CN221002432U - Low-energy-consumption heat-insulating section bar and heat-insulating window - Google Patents

Abstract

The utility model discloses a low-energy-consumption heat-insulation section bar and a heat-insulation window, wherein the low-energy-consumption heat-insulation section bar comprises a first section bar and a second section bar which are oppositely arranged, and a decoration strip arranged between the first section bar and the second section bar, the first section bar comprises a first connecting wall which is arranged towards the second section bar, the second section bar comprises a second connecting wall which is arranged towards the first section bar, the first end of the decoration strip is detachably connected with the first connecting wall, the second end of the decoration strip is detachably connected with the second connecting wall, and the decoration strip, the first connecting wall and the second connecting wall jointly enclose a heat-insulation cavity for injecting heat-insulation materials. The low-energy-consumption heat-insulation profile provided by the utility model has the advantages of low material cost, high structural strength, good stress effect, capability of being normally used in different temperature environments, no deformation, lower heat conductivity coefficient, better heat-insulation effect and capability of meeting the low-energy-consumption requirement.

Description

Low-energy-consumption heat-insulating section bar and heat-insulating window

Technical Field

The utility model relates to the technical field of heat insulation profiles, in particular to a low-energy-consumption heat insulation profile and a heat insulation window adopting the low-energy-consumption heat insulation profile.

Background

At present, aiming at the advantages of attractive appearance, good sealing performance, high strength, light weight, convenient installation and the like of the aluminum alloy section, the aluminum alloy section also provides higher and higher requirements on the heat insulation performance of the aluminum alloy section. The traditional aluminum alloy section is generally formed by assembling an indoor section, an outdoor section and a heat insulation strip, and the heat insulation strip is utilized to obstruct heat transfer between the indoor section and the outdoor section to achieve the heat insulation effect when the indoor section and the outdoor section are connected into a whole.

For example, the high-strength decorative door and window aluminum profile provided by the Chinese patent No. CN215169227U comprises a left body and a right body, wherein a heat insulation strip is clamped between the left body and the right body, and the heat insulation strip is made of nylon 66. However, although the structure can achieve a certain heat insulation effect, the left body and the right body are only connected and stressed by the heat insulation strips, the heat insulation strips with larger thickness and larger strength are required to be configured, the material cost is high, the heat conductivity coefficient of the heat insulation strips can be influenced, the heat insulation effect is reduced, more importantly, the aluminum alloy section is widely applied to the energy-saving building industry, the requirements on building energy conservation in China are higher and higher, and along with the formulation of the carbon-to-peak carbon neutralization target, the section for large-scale configuration of the nylon 66 heat insulation strips is difficult to achieve the low energy consumption requirement.

Disclosure of utility model

The utility model provides a low-energy-consumption heat-insulation section bar for solving the technical problems that the heat-insulation structure of the existing section bar is high in cost and poor in heat-insulation effect, and the low-energy-consumption requirement cannot be met.

The utility model also provides a heat insulation window, which adopts the low-energy-consumption heat insulation section bar.

According to a first aspect of the utility model there is provided a low energy consumption thermal insulation profile comprising a first profile and a second profile arranged in opposition, and a decorative strip arranged between the first profile and the second profile, the first profile comprising a first connecting wall arranged towards the second profile, the second profile comprising a second connecting wall arranged towards the first profile, a first end of the decorative strip being detachably connected to the first connecting wall, a second end of the decorative strip being detachably connected to the second connecting wall, the decorative strip and the first connecting wall, the second connecting wall together enclosing a thermal insulation cavity for injection of thermal insulation material.

Preferably, a saw tooth structure for attaching the heat insulation material is arranged on the first connecting wall and/or the second connecting wall.

Preferably, the first connecting wall and/or the second connecting wall are/is provided with T-shaped barbs.

Preferably, the T-shaped barb comprises a mounting plate and a barb plate, the mounting plate is arranged along the connecting line direction of the first connecting wall and the second connecting wall, the first end of the mounting plate is connected with the first connecting wall or the second connecting wall, and the barb plate is arranged at the second end of the mounting plate and is vertical to the mounting plate.

Preferably, the first connecting wall and/or the second connecting wall are/is provided with a containing groove, and the T-shaped barb is arranged in the containing groove.

Preferably, the first connecting wall and/or the second connecting wall are/is provided with a connecting groove, the decorative strip comprises a decorative panel and a mounting strip connected with the decorative panel and adapted to the connecting groove, and the decorative strip penetrates into the connecting groove through the mounting strip so as to be connected and fixed relative to the connecting groove.

Preferably, the cross section of the connecting groove is a round hole with an opening, the mounting strip comprises a cylindrical strip matched with the round hole and a connecting strip connected with one side of the cylindrical strip, and one end, away from the cylindrical strip, of the connecting strip is connected with the decoration panel.

Preferably, the connecting groove comprises an arc-shaped flange extending along the opening, and the connecting strip is provided with an arc-shaped sealing groove matched with the arc-shaped flange.

Preferably, a clamping groove for clamping the adhesive tape is formed in one surface, away from the heat insulation cavity, of the decorative strip.

According to a second aspect of the present utility model there is also provided a thermal insulation window comprising a window frame and a sash mounted on the window frame, the window frame comprising a low energy consumption thermal insulation profile as described above.

The utility model has the following beneficial effects:

In the low-energy-consumption heat-insulating section bar provided by the utility model, the heat-insulating cavity for injecting the heat-insulating material is formed by enclosing the first connecting wall of the first section bar and the second connecting wall of the second section bar through the decorative strip, and particularly, the hard polyurethane foaming material can be injected into the heat-insulating cavity, and the first section bar and the second section bar are connected into a whole through the hard polyurethane foaming to realize the heat-insulating effect. Secondly, enclose between first section bar and second section bar through the ornamental strip and close and form thermal-insulated chamber, not only make things convenient for thermal-insulated material injection molding, can also utilize the ornamental strip to shelter from the thermal-insulated material in the thermal-insulated chamber, avoid thermal-insulated material directly exposing, elegant appearance more can also avoid thermal-insulated material to be destroyed by the corruption and influence result of use, moreover because the ornamental strip can be dismantled with first linking wall and second linking wall respectively and be connected, the ornamental strip of different specifications can be nimble dismouting change, different user demands are satisfied.

In addition to the objects, features and advantages described above, the present utility model has other objects, features and advantages. The present utility model will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

Fig. 1 is an end-face structure schematic diagram of a low-energy-consumption heat insulation section provided by an embodiment of the utility model;

FIG. 2 is an exploded view of the low energy consumption insulating profile shown in FIG. 1;

fig. 3 is an enlarged view of a portion of region a of the low energy insulating profile shown in fig. 1.

Legend description:

1. Low energy consumption heat insulation section bar; 11. a first profile; 111. a first connecting wall; 12. a second profile; 121. a second connecting wall; 13. a decorative strip; 131. a decorative panel; 1311. a clamping groove; 132. a mounting bar; 1321. an arc-shaped sealing groove; 14. a heat insulating chamber; 15. a saw tooth structure; 16. t-shaped barbs; 161. a mounting plate; 162. a barb plate; 17. a receiving groove; 18. a connecting groove; 181. an arcuate flange; 2. a thermal insulation material.

Detailed Description

Embodiments of the utility model are described in detail below with reference to the attached drawing figures, but the utility model can be practiced in a number of different ways, as defined and covered below.

Fig. 1 to 3 together show a low-energy-consumption heat-insulation section bar provided by the embodiment of the utility model, which is used for splicing to form section bar frames needing heat insulation such as door frames, window frames and the like, has low structural cost and good heat insulation effect, and can meet the requirement of low energy consumption.

As shown in fig. 1, the low-energy-consumption heat-insulating profile 1 comprises a first profile 11 and a second profile 12 which are oppositely arranged, and a decoration strip 13 arranged between the first profile 11 and the second profile 12, wherein the first profile 11 comprises a first connecting wall 111 arranged towards the second profile 12, the second profile 12 comprises a second connecting wall 121 arranged towards the first profile 11, a first end of the decoration strip 13 is detachably connected with the first connecting wall 111, a second end of the decoration strip 13 is detachably connected with the second connecting wall 121, and the decoration strip 13, the first connecting wall 111 and the second connecting wall 121 jointly enclose a heat-insulating cavity 14, and the heat-insulating cavity 14 is used for injecting the heat-insulating material 2.

The low-energy-consumption heat insulation section bar 1 is enclosed between the first connecting wall 111 of the first section bar 11 and the second connecting wall 121 of the second section bar 12 through the decoration strip 13 to form a heat insulation cavity 14 for injecting the heat insulation material 2, specifically, hard polyurethane foaming materials can be injected into the heat insulation cavity 14, the first section bar 11 and the second section bar 12 are connected into a whole through the hard polyurethane foaming materials and realize heat insulation, compared with the traditional nylon heat insulation strip, the heat insulation strip is lower in material cost, higher in structural strength and better in stress effect, can be normally used in different temperature environments and cannot deform, can also achieve lower heat conductivity coefficient, is better in heat insulation effect, and can meet the low-energy consumption requirement. Secondly, enclose through ornamental strip 13 first section bar 11 with enclose between the second section bar 12 and close and form thermal-insulated chamber 14, not only make things convenient for thermal-insulated material 2 injection molding, can also utilize ornamental strip 13 shelters from thermal-insulated material 2 in the thermal-insulated chamber 14 avoids thermal-insulated material 2 directly exposes, and elegant appearance still can avoid thermal-insulated material 2 is destroyed by the corruption and influences the result of use, moreover because ornamental strip 13 respectively with first connecting wall 111 with second connecting wall 121 can dismantle the connection, can nimble dismouting change ornamental strip 13 of different specifications, satisfy different user demands.

With reference to fig. 2, preferably, the first connecting wall 111 and/or the second connecting wall 121 are/is provided with a saw tooth structure 15 for attaching the heat insulation material 2, the tooth height of the saw tooth structure 15 is 1-2mm, the tooth pitch of the saw tooth structure 15 is 1-2mm, the contact area of the heat insulation material 2 on the first connecting wall 111 and/or the second connecting wall 121 can be increased by the saw tooth structure 15, the friction force is increased, the attaching effect of the heat insulation material 2 in the heat insulation cavity 14 is effectively improved, and the connection strength of the heat insulation material 2 relative to the first section bar 11 and/or the second section bar 12 is improved, so that the first section bar 11 and the second section bar 12 are tightly connected into a whole, the overall structural strength and the stress effect of the low-energy consumption heat insulation section bar 1 are improved, and the heat insulation material can adapt to higher use requirements.

Preferably, the first connecting wall 111 and/or the second connecting wall 121 are provided with T-shaped barbs 16, and the heat insulation material 2 is reversely hooked and fixed by the T-shaped barbs 16, so that the connection strength of the heat insulation material 2 relative to the first section bar 11 and/or the second section bar 12 can be further improved.

Further, the T-shaped barb 16 includes a mounting plate 161 and a barb plate 162, the mounting plate 161 is disposed along the connection line direction of the first connection wall 111 and the second connection wall 121, the first end of the mounting plate 161 is connected with the first connection wall 111 or the second connection wall 121, the barb plate 162 is disposed at the second end of the mounting plate 161 and is perpendicular to the mounting plate 161, the mounting plate 161 is connected with the middle section of the barb plate 162, so that the mounting plate 161 and the barb plate 162 together form a T-shaped structure, and the opposite ends of the barb plate 162 can be hooked and fixed with the heat insulation material 2 along the connection line direction of the first connection wall 111 and the second connection wall 121, so as to ensure the connection strength.

Further, the mounting plate 161 and/or the barb plate 162 are provided with the saw tooth structure 15, so as to promote the adhesion effect of the heat insulation material 2 on the T-shaped barb 16, and strengthen the connection.

Preferably, the first connecting wall 111 and/or the second connecting wall 121 are further provided with a receiving groove 17, the T-shaped barb 16 is disposed in the receiving groove 17, so that the receiving groove 17 is separated by the T-shaped barb 16, the contact area of the heat insulation material 2 on the first connecting wall 111 and/or the second connecting wall 121 is further increased, and protruding disposition of the T-shaped barb 16 can be avoided.

Preferably, the first connecting wall 111 and/or the second connecting wall 121 are further provided with a connecting slot 18, the decorative strip 13 includes a decorative panel 131 and a mounting strip 132 connected with the decorative panel 131 and adapted to the connecting slot 18, and the decorative strip 13 penetrates into the connecting slot 18 through the mounting strip 132 to be connected and fixed with respect to the connecting slot 18, so as to realize detachable connection of the decorative strip 13, and the connecting structure is simple and efficient.

Preferably, the cross section of the connecting groove 18 is a circular hole with an opening, the mounting bar 132 includes a cylindrical bar adapted to the circular hole and a connecting bar connected to one side of the cylindrical bar, and one end of the connecting bar away from the cylindrical bar is connected to the decorative panel 131. Namely, the mounting strip 132 and the connecting groove 18 are matched with each other through the structures of the cylindrical hole and the cylindrical strip, so that the connection is tighter, and the communication paths of the two opposite sides of the decorative strip 13 can be prolonged through the circular arc structure of the cylindrical strip, thereby improving the sealing effect of the decorative strip 13 relative to the first connecting wall 111 and/or the second connecting wall 121, and avoiding the glue overflow phenomenon during the injection of the heat insulation material 2.

More preferably, referring to fig. 3, the connecting groove 18 includes an arc-shaped flange 181 extending along the opening, and the connecting strip is provided with an arc-shaped sealing groove 1321 adapted to the arc-shaped flange 181, and the sealing effect of the decorative strip 13 with respect to the first connecting wall 111 and/or the second connecting wall 121 is further enhanced by the close fit between the arc-shaped flange 181 and the arc-shaped sealing groove 1321, so as to avoid glue overflow.

As shown in fig. 2, further, a clamping groove 1311 is provided on a surface of the decorative strip 13 away from the heat insulation cavity 14, the clamping groove 1311 is provided on the decorative panel 131 and used for clamping an isobaric adhesive tape, a sealing adhesive tape, a water retaining adhesive tape and the like, which can be specifically clamped on the clamping groove 1311, so as to meet different use requirements, solve the problem that the heat insulation material 2 cannot be grooved and provided with the adhesive tape, and have stronger applicability.

As a second aspect, embodiments of the present utility model also provide a thermal insulation window (not shown in the figures, the same applies below) comprising a window frame comprising the low energy consumption thermal insulation profile 1 described above and a sash mounted on the window frame.

Because the window frame is assembled by the low-energy-consumption heat insulation profile 1, the material cost is lower, the structural strength is higher, the stress effect is better, the window frame can be normally used under different temperature environments and cannot deform, the lower heat conductivity coefficient can be achieved, the heat insulation effect is better, and meanwhile, the low-energy consumption requirement can be met.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The utility model provides a low energy consumption thermal-insulated section bar, its characterized in that includes first section bar (11) and second section bar (12) of relative setting, and locates ornamental strip (13) between first section bar (11) with second section bar (12), first section bar (11) are including orientation first linking wall (111) that second section bar (12) set up, second section bar (12) are including orientation second linking wall (121) that first section bar (11) set up, ornamental strip (13) first end with first linking wall (111) can dismantle the connection, ornamental strip (13) second end with second linking wall (121) can dismantle the connection, ornamental strip (13) with first linking wall (111) second linking wall (121) enclose jointly and form thermal-insulated chamber (14) that are used for injecting thermal-insulated material (2).

2. Low-energy heat-insulating profile according to claim 1, characterized in that the first connecting wall (111) and/or the second connecting wall (121) are provided with a saw-tooth structure (15) for attaching the heat-insulating material (2).

3. Low energy consumption heat insulation profile according to claim 1, characterized in that the first connecting wall (111) and/or the second connecting wall (121) are provided with T-shaped barbs (16).

4. A low energy consumption heat insulating profile according to claim 3, characterized in that the T-shaped barb (16) comprises a mounting plate (161) and a barb plate (162), the mounting plate (161) is arranged along the connecting line direction of the first connecting wall (111) and the second connecting wall (121), the first end of the mounting plate (161) is connected with the first connecting wall (111) or the second connecting wall (121), and the barb plate (162) is arranged at the second end of the mounting plate (161) and is vertical to the mounting plate (161).

5. The low energy consumption heat insulation profile according to claim 3 or 4, characterized in that the first connecting wall (111) and/or the second connecting wall (121) are provided with receiving grooves (17), and the T-shaped barbs (16) are arranged in the receiving grooves (17).

6. The low-energy-consumption heat-insulating profile according to claim 1, characterized in that the first connecting wall (111) and/or the second connecting wall (121) are/is provided with a connecting groove (18), the decorative strip (13) comprises a decorative panel (131) and a mounting strip (132) connected with the decorative panel (131) and adapted to the connecting groove (18), and the decorative strip (13) penetrates into the connecting groove (18) through the mounting strip (132) so as to be connected and fixed relative to the connecting groove (18).

7. The low energy consumption heat insulation profile according to claim 6, characterized in that the cross section of the connecting groove (18) is a round hole with an opening, the mounting bar (132) comprises a cylindrical bar adapted to the round hole and a connecting bar connected to one side of the cylindrical bar, and the end of the connecting bar remote from the cylindrical bar is connected to the decorative panel (131).

8. The low-energy-consumption heat-insulating profile according to claim 7, wherein the connecting groove (18) comprises an arc-shaped flange (181) extending along the opening, and the connecting strip is provided with an arc-shaped sealing groove (1321) matched with the arc-shaped flange (181).

9. The low-energy-consumption heat-insulating profile according to claim 1, characterized in that a clamping groove (1311) for clamping a rubber strip is formed in one surface of the decorative strip (13) away from the heat-insulating cavity (14).

10. A thermal insulation window comprising a window frame and a sash mounted on the window frame, characterized in that the window frame comprises a low energy consumption thermal insulation profile according to any one of claims 1 to 9.