that is used for outer flat-open window of aluminum alloy.

Background

In an aluminum alloy casement window system, a conversion frame section bar is usually used at an opening leaf part to realize the functions of fixing glass inside and opening the casement.

In the prior art, a common conversion frame section pattern on an aluminum alloy casement window is shown in fig. 1, and includes different components, that is, an outer frame section 1 and a conversion frame section 2 are used for matching with a window sash section 5 to perform casement use, wherein the outer frame section 1 and the conversion frame section 2 are generally simpler in structure, the conversion frame section 2 is assembled with the outer frame section 1 on the outer side according to the pattern shown in fig. 1 after being assembled into a frame by corner assembling, the lap joint of the window sash section 5 and the conversion frame section 2 is sealed and sealed by a first sealing rubber strip 4, in a heavy wind rainfall weather, due to the effect of outdoor side wind pressure, 100% of seepage-proof sealing cannot be realized by the first sealing rubber strip 4, a small amount of rainwater can infiltrate into a cavity formed by assembling the conversion frame section 2 and the window sash section 5 along a gap between the first sealing rubber strip 4 and the section (i.e., the position corresponding to the K point causes ponding, leakage and section corrosion, in order to prevent ponding and flow to the indoor side, a ponding groove is generally required to be machined on the upper surface of the conversion frame section 2 corresponding to a convex rib corresponding to the friction hinge assembling coordination 3, and the groove is cut out the groove at the position corresponding to the position of the first sealing rubber strip 4, and the groove is cut out the groove, and the processing cost of the conversion frame section is reduced by the additional processing cost of the additional processing groove.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a formula of sinking aluminum alloy conversion frame section bar subassembly can be used to solve the defect in the above-mentioned technical background.

The utility model provides a technical problem adopt following technical scheme to realize:

a sinking type aluminum alloy conversion frame profile component comprises a conversion frame profile and an outer frame profile matched with the conversion frame profile, wherein the conversion frame profile and the outer frame profile are assembled and combined to be matched with a sash profile of an aluminum alloy casement window for use; the outer frame profile is provided with a plurality of convex ribs on the assembly side face corresponding to the conversion frame profile, and the convex ribs abut against the lower surface of the conversion frame profile during assembly to separate an interlayer space as a water passing space; a first outer flange matched with the window sash section is formed on the outer side of the outer frame section corresponding to the chamber, and a drain hole is formed on the outer side of the bottom of the first outer flange corresponding to the water passing space; the conversion frame section is formed with a friction hinge assembly on the surface of the outdoor side, the friction hinge assembly is formed on the lower portion of the inner side of the first outer rib, and the friction hinge assembly has an open horizontal outer edge on the side corresponding to the first outer rib.

As a further limitation, the conversion frame profile and the outer frame profile both comprise a left profile unit and a right profile unit, and the left profile unit and the right profile unit are connected through an I-shaped heat insulation strip and a C-shaped heat insulation strip;

and at least one of the plurality of convex ribs formed on the outer frame sectional material is positioned between the C-shaped heat insulation strip and the first outer flange.

As a further limitation, the sash profile is provided with a first sealing rubber strip as a main seal in a closed position corresponding to the first outer rib;

the upper part of the indoor side of the conversion frame section is formed with a second outer flange with a second sealing rubber strip, the indoor side of the window sash section is pressed on the surface of the second sealing rubber strip when a window sash is closed, and the second sealing rubber strip is used as an auxiliary sealing element.

As a further limitation, the conversion frame section is formed with a seam flange at the lower part of the indoor side.

As a further limitation, a drain hole cover for covering and beautifying the exposed drain hole is formed on the outer side of the drain hole.

Has the advantages that: the utility model relates to a sunken aluminum alloy conversion frame section bar assembly, which has simple structure and reasonable design, and can lead rainwater infiltrated from the lap joint of a window sash and an outer frame to flow along a notch channel on the section bar and be discharged through a drain hole at the flange of the outer frame when being used in a heat insulation aluminum alloy casement window; the procedure of processing the drainage groove on the conversion frame section can be reduced, the integrity of the lower edge rubber strip of the window sash is kept, and the air tightness is improved.

Drawings

Fig. 1 is a schematic view of the assembly of a conversion frame profile in the prior art.

Fig. 2 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the preferred embodiment of the present invention.

Wherein: 1. an outer frame section bar; 2. converting the frame section; 3. assembling a friction hinge; 4. a first sealing rubber strip; 5. a sash profile; 6. the improved conversion frame section bar; 7. the improved outer frame section bar; 8. a second joint strip assembly groove; 9. a second outer flange; 10. edge splicing and blocking; 11. a window opening assembling part; 12. c-shaped heat insulation strips; 13. i type heat insulating strips; 14. the improved friction hinge assembly position; 15. a first outer flange; 16. a rib; 17. a drain hole cover; 18. a drain hole; 19. and a second joint strip.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Referring to fig. 2 and 3, in the present embodiment, the sunken aluminum alloy conversion frame profile assembly is obtained by structurally modifying the outer frame profile 1 and the conversion frame profile 2 in fig. 1 to obtain the modified conversion frame profile 6 and the modified outer frame profile 7 as shown in fig. 2, the modified conversion frame profile 6 and the modified outer frame profile 7 form the sunken aluminum alloy conversion frame profile assembly, and the sunken aluminum alloy conversion frame profile assembly is similar to the use of the prior art conversion frame profile assembly in fig. 1 and is also used with the window sash profile 5.

The left sides of the sinking aluminum alloy conversion frame section assemblies in fig. 1 to 3 are both indoor sides, and the right sides thereof are both corresponding to outdoor sides.

In this embodiment, the modified conversion frame profile 6 and the modified outer frame profile 7 each include a left profile part and a right profile part, and the modified conversion frame profile 6 and the modified outer frame profile 7 are provided with an upper pair of insertion grooves and a lower pair of insertion grooves on the opposite surfaces of the left profile part and the right profile part in the respective structures, and the connection molding of the corresponding profile parts corresponding to the modified conversion frame profile 6 and the modified outer frame profile 7 is realized by respectively inserting the C-type heat insulating strip 12 and the I-type heat insulating strip 13 in the insertion grooves.

The improved outer frame sectional material 7 is provided with a window opening assembling part 10 at the lower surface position, and the improved outer frame sectional material 7 is embedded in the window opening position of the wall body at the window opening assembling part 10 position and fixed assembly is completed; the improved outer frame section bar 7 is formed with three convex ribs 16 and a first outer flange 15 at the upper surface position, the three convex ribs 16 are used for supporting the improved conversion frame section bar 6 during assembly, and an interlayer space is separated at the supporting position to be used as a water passing space; the first outer rib 15 is arranged on the right outer edge of the modified outer frame profile 7 and is higher than the plane of the rib 16.

The lower surface of the improved conversion frame section bar 6 abuts against the upper surface of the improved outer frame section bar 7 to complete assembly, and the assembly mode can be any one of the section bar assembly modes (such as structural adhesive connection, clamping connection, threaded assembly connection and the like) in the prior art.

The improved conversion frame section bar 6 has a width smaller than that of the improved outer frame section bar 7, a splicing flange 10 is arranged on the lower portion of the indoor side of the improved conversion frame section bar 6, the improved conversion frame section bar 6 and the improved outer frame section bar 7 are assembled and fixed after being aligned on the indoor side during assembly, the improved conversion frame section bar 6 after assembly shields the splicing seam between the improved conversion frame section bar 6 and the improved outer frame section bar 7 through the splicing flange 10, uneven splicing seam gaps caused by blanking and processing errors are avoided, the aesthetic degree is improved, meanwhile, the positioning effect can be achieved, and the improved conversion frame section bar 6 is limited to move horizontally towards the outdoor side.

The upper surface of the improved conversion frame section bar 6 is provided with a second outer flange 9 of a second sealing rubber strip assembling groove 8 on the indoor side, the outdoor side is correspondingly provided with an improved friction hinge assembling position 14, the improved friction hinge assembling position 14 is positioned at the lower part of the left side of a first outer flange 15 after the improved conversion frame section bar 6 and the improved outer frame section bar 7 are assembled, and the friction hinge assembling position 14 is used for assembling a friction hinge of an outer casement window; and because no sealing element is arranged between the outer side of the friction hinge assembling position 14 and the first outer flange 15, a water passing channel can be formed, so that accumulated water entering between the corresponding window sash profile 5 and the improved conversion frame profile 6 enters a water passing space through the water passing channel, meanwhile, a water discharging hole 18 is formed in the base part of the first outer flange 15, the accumulated water entering the water passing space can be discharged to the outdoor side through the water discharging hole 18, namely the accumulated water entering the sunken aluminum alloy conversion frame profile component can flow as shown by an arrow in fig. 3 and finally is discharged to the outdoor. Under the technical condition, a drainage groove does not need to be additionally machined at the position of the improved friction hinge assembling position 14, and meanwhile, a drainage channel does not need to be cut out of the corresponding first sealing rubber strip 15, so that the air tightness of the window sash can be effectively improved.

The sash profile 5 of the aluminum alloy casement window matched with the sunken aluminum alloy conversion frame profile component of the embodiment has a lower surface matched with the improved conversion frame profile 6, so that the corresponding sash profile 5 can be installed on the upper part of the improved conversion frame profile 6 in the mode shown in fig. 3 for assembly, and the friction hinge assembled on the improved friction hinge assembling position 14 is matched to realize outward casement operation of the sash.

In order to ensure the sealing performance between the window sash profile 5 and the improved conversion frame profile 6, the outdoor side of the first outer rib 15 and the upper edge of the second outer rib 9 at the position of the second sealant strip assembly groove 8 are respectively sealed by the combination of the corresponding first sealant strip 4 and the corresponding second sealant strip 19.

In addition, in the embodiment, in order to cover the water discharge holes 18 at the base position of the first outer rib 15 for obtaining better decoration effect, a detachable water discharge hole cover 17 is arranged at the outer side of the first outer rib 15 corresponding to the water discharge holes 18 for decoration, and the water discharge hole cover 17 is snapped into the corresponding water discharge holes 18 for completing assembly.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Moreover, it should also be understood that various alterations, modifications and/or variations can be made to the present invention by those skilled in the art after reading the technical content of the present invention, and all such equivalents fall within the scope of the protection defined by the claims appended to this application.

Claims (7)

1. A sinking type aluminum alloy conversion frame profile component is characterized by comprising a conversion frame profile and an outer frame profile matched with the conversion frame profile, wherein the conversion frame profile and the outer frame profile are assembled and combined to be matched with a sash profile of an aluminum alloy casement window for use;

the outer frame profile is provided with a plurality of convex ribs on the assembly side face corresponding to the conversion frame profile, and the convex ribs abut against the lower surface of the conversion frame profile during assembly to separate an interlayer space as a water passing space; a first outer flange matched with the window sash section is formed on the outer side of the outer frame section corresponding to the chamber, and a drain hole is formed on the outer side of the bottom of the first outer flange corresponding to the water passing space;

the conversion frame section is formed with a friction hinge assembly on the surface of the outdoor side, the friction hinge assembly is formed on the lower portion of the inner side of the first outer rib, and the friction hinge assembly has an open horizontal outer edge on the side corresponding to the first outer rib.

2. The sink aluminum alloy conversion frame profile assembly of claim 1, wherein the conversion frame profile and the outer frame profile each comprise a left profile unit and a right profile unit, and the left profile unit and the right profile unit are connected through an I-shaped heat insulation strip and a C-shaped heat insulation strip.

3. The sunk aluminum alloy conversion frame profile assembly of claim 2, wherein at least one of the plurality of ribs formed on the outer frame profile is positioned between the C-shaped insulating strip and the first outer rim.

4. The sink aluminum alloy conversion frame profile assembly of claim 1, wherein the sash profile is provided with a first bead of sealant as a primary seal in a closed position corresponding to the first outer rib.

5. The sinking aluminum alloy conversion frame profile assembly of claim 4, wherein the conversion frame profile is formed with a second outer rib with a second sealing rubber strip at the upper part of the indoor side, the indoor side of the sash profile is pressed against the surface of the second sealing rubber strip when the sash is closed, and the second sealing rubber strip is used as an auxiliary sealing element.

6. The sink aluminum alloy conversion frame profile assembly of claim 1, wherein the conversion frame profile is formed with a patchwork rib at the lower indoor side.

7. The sink type aluminum alloy conversion frame profile assembly as claimed in claim 1, wherein a drain hole cover for covering and beautifying the exposed drain hole is formed on the outer side of the drain hole.

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