CN217681277U - Wind and sand prevention energy-saving heat insulation window - Google Patents

Abstract

The utility model belongs to the technical field of door and window structure, specifically speaking is a prevent wind husky energy-conserving thermal-insulated window, including interior division of fan subassembly, the frame subassembly, interior division of fan subassembly and frame subassembly overlap joint, interior division of fan subassembly has seted up first recess towards outdoor one side, install the first sealing member of butt in first recess on the frame subassembly, the one end of first sealing member is for being used for the first boss of inlay card on the frame subassembly, the other end of first sealing member is for being used for the second boss with first recess bottom surface butt, the side of first sealing member still is provided with first overlap joint arm, first overlap joint arm inclines towards outdoor direction, and first overlap joint arm overlap joint is on the lateral wall of recess. The interior division of fan subassembly and frame subassembly lie in outdoor one side through first sealing member and seal, prevent in the cavity between interior division of fan subassembly and the frame subassembly is gone into to sand blown by the wind, and then avoided sand and dust to get into indoor probability, guarantee that the interior space is clean, improved user experience.

Description

Wind and sand prevention energy-saving heat insulation window

Technical Field

The utility model relates to a technical field of door and window structure specifically is a prevent wind husky energy-conserving thermal-insulated window.

Background

Modern buildings require that building doors and windows have multiple use functions of lighting, sealing, heat preservation, heat insulation, sound insulation, fire prevention, dust prevention and the like, so that a safe and comfortable indoor living environment can be provided for people; therefore, the building door and window is a functional component which embodies the extremely important physical properties of sound, light, heat, environment and the like of modern buildings and is directly related to the safety, comfort and energy conservation of the buildings; in Xinjiang et al, the requirement on the sealing performance of the door and the window is higher due to the larger wind sand.

In current thermal-insulated window structure, mainly adopt traditional european standard notch, seal the window through the isobaric chamber structure, the isobaric chamber appears in the inside sealing strip that reaches the indoor side of window form messenger's section bar of isobaric chamber structure, thereby realize sealedly, nevertheless in traditional european standard structure, because the overlap joint size only has 6.5mm between interior casement subassembly and the frame subassembly, and the outdoor side does not have the sealing strip, only rely on the isobaric chamber structural seal, dust such as Xinjiang, the amount of wind is under all very big environment, still appear in the space between the door and window section bar by strong wind blowing very easily, and then lead to the dust to get into indoor condition when windowing, make user experience descend.

Disclosure of Invention

The utility model aims to solve the technical problem that: the utility model provides a prevent wind husky energy-conserving thermal-insulated window to solve current thermal-insulated window and lead to the problem that the wind husky enters the room easily under the great environment of wind husky.

The utility model adopts the technical proposal that: the utility model provides a prevent wind energy-conserving thermal-insulated window of husky, includes interior division of fan subassembly, frame subassembly, interior division of fan subassembly with frame subassembly overlap joint, interior division of fan subassembly has seted up first recess towards outdoor one side, install the butt on the frame subassembly and be in first sealing member in the first recess, the one end of first sealing member is for being used for the inlay card first boss on the frame subassembly, the other end of first sealing member for be used for with the second boss of first grooved underside butt, the side of first sealing member still is provided with first overlap joint arm, first overlap joint arm inclines towards outdoor direction, just first overlap joint arm overlap joint be in on the lateral wall of recess.

After the structure above adopting, the utility model discloses a prevent wind husky energy-conserving thermal-insulated window compares with prior art and has following advantage:

1. the interior fan subassembly and the frame subassembly of opening are located outdoor one side through first sealing member and seal, prevent in the cavity between fan subassembly and the frame subassembly in the sand blown by the wind gets into, and then avoided sand and dust to get into indoor probability, guarantee that the interior space is clean, improved user experience.

2. First sealing member inlays on frame subassembly through first boss inlay card to seal up through second boss and first recess butt, simultaneously through the lateral wall of first groove of first overlap joint arm overlap joint, sealed effect has further been improved.

3. First overlap joint arm inclines towards outdoor direction, and the tip butt of first overlap joint arm is on the lateral wall of first recess simultaneously, when external wind blows to first overlap joint arm, with the further compressing tightly of first overlap joint arm on the lateral wall of first recess under the pressure of wind, just can further improvement sealed effect, prevent that sand blown by the wind from getting into indoorly.

Preferably, a second overlapping arm and a third overlapping arm extending towards the bottom surface of the first groove are respectively arranged on two sides of the second boss, and the second overlapping arm and the third overlapping arm are in contact with the bottom surface of the first groove.

The second lap joint arm and the third lap joint arm are respectively arranged on two sides of the second boss and abut against the bottom surface of the first groove, and the second boss is matched with the second boss to further strengthen the sealing effect, so that dust and sand are difficult to enter a gap between the frame assembly and the inward opening sash assembly.

Preferably, the inner opening sash assembly is further connected with a second sealing element abutted against the frame assembly, one end of the second sealing element is a third boss embedded on the inner opening sash assembly in a clamping manner, and the other end of the second sealing element is a fourth boss abutted against the frame assembly.

The second sealing member is embedded on the inward opening sash assembly through the third boss, moves along with the inward opening sash assembly, and is abutted against the side face of the frame assembly through the fourth boss, so that the inward opening sash assembly and the frame assembly are sealed at the indoor side, and the sealing effect of the heat insulation window is improved.

Preferably, both sides of the fourth boss are further provided with a fourth overlapping arm and a fifth overlapping arm respectively extending towards the bottom wall of the frame assembly, and the fourth overlapping arm and the fifth overlapping arm are both abutted against the bottom wall of the frame assembly.

The fourth overlapping arm and the fifth overlapping arm are matched with the fourth boss, the sealing effect of the second sealing element is further improved, the sound insulation and heat insulation effects are improved, and the probability of dust entering the room is further reduced.

Preferably, the second and third overlapping arms are inclined in a direction away from the second boss, and the fourth and fifth overlapping arms are inclined in a direction away from the fourth boss.

The second lapping arm and the third lapping arm are obliquely arranged, so that the contact area between the second lapping arm and the first groove can be increased when the first sealing element is extruded, and the sealing effect is further improved.

Preferably, the center of the second boss in the first sealing member is a hollow structure, and the center of the fourth boss in the second sealing member is also a hollow structure.

The center of the second boss is arranged to be a hollow structure, so that the inner opening assembly and the frame assembly can be easily deformed when being closed, the contact area between the first sealing element and the first groove is further increased, and the sealing effect is further improved.

Preferably, the inner casement assembly and the frame assembly are both internally provided with first heat insulation strips.

First heat insulating strip can make interior casement subassembly and frame subassembly play the effect of bridge cut-off, makes thermal-insulated window play more outstanding thermal-insulated effect.

Preferably, the inner opening sash assembly is provided with a second heat insulation strip, the second heat insulation strip is provided with a fifth boss, the frame assembly is further connected with a third sealing element, the third sealing element is provided with a sixth boss abutted against the fifth boss, and the sixth boss is located on one side of the fifth boss close to the outdoor.

The fifth boss on the second heat insulation strip is matched with the sixth boss of the third sealing element, the sealing effect of the energy-saving heat insulation window is further improved, meanwhile, the sixth boss is located on one side, close to the outdoor, of the fifth boss, the heat insulation window can be opened and closed conveniently, meanwhile, when outdoor wind blows in, under the effect of air pressure, the sixth boss can be attached to the fifth boss, the sealing effect is further improved, and the fact that wind sand cannot enter indoors easily is guaranteed.

Drawings

Fig. 1 is a schematic structural view of a wind and sand prevention energy-saving heat insulation window of the present invention.

Fig. 2 is a partially enlarged schematic view of the region "a" in fig. 1.

Fig. 3 is a partially enlarged structural view of a region "B" in fig. 1.

The heat insulation structure comprises an inner opening sash assembly 10, a first groove 11, a frame assembly 20, a first sealing element 30, a first boss 31, a second boss 32, a first bridging arm 33, a second bridging arm 34, a third bridging arm 35, a second sealing element 40, a third boss 41, a fourth boss 42, a fourth bridging arm 43, a fifth bridging arm 44, a first heat insulation strip 51, a second heat insulation strip 52, a third sealing element 53, a fifth boss 54 and a sixth boss 55.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

According to the specification and the attached drawings 1-3, the utility model provides a wind and sand prevention energy-saving heat insulation window, which comprises an inward opening sash assembly 10 and a frame assembly 20, in the embodiment, the direction indicated by the specification and the attached drawing 1 is taken as the lower part, the lower part is the indoor side, the upper part is the outdoor side, and when the heat insulation window is closed, the inward opening sash assembly 10 is lapped with the frame assembly 20; the inside-opening fan component 10 is provided with a first groove 11 on one side close to the outdoor, a first sealing element 30 is installed on the frame component 20, one end of the first sealing element 30 is a first boss 31 used for being embedded on the frame component 20 in a clamping mode, the other end of the first sealing element 30 is a second boss 32, the second boss 32 abuts against the first groove 11, a first overlapping arm 33 is further arranged on the upper side face of the second boss 32, namely one side facing the side face of the first groove 11, the first overlapping arm 33 inclines towards the outdoor direction, the end portion of the first overlapping arm 33 abuts against the side wall of the first groove 11, meanwhile, in the embodiment, the overlapping size of the space between the frame component 20 and the first groove 11 on the outdoor side is increased from 6.5mm to 10.5 mm through the first sealing element 30, the sealing effect is further improved, and sand and dust is prevented from entering the indoor space.

In this embodiment, a second overlapping arm 34 and a third overlapping arm 35 extending toward the bottom surface of the first groove 11 are further respectively disposed on two sides of the second boss 32, the second overlapping arm 34 and the third overlapping arm 35 are respectively disposed in an inclined manner toward a side away from the second boss 32, and both the second overlapping arm 34 and the third overlapping arm 35 are abutted against the bottom surface of the first groove 11.

The indoor side of the inward opening sash assembly 10 is further connected with a second sealing element 40 abutting against the bottom surface of the frame assembly 20, one end of the second sealing element 40 is a third boss 41 for being embedded on the inward opening sash assembly 10, the other end of the second sealing element is a fourth boss 42, the fourth boss 42 abuts against the bottom surface of the frame assembly 20, both sides of the fourth boss 42 are further provided with a fourth overlapping arm 43 and a fifth overlapping arm 44 extending towards the bottom wall of the frame assembly 20, wherein the fourth overlapping arm 43 and the fifth overlapping arm 44 are both obliquely arranged towards the side away from the fourth boss 42, and the fourth overlapping arm 43 and the fifth overlapping arm 44 both abut against the bottom wall of the frame assembly 20.

In the embodiment, the second protrusion 32 of the first sealing element 30 is a hollow structure, and the fourth protrusion 42 of the second sealing element 40 is also a hollow structure, so that when the first sealing element 30 and the second sealing element 40 are pressed, the hollow structure can be deformed more easily, thereby increasing the contact area between the first sealing element 30 and the first groove 11 and the contact area between the second sealing element 40 and the frame assembly 20, so as to improve the sealing effect.

In the present embodiment, the frame assembly 20 includes a left frame section, a right frame section, and two first heat insulating strips 51 for connecting the left frame section and the right frame section; the inward opening sash assembly 10 comprises a left inward opening sash section bar, a right inward opening sash section bar, and a first heat insulation strip 51 and a second heat insulation strip 52 which are used for connecting the left inward opening sash section bar and the right inward opening sash section bar, wherein a fifth boss 54 extending towards the frame assembly 20 is arranged on the second heat insulation strip 52, a third sealing element 53 is further embedded on the frame section bar in a clamping manner, two ends of the third sealing element 53 are respectively embedded on the left frame section bar and the right frame section bar in a clamping manner, a sixth boss 55 facing the inward opening sash section bar is further arranged on the third sealing element 53, and the sixth boss 55 is positioned on one side of the fifth boss 54 close to the outdoor; in this embodiment, the first and second heat- insulating strips 51 and 52 are made of nylon 66.

In this embodiment, first sealing strip, second sealing strip and third sealing strip all adopt ethylene propylene diene monomer, not only have good sealed effect, also have good weatherability, can effectual life who promotes thermal-insulated window.

Its theory of operation is, when thermal-insulated window is closed, interior division of subassembly 10 and frame subassembly 20 overlap joint, install first sealing strip on frame subassembly 20 through in the second boss 32 butt in the first recess 11 of seting up on division of subassembly 10, fill the clearance between interior division of subassembly 10 and the frame subassembly 20, prevent that sand and soil from the clearance between interior division of subassembly 10 and the frame subassembly 20 from getting into, first overlap joint arm 33 overlap joint is on the lateral wall of first recess 11 simultaneously, further improvement sealed effect, simultaneously when outdoor blowing, under the pressure effect of wind, can also further compress tightly first overlap joint arm 33 on the lateral wall of first recess 11, make sealed effect more outstanding, further place sand and soil and get into indoor.

In the present invention, the directional terms such as "upper", "lower", "left", "right", "top", "bottom" and the like are all shown with reference to the attached drawing 1 of the specification, and are only for better and clearer illustration and understanding of the present invention, but not for indicating or implying that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The foregoing is illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof allows for changes, all the changes made within the protection scope of the independent claims of the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a prevent wind husky energy-conserving thermal-insulated window, includes interior division of fan subassembly, frame subassembly, interior division of fan subassembly with frame subassembly overlap joint, a serial communication port, interior division of fan subassembly has seted up first recess towards outdoor one side, install the butt on the frame subassembly and be in first sealing member in the first recess, the one end of first sealing member is for being used for the inlay card first boss on the frame subassembly, the other end of first sealing member is for being used for the second boss with first recess bottom surface butt, the side of first sealing member still is provided with first overlap joint arm, first overlap joint arm inclines towards outdoor direction, just first overlap joint arm overlap joint be in on the lateral wall of first recess.

2. The window of claim 1, wherein a second overlapping arm and a third overlapping arm are respectively disposed on two sides of the second boss and extend toward the bottom surface of the first groove, and the second overlapping arm and the third overlapping arm are both in contact with the bottom surface of the first groove.

3. The wind-and-sand-proof energy-saving heat insulation window as claimed in claim 2, wherein a second sealing element abutting against the frame assembly is further connected to the inner opening sash assembly, one end of the second sealing element is a third boss for being clamped on the inner opening sash assembly, and the other end of the second sealing element is a fourth boss for abutting against the frame assembly.

4. The window of claim 3, wherein a fourth overlapping arm and a fifth overlapping arm are respectively disposed on two sides of the fourth boss and extend toward the bottom wall of the side frame assembly, and the fourth overlapping arm and the fifth overlapping arm abut against the bottom wall of the side frame assembly.

5. The window of claim 4, wherein the second and third arms are inclined in a direction away from the second boss, and the fourth and fifth arms are inclined in a direction away from the fourth boss.

6. The window of claim 5, wherein the center of the second boss of the first seal is hollow and the center of the fourth boss of the second seal is hollow.

7. The wind and sand resistant energy saving thermal insulation window according to claim 6, wherein first thermal insulation strips are arranged in both the inner opening sash assembly and the side frame assembly.

8. The wind and sand prevention energy saving heat insulation window according to claim 7, wherein a second heat insulation strip is installed on the inner opening sash assembly, a fifth boss is arranged on the second heat insulation strip, a third sealing element is further connected to the frame assembly, a sixth boss for abutting against the fifth boss is arranged on the third sealing element, and the sixth boss is located on one side of the fifth boss close to the outdoor.

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