CN216517704U - Energy-saving aluminum alloy window structure - Google Patents

Abstract

The application discloses energy-saving aluminum alloy window structure, including the pile body, the crossing department of two arbitrary adjacent week sides all convexly is equipped with first rib in the pile body, and first rib extends the both ends that set up and first rib respectively to the both ends of pile body along the length direction of pile body, is provided with the second rib between two arbitrary adjacent first ribs, and the second rib is protruding to be located the pile body and all is connected with the first rib of both sides. The application provides an energy-saving aluminum alloy window structure not only can improve the bending strength and the tensile strength of cavity square pile, can also improve the structural strength of pile body edge department, and then improves the bearing capacity of cavity square pile, can also increase the frictional force between cavity square pile and the earth simultaneously, improves the stability of cavity square pile when the stake is inserted.

Description

Energy-saving aluminum alloy window structure

Technical Field

The utility model relates to the technical field of doors and windows, in particular to an energy-saving aluminum alloy window structure.

Background

The push-out aluminum alloy window structure comprises a fixed window frame and a movable window frame, wherein the fixed window frame is arranged at a window hole of a building, and the movable window frame is movably arranged on the fixed window frame. In order to improve the sealing performance of the aluminum alloy window structure, an annular sealing ring is arranged on one side of the fixed window frame, which is used for being attached to the movable window frame. The sealing ring is generally formed by splicing four sealing strips.

However, the sealing ring has a splicing gap at the splicing opening, and the splicing end of the sealing strip is tilted after long-term use, so that the sealing performance of the aluminum alloy window structure is reduced.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned deficiencies or inadequacies in the prior art, it would be desirable to provide an energy efficient aluminum alloy window structure.

The application provides an energy-saving aluminum alloy window structure, includes:

a fixed window frame including a first side;

the sealing ring is of an annular structure and is arranged on the first side face, the sealing ring is formed by splicing a plurality of sealing strips, the sealing strips are provided with a first splicing end and a second splicing end which are opposite to each other, the first splicing end is provided with a splicing protruding portion, the second splicing end is provided with a first inserting groove portion, the first splicing end and the second splicing end are in splicing fit, the first splicing end and the second splicing end are attached to each other, and the splicing protruding portion is inserted into the first inserting groove portion.

Furthermore, the first splicing end is provided with a first splicing surface, the inserting protruding portion is convexly arranged on the first splicing surface, the second splicing end is provided with a second splicing surface, the second splicing surface is concavely provided with a first slot portion, and the first splicing surface and the second splicing surface are both inclined planes and are matched.

Furthermore, the first side surface is concavely provided with an annular second slot part, and the sealing ring is inserted in the second slot part.

Furthermore, the second slot part is rectangular, and the edge of the second slot part is concavely provided with an L-shaped glue precipitating groove.

Further, the sealing strip includes grafting portion and the cover portion that links to each other, and the grafting portion is pegged graft in second slot part, and the cover portion covers in second slot part, and grafting bellying and slot part on the sealing strip all are located the cover portion.

Furthermore, one side of the covering part far away from the inserting part is convexly provided with a rib, and the rib extends along the length direction of the sealing strip.

Furthermore, the quantity of rib is a plurality of, and a plurality of ribs set up along the direction of height interval of covering portion.

The application provides an energy-saving aluminum alloy window structure, be equipped with the grafting bellying through the first concatenation end at the sealing strip, the second concatenation end of sealing strip is equipped with first slot part, in first concatenation end of concatenation complex and second concatenation end, laminate between first concatenation end and the second concatenation end, and the grafting bellying is inserted and is located first slot part, make the not only leakproofness of splice position department between two arbitrary sealing strips good, and first concatenation end and second concatenation end mutual formation interlocking so that splice position department is difficult for the perk, and then the whole leakproofness when having improved movable window frame closure in the first side of fixed window frame, the energy-conserving performance of aluminum alloy window structure has been promoted.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic front view of a fixed window frame according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a fixed window frame without a gasket according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a first splicing end provided in an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1-3, the present application provides an energy-saving aluminum alloy window structure, comprising:

a fixed window frame 100, the fixed window frame 100 including a first side;

the sealing ring 200 is of an annular structure and is arranged on the first side face, the sealing ring 200 is formed by splicing a plurality of sealing strips 210, each sealing strip 210 is provided with a first splicing end 211 and a second splicing end 212 which are opposite to each other, the first splicing end 211 is provided with a splicing convex portion 213, the second splicing end 212 is provided with a first slot portion, the first splicing end 211 and the second splicing end 212 are matched in a splicing mode, the first splicing end 211 and the second splicing end 212 are attached to each other, and the splicing convex portions 213 are inserted into the first slot portions.

In this embodiment, the aluminum alloy window structure includes a fixed window frame 100 and a movable window frame, the fixed window frame 100 has a window 101, and the movable window frame is movably disposed at the window 101 of the fixed window frame 100, so that the movable window frame can be opened and closed relative to the fixed window frame 100, and the fixed window frame 100 is attached to the first side of the fixed window frame 100 when closed. The first side of the fixed window frame 100 is provided with a sealing ring 200, and the sealing ring 200 is of an annular structure and surrounds the window 101 of the fixed window frame 100. The seal ring 200 is formed by splicing a plurality of seal strips 210. As shown in the drawing, the seal ring 200 is rectangular and formed by splicing four linear seal strips 210.

The first splicing end 211 of the sealing strip 210 is provided with a splicing protrusion 213, and the second splicing end 212 of the sealing strip 210 is provided with a first slotting part. Wherein, in the first splicing end 211 and the second splicing end 212 which are spliced and matched, the splicing surface of the first splicing end 211 is jointed with the splicing surface of the second splicing end 212, and the splicing bulge part 213 is inserted into the first slot part. The first splicing end 211 and the second splicing end 212 are attached to each other, so that the splicing gap at the splicing position of the sealing strip 210 is small or even does not exist, and the sealing performance of the splicing position of the sealing strip 210 can be improved. Through the splicing position of the sealing strip 210, the splicing convex part 213 is inserted into the first slot part, so that the first splicing end 211 and the second splicing end 212 can form interlocking through the splicing convex part 213 in splicing fit with the first slot part, and the difficulty of tilting the first splicing end 211 and the second splicing end 212 at the splicing position is reduced. At the same time, the fitting between the first and second mating ends 211 and 212 can also be facilitated by the mating projection 213 and first socket portion.

The insertion protrusion 213 may be circular, rectangular, etc., and the first slot portion is adapted to the shape of the insertion protrusion 213.

In some embodiments of the present application, the first splicing end 211 has a first splicing surface 215, the splicing protrusion 213 is convexly disposed on the first splicing surface 215, the second splicing end 212 has a second splicing surface, the second splicing surface is concavely disposed with a first slot portion, and both the first splicing surface 215 and the second splicing surface are inclined planes and are matched.

In this embodiment, the first splicing surface 215 and the second splicing surface are both set as the inclined planes and adapted to each other, so that the degree of fitting of the splicing between the first splicing surface 215 and the second splicing surface is good, and meanwhile, the assembling adjustment rate of the splicing fitting between the first splicing surface 215 and the second splicing surface is good.

In some embodiments of the present disclosure, the first side surface is recessed with an annular second groove portion 110, and the sealing ring 200 is inserted into the second groove portion 110. With such an arrangement, the sealing ring 200 can be well fixed to the fixed window frame 100, and the sealing ring 200 is prevented from being separated from the fixed window frame 100.

In some embodiments of the present disclosure, the second slot portion 110 is rectangular, and an L-shaped glue-depositing groove 120 is recessed at a corner of the second slot portion 110.

In the present embodiment, a part of the L-shaped glue depositing grooves 120 is located at a part of the second slot portion 110 corresponding to one sealing strip 210, and another part is located at a part of the second slot portion 110 corresponding to another adjacent sealing strip 210. Sealant can be filled in the L-shaped sealant sink groove 120, so that the bonding strength between the splicing end and the fixed window frame 100 can be enhanced through the sealant, and the situation that the splicing end is tilted is further avoided.

In some embodiments of the present application, the sealing strip 210 includes a plug portion 217 and a cover portion 218 connected to each other, the plug portion 217 is plugged into the second slot portion 110, the cover portion 218 covers the second slot portion 110, and the plug protrusion portion 213 and the slot portion on the sealing strip 210 are both located on the cover portion 218.

The covering portion 218 covers the second slot portion 110 to reduce the permeation of the external air into the second slot portion 110.

In some embodiments of the present application, a rib 219 is protruded from a side of the covering portion 218 away from the inserting portion 217, and the rib 219 extends along a length direction of the sealing strip 210. So set up, can increase the extruded degree of sealing washer 200 when the movable window frame closes in first side through rib 219, further improve aluminum alloy window frame's leakproofness.

In some embodiments of the present application, the number of the ribs 219 is several, and several ribs 219 are arranged at intervals along the height direction of the covering portion 218. So set up, can further improve the leakproofness that improves aluminum alloy window frame.

It will be understood that any orientation or positional relationship indicated above with respect to the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc., is based on the orientation or positional relationship shown in the drawings and is for convenience in describing and simplifying the utility model, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be considered limiting of the utility model. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be understood by those skilled in the art that the scope of the present invention is not limited to the specific combination of the above-mentioned features, but also covers other embodiments formed by any combination of the above-mentioned features or their equivalents without departing from the spirit of the present invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (7)

1. An energy-efficient aluminum alloy window structure, comprising:

a fixed window frame including a first side;

the sealing ring is of an annular structure and is arranged on the first side face, the sealing ring is formed by splicing a plurality of sealing strips, the sealing strips are provided with a first splicing end and a second splicing end which are opposite to each other, the first splicing end is provided with a splicing protruding portion, the second splicing end is provided with a first slot portion, the first splicing end and the second splicing end are matched in splicing, the first splicing end and the second splicing end are attached to each other, and the splicing protruding portion is inserted into the first slot portion.

2. The energy-saving aluminum alloy window structure of claim 1, wherein the first splicing end has a first splicing surface, the insertion protrusion is convexly disposed on the first splicing surface, the second splicing end has a second splicing surface, the second splicing surface is concavely disposed with a first slot portion, and the first splicing surface and the second splicing surface are both inclined planes and are matched.

3. The energy-saving aluminum alloy window structure of claim 1, wherein the first side surface is concavely provided with an annular second slot portion, and the sealing ring is inserted into the second slot portion.

4. The energy-saving aluminum alloy window structure of claim 3, wherein the second slot portion is rectangular, and L-shaped glue sinks are concavely arranged at corners of the second slot portion.

5. The energy-saving aluminum alloy window structure of claim 3, wherein the sealing strip comprises a plug part and a covering part which are connected, the plug part is plugged in the second slot part, the covering part covers the second slot part, and the plug convex part and the slot part on the sealing strip are both located in the covering part.

6. The energy-saving aluminum alloy window structure of claim 5, wherein a rib is protruded on one side of the covering part away from the inserting part, and the rib extends along the length direction of the sealing strip.

7. The energy-saving aluminum alloy window structure of claim 6, wherein the number of the ribs is several, and the several ribs are arranged at intervals along the height direction of the covering portion.

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