CN219344520U

CN219344520U - Heat-preserving heat-insulating energy-saving window

Info

Publication number: CN219344520U
Application number: CN202320033544.2U
Authority: CN
Inventors: 王传荣; 潘柯
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-01-06
Filing date: 2023-01-06
Publication date: 2023-07-14
Anticipated expiration: 2033-01-06

Abstract

The application discloses a heat-insulating energy-saving window, which comprises two layers of window frames, namely an inner window frame and an outer window frame, wherein the upper end and the lower end of the inner window frame are respectively connected with each other in a sealing way through a heat-insulating bridge cut-off way, and a heat-insulating material is attached in the inner window frame; the heat-insulating energy-saving window also comprises a curtain box, the curtain box comprises a curtain box panel, a heat-insulating material is attached to one side, facing the outer window frame, of the curtain box panel, the curtain box panel is embedded into the outer side of the inner window frame, and the top and the bottom of the curtain box panel are uniformly connected with the inner window frame in a sealing mode. Has the following advantages: the inner layer, the hollow and the heat-insulating surface with the heat-insulating function are adopted, so that the purposes of replacing and maintaining the curtain and efficiently insulating the whole window are finally achieved, and the efficient heat-insulating effect is realized.

Description

Heat-preserving heat-insulating energy-saving window

Technical Field

The utility model relates to a heat-insulating energy-saving window, and relates to the technical field of building doors and windows.

Background

In order to shield the sun directly in summer and preserve heat and save energy in winter, currently, a window product with a built-in sunshade hollow glass product is available, but a sunshade part (curtain) of the window product is arranged in an interlayer between two layers of glass, and the window product cannot be replaced and maintained.

The patent number 202121147100.9 discloses a combined heat-insulating window, after a detachable curtain box and vacuum glass are adopted, the curtain can be conveniently replaced and maintained, but due to the arrangement of the curtain box, the structure of the whole window is greatly changed, firstly, the heat transfer coefficient (more than 2.0 w/square meter K) of the panel, the window frame and other parts of the curtain box is very high, the sealing structure of the curtain box is also not tight, and the influence on the heat transfer coefficient of the whole window is very large; secondly, the rear plate of the curtain box does not have a curtain to shield sunlight, so that heat is directly shone on the plate; thirdly, the whole window is made of the vacuum glass which is an expensive material, and then an inner window frame and an outer window frame are adopted, so that the heat preservation and heat insulation layer design of the whole window is lacked, and the heat preservation and heat insulation effect of the energy-saving window is reduced after the curtain box is added, and the efficient heat preservation and heat insulation effect cannot be completely realized.

Disclosure of Invention

The utility model aims to solve the technical problems, and provides the heat-insulating energy-saving window, which adopts measures such as an inner layer, a hollow part, a heat-reflecting surface and the like with heat-insulating functions, finally achieves the purposes of replacing a maintenance curtain and realizing high-efficiency heat insulation of the whole window, and achieves the high-efficiency heat-insulating effect.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the heat-insulating energy-saving window comprises two layers of window frames, namely an inner window frame and an outer window frame, wherein the upper end and the lower end of the inner window frame are respectively connected with each other in a sealing way through a heat-insulating bridge cut-off, and a heat-insulating material is attached in the inner window frame;

the heat-insulating energy-saving window also comprises a curtain box, the curtain box comprises a curtain box panel, a heat-insulating material is attached to one side, facing the outer window frame, of the curtain box panel, the curtain box panel is embedded into the outer side of the inner window frame, and the top and the bottom of the curtain box panel are uniformly connected with the inner window frame in a sealing mode.

Further, the vacuum glass is arranged in the inner window frame, the single-layer glass is arranged in the outer window frame, and the whole window airtight hollow part of the energy-saving window is formed by the inner window frame, the outer window frame, the single-layer glass, the vacuum glass and the heat insulation broken bridge.

Further, the curtain box is detachably arranged on the upper part of the window frame and is embedded into the airtight hollow part of the whole window.

Further, a motor and a blind are arranged in the curtain box, the blind is arranged between the inner window frame and the outer window frame, and the motor drives the blind to retract and put down.

Further, a sealing ring is arranged at the joint part of the curtain box panel and the inner layer window frame, and the sealing ring is pressed and sealed by pressing nails.

Further, the curtain box further comprises a curtain box back plate, wherein the curtain box back plate is positioned in the closed hollow part of the whole window, and the curtain box back plate and the curtain box panel are oppositely arranged.

Furthermore, an additional surface is arranged on one side of the rear plate of the curtain box, which faces the outer window frame, and a heat-reflecting material is attached to one side of the additional surface and the side of the blind, which faces the outer window frame.

Further, a photovoltaic power generation plate is arranged on the additional surface and used for charging a battery of the motor.

Compared with the prior art, the utility model has the following technical effects:

the inner layer, the hollow and the heat-insulating surface with heat-insulating functions are adopted, so that the purposes of replacing the maintenance curtain and efficiently insulating the whole window are finally achieved, the efficient heat-insulating effect is realized, and the photovoltaic surface can be arranged for charging the motor of the blind.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

Fig. 1 and 2 are schematic structural views of a thermal insulation energy-saving window according to the present utility model;

FIG. 3 is a schematic view of a window covering box according to the present utility model;

fig. 4 is a schematic view of the structure of the back of the curtain box in the present utility model.

Detailed Description

Embodiment 1, as shown in fig. 1 to 4, a heat-insulating energy-saving window comprises two layers of window frames, namely an inner window frame 12-1 and an outer window frame 12-2, wherein the upper end and the lower end of the inner window frame 12-1 and the lower end of the outer window frame 12-2 are respectively connected in a sealing manner through a heat-insulating bridge cut-off 13, a vacuum glass 9 is arranged in the inner window frame 12-1, a single-layer glass 10 is arranged in the outer window frame 12-2, a heat-insulating material 2 is attached in the inner window frame 12-1, and a whole window airtight hollow part of the energy-saving window is enclosed by the inner window frame 12-2, the single-layer glass 10, the vacuum glass 9 and the heat-insulating bridge cut-off 13.

The heat-insulating energy-saving window further comprises a curtain box 1, the curtain box 1 is detachably arranged on the upper portion of the window frame and embedded into the airtight hollow portion of the whole window, a motor 5 and a blind 6 are arranged in the curtain box 1, the blind 6 is arranged between the inner window frame 12-1 and the outer window frame 12-2, and the motor 5 drives the blind 6 to retract and put down.

The curtain box 1 comprises a curtain box panel 7, a heat insulation material 2 is attached to one side, facing the outer layer window frame 12-2, of the curtain box panel 7, the curtain box panel 7 is embedded into the outer side of the inner layer window frame 12-1, the top and the bottom of the curtain box panel 7 are uniformly and hermetically connected with the inner layer window frame 12-1, a sealing ring 3 is arranged at the joint part of the curtain box panel 7 and the inner layer window frame 12-1, and the curtain box is tightly sealed by adopting a pressing nail 8.

The curtain box 1 further comprises a curtain box back plate 4, the curtain box back plate 4 is positioned in the closed hollow part of the whole window, the curtain box back plate 4 and the curtain box panel 7 are oppositely arranged, an additional surface 4-1 is arranged on one side of the curtain box back plate 4, which faces the outer window frame 12-2, heat reflecting materials are respectively attached to one side of the additional surface 4-1 and one side of the blind 6, which faces the outer window frame 12-2, the heat reflecting materials adopt coatings which effectively reflect heat sources such as infrared rays, the heat reflecting materials have good heat reflecting effect and poor light reflecting (visible light) effect, light pollution can be prevented, and the heat reflecting materials adopt materials existing in the prior art.

The additional surface 4-1 may also be provided with a photovoltaic power generation panel for charging the battery of the motor 5.

The vacuum glass 9 is an air glass, a hollow glass, a laminated glass, or the like.

1. The heat-insulating material 2 arranged in the curtain box panel 7 and the inner window frame 12-1 is tightly connected with the vacuum glass 9 up and down to form the inner layer of the whole window, and the heat transfer coefficient of the inner layer of the whole window can reach less than 0.7 w/square meter K as the vacuum glass and the heat-insulating material are high-efficiency heat-insulating materials, so that a first heat-insulating barrier of the whole window is formed.

2. The single-layer glass 10 and the outer window frame 12-2 form the outer layer of the whole window, the heat transfer coefficient of the single-layer glass is more than 6.0 (w/square meter K), and the window frame is not heat-insulating and heat-insulating, but the outer layer and the inner layer of the whole window form a cavity through a heat-insulating broken bridge 13, the press nails 8 and the sealing rings 3 on the curtain box panel 7 seal the curtain box opening of the whole window, and the inner layer, the outer layer and the heat-insulating broken bridge 13 of the whole window enclose a sealed cavity to form a second heat-insulating barrier of the whole window, so that the heat transfer coefficient of the whole window can reach less than 0.6 w/square meter K, and the two barriers are greatly superior to the energy-saving effect of less than 1.2 w/square meter K required by the national standard 'near zero energy consumption building technical standard'.

3. In winter, the blind curtain is retracted, the sun shines into the room through the single-layer glass and the vacuum glass, and the heat preservation and insulation barrier formed by the inner layer, the outer layer and the hollow of the whole window can keep the indoor heat, so that the effects of high efficiency and energy conservation are achieved; in summer, the window covering is put down, and heat entering the sun and the outside is reflected out through the single-layer glass 10. The rear plate 4 of the curtain box is not provided with a part of the shutter blades for shielding sunlight, an additional surface 4-1 is arranged, the additional surface can be a photovoltaic power generation surface for generating power for charging a motor battery, or a surface formed by a heat-reflecting radiation material can reflect heat, so that most of sunlight heat is reflected to the outside or absorbed by power generation, and the outer layer of the whole window is not insulated and insulated, so that little residual heat in the hollow cavity is blocked outside by an inner layer barrier, and the cooling in summer is ensured.

4. The present known technology, such as the middle blind curtain described in the industry standard "built-in sunshade hollow glass product", can be used for detecting the middle sunshade of the three-glass two-cavity glass, but the curtain with the structure can not be replaced and maintained.

The structure of the heat-insulating energy-saving window can also be applied to heat-insulating energy-saving doors.

The description of the present utility model has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a thermal-insulated energy-conserving window keeps warm, includes the window frame, and the window frame is two-layer, is inlayer window frame (12-1) and outer window frame (12-2) respectively, its characterized in that: the upper end and the lower end of the inner layer window frame (12-1) are connected with the upper end and the lower end of the outer layer window frame (12-2) in a sealing way through a heat insulation broken bridge (13), and a heat insulation material (2) is attached in the inner layer window frame (12-1);

the heat-insulating energy-saving window further comprises a curtain box (1), the curtain box (1) comprises a curtain box panel (7), a heat-insulating material (2) is attached to one side, facing the outer layer window frame (12-2), of the curtain box panel (7), the curtain box panel (7) is embedded into the outer side of the inner layer window frame (12-1), and the top and the bottom of the curtain box panel (7) are uniformly connected with the inner layer window frame (12-1) in a sealing mode.

2. The thermal insulation energy saving window of claim 1, wherein: the vacuum glass (9) is arranged in the inner layer window frame (12-1), the single-layer glass (10) is arranged in the outer layer window frame (12-2), and the whole window airtight hollow part of the energy-saving window is surrounded by the inner layer window frame (12-1), the outer layer window frame (12-2), the single-layer glass (10), the vacuum glass (9) and the heat insulation broken bridge (13).

3. The thermal insulation energy saving window of claim 2, wherein: the curtain box (1) is detachably arranged at the upper part of the window frame and is embedded into the airtight hollow part of the whole window.

4. The thermal insulation energy saving window of claim 2, wherein: the motor (5) and the blind (6) are arranged in the curtain box (1), the blind (6) is arranged between the inner layer window frame (12-1) and the outer layer window frame (12-2), and the motor (5) drives the blind (6) to retract and put down.

5. The thermal insulation energy saving window of claim 1, wherein: the joint part of the curtain box panel (7) and the inner layer window frame (12-1) is provided with a sealing ring (3), and the sealing ring is tightly pressed and sealed by a pressing nail (8).

6. The heat preservation, heat insulation and energy saving window according to claim 4, wherein: the curtain box (1) further comprises a curtain box back plate (4), the curtain box back plate (4) is positioned in the closed hollow part of the whole window, and the curtain box back plate (4) and the curtain box panel (7) are oppositely arranged.

7. The thermal insulation energy saving window of claim 6, wherein: an additional surface (4-1) is arranged on one side of the curtain box back plate (4) facing the outer window frame (12-2).

8. The thermal insulation energy saving window of claim 7, wherein: the side of the additional surface (4-1) and the side of the blind (6) facing the outer window frame (12-2) are both attached with heat-resistant materials.

9. The thermal insulation energy saving window of claim 7, wherein: the additional surface (4-1) is provided with a photovoltaic power generation plate for charging a battery of the motor (5).