CN215565318U - Door and window energy-saving auxiliary frame with high-strength functional groove structure - Google Patents
Door and window energy-saving auxiliary frame with high-strength functional groove structure Download PDFInfo
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- CN215565318U CN215565318U CN202121820995.8U CN202121820995U CN215565318U CN 215565318 U CN215565318 U CN 215565318U CN 202121820995 U CN202121820995 U CN 202121820995U CN 215565318 U CN215565318 U CN 215565318U
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Abstract
The utility model provides a door and window energy-saving auxiliary frame with a high-strength functional groove structure, which is arranged in a hole at one side of cement mortar, wherein a wall body is arranged at the other side of the cement mortar, an expansion bolt is sequentially inserted into the door and window energy-saving auxiliary frame and the cement mortar to fix the door and window energy-saving auxiliary frame; the energy-saving auxiliary frame of the door and window is provided with a high-strength functional groove structure and a wavy auxiliary reinforcing structure; after the door and window energy-saving auxiliary frame is pushed into the opening, the adjacent building materials are effectively combined through the high-strength functional groove structure, so that the positioning accuracy of the energy-saving auxiliary frame is effectively improved, and meanwhile, the integral installation strength of the door and window energy-saving auxiliary frame and the opening is effectively improved; polyurethane foaming is filled between the frame section bar and the cement mortar, a connecting screw is sequentially inserted into the frame section bar, the polyurethane foaming and the door and window energy-saving auxiliary frame, the frame section bar and the door and window energy-saving auxiliary frame are fixed, and a sealant is arranged between the outside of the frame section bar and the cement mortar. The utility model has the advantages of beautiful appearance, high assembly strength, long service life, convenient installation, wide application range and high comprehensive cost performance.
Description
Technical Field
The utility model relates to the technical field of doors and windows, in particular to a door and window energy-saving auxiliary frame with a high-strength functional groove structure.
Background
The national requirements for energy conservation of buildings are increasingly improved, and after the policy of carbon peak reaching and carbon neutralization is put forward, the development of energy-saving building materials is greatly promoted. The building door and window energy-saving auxiliary frame plays a great role in improving the energy-saving performance of the installed building door and window, is increasingly widely applied to the market, has the advantages of good environmental protection, strong energy-saving performance, convenient assembly, high comprehensive cost performance and the like, and is a building product with good development prospect. The traditional door and window energy-saving auxiliary frame assembly has the defects of complex product assembly process, unstable assembly quality, low strength after being combined with other adjacent materials and not tightly assembled, influence on the attractiveness and the use performance of the assembled product and great limitation in use.
SUMMERY OF THE UTILITY MODEL
In view of the above-mentioned technical problems, an energy-saving auxiliary frame for doors and windows with a high-strength functional groove structure is provided. According to the utility model, after the door and window energy-saving auxiliary frame is pushed into the opening, the adjacent building materials such as concrete are effectively combined through the high-strength functional groove structure, so that on one hand, the positioning accuracy of the energy-saving auxiliary frame is effectively improved, and simultaneously, the integral installation strength of the auxiliary frame and the opening is effectively improved. The technical means adopted by the utility model are as follows:
a door and window energy-saving auxiliary frame with a high-strength functional groove structure is arranged in a hole on one side of cement mortar, the other side of the cement mortar is a wall body, and an expansion bolt is sequentially inserted into the door and window energy-saving auxiliary frame and the cement mortar into the wall body to fix the door and window energy-saving auxiliary frame;
the energy-saving auxiliary frame for the door and window consists of an auxiliary frame outer wall and an inner cavity, wherein a high-strength functional groove structure is arranged on one side or two sides of the longitudinal direction of the auxiliary frame outer wall, the high-strength functional groove structure is in contact connection with cement mortar, and a wavy auxiliary reinforcing structure is arranged on the surface of one side of the auxiliary frame outer wall, which is in contact connection with the cement mortar, in the transverse direction; after the door and window energy-saving auxiliary frame is pushed into the opening, the adjacent building materials such as concrete are effectively combined through the high-strength functional groove structure, so that on one hand, the positioning accuracy of the energy-saving auxiliary frame is effectively improved, and simultaneously, the integral installation strength of the door and window energy-saving auxiliary frame and the opening is effectively improved;
polyurethane foam is filled between the frame profile and the cement mortar, connecting screws are sequentially inserted into the frame profile, the polyurethane foam and the door and window energy-saving auxiliary frame, the frame profile and the door and window energy-saving auxiliary frame are fixed, and sealant is arranged between the outer portion of the frame profile and the cement mortar.
Furthermore, the high-strength functional groove structures are distributed in the middle positions of two sides of the door and window energy-saving auxiliary frame, namely, the two sides are arranged.
Furthermore, the high-strength functional groove structure is distributed in the middle position of the single side of the energy-saving auxiliary frame of the door and window, one side of the energy-saving auxiliary frame is arranged, and the other side of the energy-saving auxiliary frame is not arranged.
Further, the high-strength functional groove is constructed in a V-shaped structure, a rectangular structure, a circular arc structure or an irregular structure.
Further, when the high-strength functional groove is in a V-shaped structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm;
when the high-strength functional groove is in a rectangular structure, the depth is 2-25mm, and the width is 6-30 mm;
when the high-strength functional groove is in an arc-shaped structure, the depth is 2-25mm, and the diameter of the arc is 6-30 mm;
when the high-strength functional groove is in an irregular structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm.
Further, the wavy auxiliary reinforcing structure is a V-shaped structure, a rectangular structure, a circular arc structure or an irregular structure.
Further, when the wavy auxiliary reinforcing structure is a V-shaped structure, the depth is 0.5-5mm, and the width of the position with the largest width is 1-5 mm;
when the wavy auxiliary reinforcing structure is a rectangular structure, the depth is 0.5-5mm, and the width is 1-5 mm;
when the wavy auxiliary reinforcing structure is of an arc-shaped structure, the depth is 0.5-5mm, and the diameter of the arc is 1-5 mm;
when the wavy auxiliary reinforcing structure is an irregular structure, the depth is 0.5-5mm, and the width of the position with the largest width is 1-5 mm.
Compared with the prior art, the utility model has the following advantages:
1. the appearance is beautiful
The door and window energy-saving auxiliary frame adopting the high-strength functional groove structure has attractive appearance and strong decoration.
2. The assembly strength is high
The door and window energy-saving auxiliary frame with the high-strength functional groove structure and the auxiliary waveform reinforcing structure is tightly combined with materials such as adjacent concrete during assembly, is high in assembly strength, and better meets use requirements.
3. Long service life
The door and window energy-saving auxiliary frame with the high-strength functional groove structure is long in overall service life.
4. Convenient installation
The door and window energy-saving auxiliary frame with the high-strength functional groove structure is convenient and fast in installation process, accurate in positioning and capable of better meeting use requirements.
5. Wide application range
The utility model has scientific and reasonable structure, can be applied to various building door and window products, and provides wider application range.
6. High comprehensive cost performance
The door and window energy-saving auxiliary frame with the convenient assembly structure has high comprehensive cost performance, is favorable for popularization or popularization, and develops the market space of the plate.
Based on the reasons, the utility model can be widely popularized in the fields of building doors and windows and the like.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic view of the installation of the present invention.
Fig. 2 is a schematic structural diagram of embodiment 1 of the present invention.
Fig. 3 is a schematic structural diagram of embodiment 2 of the present invention.
Fig. 4 is a schematic structural diagram of embodiment 3 of the present invention.
Fig. 5 is a schematic structural diagram of embodiment 4 of the present invention.
Fig. 6 is a schematic structural diagram of embodiment 5 of the present invention.
Fig. 7 is a schematic structural diagram of embodiment 6 of the present invention.
Fig. 8 is a schematic structural diagram of embodiment 7 of the present invention.
Fig. 9 is a schematic structural diagram of embodiment 8 of the present invention.
Fig. 10 is a schematic structural diagram of embodiment 9 of the present invention.
In the figure: 1. the door and window energy-saving auxiliary frame; 11. a high strength functional tank construction; 12. a corrugated auxiliary reinforcing structure; 2. a frame section bar; 3. a connecting screw; 4. sealing glue; 5. a wall body; 6. cement mortar; 7. an expansion bolt; 8. and (3) foaming polyurethane.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1, the utility model provides a door and window energy-saving auxiliary frame with a high-strength functional groove structure, which is characterized in that the door and window energy-saving auxiliary frame is arranged in a hole at one side of cement mortar 6, a wall body 5 is arranged at the other side of the cement mortar 6, and an expansion bolt 7 is sequentially inserted into the door and window energy-saving auxiliary frame 1 and the cement mortar 6 to the wall body 5 so as to fix the door and window energy-saving auxiliary frame 1; the energy-saving auxiliary frame 1 for the door and window consists of an auxiliary frame outer wall and an inner cavity, wherein a high-strength functional groove structure 11 is arranged on one side or two sides of the auxiliary frame outer wall in the longitudinal direction, the high-strength functional groove structure 11 is in contact connection with cement mortar 6, and a wavy auxiliary reinforcing structure 12 is arranged on the surface of one side of the auxiliary frame outer wall, which is in contact connection with the cement mortar 6 in the transverse direction; after the door and window energy-saving auxiliary frame 1 is pushed into the opening, adjacent building materials such as concrete are effectively combined through the high-strength functional groove structure 11, so that on one hand, the positioning accuracy of the energy-saving auxiliary frame is effectively improved, and simultaneously, the integral installation strength of the door and window energy-saving auxiliary frame 1 and the opening is effectively improved; polyurethane foam 8 is filled between the frame section bar 2 and the cement mortar 6, the connecting screws 3 are sequentially inserted into the frame section bar 2, the polyurethane foam 8 and the door and window energy-saving auxiliary frame 1, the frame section bar 2 and the door and window energy-saving auxiliary frame 1 are fixed, and sealant 4 is arranged between the outer part of the frame section bar 2 and the cement mortar 6.
In a preferred embodiment, the high-strength functional groove structures 11 are distributed in the middle of two sides of the auxiliary window and door frame 1, i.e. on both sides.
In a preferred embodiment, the high-strength functional groove structure 11 is distributed in the middle of one side of the auxiliary door and window frame 1, and is disposed on one side and not disposed on one side.
As a preferred embodiment, the high-strength functional groove structure 11 has a V-shaped structure, a rectangular structure, a circular arc structure, or an irregular structure.
In a preferred embodiment, when the high-strength functional groove structure 11 is a V-shaped structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm;
when the high-strength functional groove structure 11 is a rectangular structure, the depth is 2-25mm, and the width is 6-30 mm;
when the high-strength functional groove structure 11 is of an arc-shaped structure, the depth is 2-25mm, and the diameter of the arc is 6-30 mm;
when the high-strength functional groove structure 11 is of an irregular structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm.
As a preferred embodiment, the auxiliary reinforcement structure 12 has a V-shaped structure, a rectangular structure, a circular arc structure or an irregular structure.
In a preferred embodiment, when the corrugated auxiliary reinforcing structure 12 is a V-shaped structure, the depth is 0.5-5mm, and the width of the maximum width position is 1-5 mm;
when the wavy auxiliary reinforcing structure 12 is a rectangular structure, the depth is 0.5-5mm, and the width is 1-5 mm;
when the wavy auxiliary reinforcing structure 12 is an arc-shaped structure, the depth is 0.5-5mm, and the diameter of the arc is 1-5 mm;
when the wavy auxiliary reinforcing structure 12 is an irregular structure, the depth is 0.5-5mm, and the width of the maximum width position is 1-5 mm.
Example 1
As shown in figure 2, the energy-saving door and window attached frame with the high-strength functional groove structure belongs to a building door and window structure, mainly comprises an attached frame outer wall, an inner cavity and the like, and also comprises the high-strength functional groove structure, after the energy-saving door and window frame is pushed into a hole, the building materials such as adjacent concrete and the like are effectively combined through the high-strength functional groove structure, on one hand, the energy-saving door and window attached frame positioning accuracy is effectively improved, and meanwhile, the integral installation strength of the attached frame and the hole is effectively increased.
The high-strength functional groove structure 11 is arranged on the longitudinal single side of the outer wall of the auxiliary frame, namely the high-strength functional groove structure 11 is distributed in the middle position of the single side of the energy-saving auxiliary frame 1 for doors and windows, one side is arranged, and the other side is not arranged. As shown in fig. 2, in the present embodiment, the high-strength functional tank structure 11 is provided at the right middle position, and the high-strength functional tank structure 11 is connected in contact with the cement mortar 6. The high-strength functional groove 11 is V-shaped and has a depth h1Is 10mm, and has a maximum width position width w1Is 15 mm.
And a wavy auxiliary reinforcing structure 12 is arranged on the surface of one side of the outer wall of the auxiliary frame, which is transversely in contact connection with the cement mortar 6, and the wavy auxiliary reinforcing structure 12 is of a V-shaped structure, a rectangular structure, an arc-shaped structure or an irregular structure.
Example 2
As shown in FIG. 3, unlike embodiment 1, in this embodiment, the high-strength functional groove structure 11 has a rectangular structure and a depth h2Is 2mm, width w2Is 6 mm.
Example 3
As shown in FIG. 4, unlike embodiment 1, in this embodiment, the high-strength functional groove structure 11 has a circular arc-shaped structure and a depth h3Is 10mm, and the diameter w of the arc3Is 10 mm.
Example 4
As shown in FIG. 5, unlike embodiment 1, in this embodiment, the high-strength functional groove structure 11 has an irregular structure and a depth h4Is 8mm, and has a maximum width position width w4Is 18 mm.
Example 5
As shown in fig. 6, unlike embodiment 1, in this embodiment, high-strength functional groove structures 11 are disposed on both longitudinal sides of the outer wall of the auxiliary frame, and the high-strength functional groove structures 11 are distributed in the middle of both sides of the door/window energy-saving auxiliary frame 1, that is, disposed on both sides. The high-strength functional groove structures 11 on both sides are in contact connection with the cement mortar 6.
In this embodiment, the high-strength functional groove structure 11 has a depth of 25mm and a maximum width position width of 30 mm.
Example 6
As shown in fig. 7, unlike embodiment 1, in this embodiment, the corrugated auxiliary reinforcing structure 12 is a V-shaped structure with a depth m1Is 2mm, and has a maximum width position width n1Is 3 mm.
Example 7
As shown in fig. 8, unlike embodiment 1, in the present embodiment, when the corrugated auxiliary reinforcing structure 12 has a rectangular structure, the depth m is set2Is 0.5mm, and has a width n2Is 1 mm.
Example 8
As shown in fig. 9, unlike embodiment 1, in this embodiment, when the corrugated auxiliary reinforcing structure 12 has a circular arc-shaped structure, the depth m is larger3Is 5mm, and the diameter of the arc n3Is 5 mm.
Example 9
As shown in fig. 10, unlike embodiment 1, in this embodiment, when the corrugated auxiliary reinforcing structure 12 is an irregular structure, the depth m is41.5mm, width n of the maximum width position4Is 3 mm.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (7)
1. The door and window energy-saving auxiliary frame with the high-strength functional groove structure is characterized in that the door and window energy-saving auxiliary frame is arranged in a hole on one side of cement mortar (6), a wall body (5) is arranged on the other side of the cement mortar (6), and an expansion bolt (7) is sequentially inserted into the door and window energy-saving auxiliary frame (1) and the cement mortar (6) to the wall body (5) to fix the door and window energy-saving auxiliary frame (1);
the energy-saving auxiliary frame (1) for the door and window consists of an auxiliary frame outer wall and an inner cavity, wherein a high-strength functional groove structure (11) is arranged on one side or two sides of the auxiliary frame outer wall in the longitudinal direction, the high-strength functional groove structure (11) is in contact connection with cement mortar (6), and a wavy auxiliary reinforcing structure (12) is arranged on the surface of one side of the auxiliary frame outer wall which is in contact connection with the cement mortar (6) in the transverse direction; after the door and window energy-saving auxiliary frame (1) is pushed into the opening, adjacent building materials are effectively combined through the high-strength functional groove structure (11), so that on one hand, the positioning accuracy of the energy-saving auxiliary frame is effectively improved, and simultaneously, the integral installation strength of the door and window energy-saving auxiliary frame (1) and the opening is effectively improved;
polyurethane foam (8) are filled between the frame section bar (2) and the cement mortar (6), the connecting screw (3) is sequentially inserted into the frame section bar (2), the polyurethane foam (8) and the door and window energy-saving auxiliary frame (1), the frame section bar (2) and the door and window energy-saving auxiliary frame (1) are fixed, and a sealant (4) is arranged between the outside of the frame section bar (2) and the cement mortar (6).
2. The auxiliary energy-saving frame with the high-strength functional groove structure for doors and windows as claimed in claim 1, wherein the high-strength functional groove structure (11) is distributed in the middle of the two sides of the auxiliary energy-saving frame for doors and windows (1).
3. The auxiliary energy-saving frame for doors and windows with the high-strength functional groove structure as claimed in claim 1, wherein the high-strength functional groove structure (11) is distributed in the middle of one side of the auxiliary energy-saving frame for doors and windows (1).
4. The auxiliary frame with high-strength functional groove structure for doors and windows as claimed in claim 1, 2 or 3, wherein the high-strength functional groove structure (11) is of V-shaped structure, rectangular structure, circular arc structure or irregular structure.
5. The energy-saving auxiliary frame for doors and windows with the high-strength functional groove structure as claimed in claim 4, wherein when the high-strength functional groove structure (11) is a V-shaped structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm;
when the high-strength functional groove structure (11) is of a rectangular structure, the depth is 2-25mm, and the width is 6-30 mm;
when the high-strength functional groove structure (11) is of an arc-shaped structure, the depth is 2-25mm, and the diameter of the arc is 6-30 mm;
when the high-strength functional groove structure (11) is of an irregular structure, the depth is 2-25mm, and the width of the maximum width position is 6-30 mm.
6. The energy-saving auxiliary frame for doors and windows with high-strength functional groove structure as claimed in claim 1, wherein the wave-shaped auxiliary reinforcing structure (12) is of V-shaped structure, rectangular structure, circular arc structure or irregular structure.
7. The energy-saving auxiliary frame for doors and windows with the high-strength functional groove structure as claimed in claim 4, wherein when the corrugated auxiliary reinforcing structure (12) is a V-shaped structure, the depth is 0.5-5mm, and the width of the maximum width position is 1-5 mm;
when the wavy auxiliary reinforcing structure (12) is a rectangular structure, the depth is 0.5-5mm, and the width is 1-5 mm;
when the wavy auxiliary reinforcing structure (12) is of an arc-shaped structure, the depth is 0.5-5mm, and the diameter of the arc is 1-5 mm;
when the wavy auxiliary reinforcing structure (12) is an irregular structure, the depth is 0.5-5mm, and the width of the maximum width position is 1-5 mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121820995.8U CN215565318U (en) | 2021-08-05 | 2021-08-05 | Door and window energy-saving auxiliary frame with high-strength functional groove structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121820995.8U CN215565318U (en) | 2021-08-05 | 2021-08-05 | Door and window energy-saving auxiliary frame with high-strength functional groove structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215565318U true CN215565318U (en) | 2022-01-18 |
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ID=79832878
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202121820995.8U Active CN215565318U (en) | 2021-08-05 | 2021-08-05 | Door and window energy-saving auxiliary frame with high-strength functional groove structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN215565318U (en) |
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2021
- 2021-08-05 CN CN202121820995.8U patent/CN215565318U/en active Active
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