阅读说明：本技术 一种长寿命节能型铝合金门窗 (Long-life energy-saving aluminum alloy door and window ) 是由 黄邦民 于 2020-06-11 设计创作，主要内容包括：本申请提供了一种长寿命节能型铝合金门窗,涉及建筑门窗技术领域。长寿命节能型铝合金门窗包括铝合金固定框架、安装框架、第一玻璃、第二玻璃、第一帘体、第二帘体、活动架、第一电机、第二电机及活动结构。第一帘体及第二帘体能够在活动结构的作用下,相对于安装框架运动,从而使得第一帘体及第二帘体能够展开并伸入活动空间及第三安装部内,从而分隔第一玻璃及第二玻璃,以起到遮光的作用,并减少室内外的热传递,进而提高保温的性能。(The application provides a long-life energy-saving aluminum alloy door and window relates to building door and window technical field. The long-life energy-saving aluminum alloy door and window comprises an aluminum alloy fixed frame, an installation frame, first glass, second glass, a first curtain body, a second curtain body, a movable frame, a first motor, a second motor and a movable structure. First curtain and second curtain can be under the effect of movable structure, for the installation frame motion to make first curtain and second curtain can expand and stretch into activity space and third installation department in, thereby separate first glass and second glass, with the effect of playing the shading, and reduce indoor outer heat transfer, and then improve heat retaining performance.)

1. The utility model provides a long-life energy-saving aluminum alloy door and window which characterized in that:

the long-life energy-saving aluminum alloy door and window comprises an aluminum alloy fixed frame, an installation frame, first glass, second glass, a first curtain body, a second curtain body, a movable frame, a first motor, a second motor and a movable structure;

the aluminum alloy fixing frame is a rectangular frame and is used for being connected with a wall body, and a mounting groove for mounting the mounting frame is formed in the rectangular inner circumferential surface of the aluminum alloy fixing frame;

the mounting frame comprises a first mounting part, a second mounting part, a third mounting part and a fourth mounting part, and the first mounting part, the second mounting part, the third mounting part and the fourth mounting part are sequentially connected end to form a rectangular outline matched with the mounting groove; the first mounting part and the third mounting part are arranged oppositely, and the second mounting part and the fourth mounting part are arranged oppositely; the first installation part, the second installation part, the third installation part and the fourth installation part are all of hollow structures, and the inner circumferential surfaces of the first installation part, the second installation part, the third installation part and the fourth installation part are all provided with a first groove body, a movable channel and a second groove body in sequence along the thickness direction;

the movable passages of the first, second, third and fourth mounting parts are respectively communicated with the inner spaces of the first, second, third and fourth mounting parts; the first groove bodies of the first installation part, the second installation part, the third installation part and the fourth installation part are sequentially communicated to be matched with the first glass, the second groove bodies of the first installation part, the second installation part, the third installation part and the fourth installation part are sequentially communicated to be matched with the second glass, the first glass and the second glass which are connected with the installation frame are separated, and an activity space communicated with the plurality of activity channels is formed between the first glass and the second glass;

the first curtain body and the second curtain body are arranged in the first mounting part; the first curtain body is accommodated with a heat insulation curtain, and the second curtain body is accommodated with a shading curtain;

the movable frame is movably arranged in the first installation part and comprises a frame body, a first installation position and a second installation position, the first installation position and the second installation position are arranged on the frame body, the first curtain body is rotatably installed at the first installation position, and the second curtain body is rotatably installed at the second installation position; the first motor and the second motor are both connected with the frame body, the first motor is connected with a rotating shaft of the first curtain body to drive the first curtain body to rotate relative to the frame body, and the second motor is connected with a rotating shaft of the second curtain body to drive the second curtain body to rotate relative to the frame body; a first limiting clamping groove and a second limiting clamping groove are formed in two ends of the frame body along the axial direction of the rotating shaft of the first curtain body; the first limiting clamping groove is used for being clamped with the movable end of the first curtain body so as to limit the movement of the movable end of the first curtain body to the first installation position, and the second limiting clamping groove is used for being clamped with the movable end of the second curtain body so as to limit the movement of the movable end of the second curtain body to the first installation position;

the movable structure comprises a third motor, a fourth motor, a first slide rail group, a second slide rail group, two first slide blocks and two second slide blocks; the first slide rail group comprises two first rails which are respectively arranged in the second mounting part and the fourth mounting part in parallel, and two ends of the two first rails are respectively positioned in the first mounting part and the third mounting part; the second slide rail group comprises two second rails which are respectively arranged in the second mounting part and the fourth mounting part in parallel, and two ends of the two second rails are respectively positioned in the first mounting part and the third mounting part; the first rail and the second rail in the second installation part or the fourth installation part are parallel and spaced; the two first sliding blocks are respectively in sliding fit with the two first tracks, and the two second sliding blocks are respectively in sliding fit with the two second tracks; the two first sliding blocks are respectively clamped with the movable end of the first curtain body positioned in the first limiting clamping groove, and the two second sliding blocks are respectively clamped with the movable end of the second curtain body positioned in the second limiting clamping groove;

the third motor is arranged in the third mounting part; the third motor is used for driving the first sliding block to move relative to the corresponding first track and is matched with the first motor so as to drive the movable end of the first curtain body to move towards the direction far away from the first installation position when the first motor rotates to release the first curtain body, so that the first curtain body is unfolded and extends into the movable space and the third installation part, the first glass and the second glass are separated, and the projection outlines of the first glass and the second glass are both located in the projection outline of the unfolded first curtain body along the thickness direction;

the fourth motor is arranged in the third mounting part; the fourth motor is used for driving the second slider is relative to the second orbital motion that corresponds, and with the cooperation of second motor, in order when the second motor rotates the release the second curtain body, drive the expansion end of second curtain body is to keeping away from the direction motion of second installation position, thereby make the second curtain body expand and stretch into activity space reaches in the third installation department, thereby separate first glass with second glass, and along the thickness direction, first glass with second glass projection profile all is located after expanding in the projection profile of second curtain body.

2. The long life energy saving aluminum alloy door and window of claim 1, wherein:

the movable structure also comprises two first lead screws arranged in the first track and two second lead screws arranged in the second track;

the two first sliding blocks are correspondingly matched with the two first lead screws respectively, and the third motor is in transmission connection with the two first lead screws so as to drive the two first lead screws to rotate through the third motor, so that the two first sliding blocks are driven to move;

the two second sliding blocks are respectively correspondingly matched with the two second lead screws, and the fourth motor is in transmission connection with the two second lead screws so as to drive the two second lead screws to rotate through the fourth motor, so that the two second sliding blocks are driven to move.

3. The long life energy saving aluminum alloy door and window of claim 1, wherein:

the first curtain body further comprises a first movable rod connected with the movable end of the first curtain body; two ends of the first movable rod are respectively abutted against the side faces, facing the third mounting part, of the two first sliding blocks;

the second curtain body further comprises a second movable rod connected with the movable end of the second curtain body; and two ends of the second movable rod are respectively abutted against the side faces of the third mounting part towards the second sliding blocks.

4. The long life energy saving aluminum alloy door and window of claim 3, wherein:

the first sliding block comprises a first position located in the first installation part and a second position located in the third installation part; when the first sliding block is located at the first position, the surface of the first movable rod, which is used for being abutted against the first sliding block, is located on one side, facing the third installation part, of the first sliding block;

the second sliding block comprises a first position located in the first mounting part and a second position located in the third mounting part; when the second sliding block is located at the first position, the surface of the second movable rod, which is used for being abutted to the second sliding block, is located on one side, facing the third installation part, of the second sliding block.

5. The long life energy saving aluminum alloy door and window of claim 1, wherein:

the first curtain body further comprises a first movable rod connected with the movable end of the first curtain body; two ends of the first movable rod are respectively clamped with the two first sliding blocks;

the second curtain body further comprises a second movable rod connected with the movable end of the second curtain body; and two ends of the second movable rod are respectively clamped with the two second sliding blocks.

6. The long life energy saving aluminum alloy door and window of claim 5, wherein:

along the thickness direction, the first sliding block is provided with a first clamping groove; the first sliding block comprises a first position located in the first installation part and a second position located in the third installation part; when the first sliding block is located at the first position, the end part of the first movable rod can slide into or out of the first clamping groove by the movable frame relative to the first installation part along the thickness direction;

the second sliding block is provided with a second clamping groove along the thickness direction; the second sliding block comprises a first position located in the first mounting part and a second position located in the third mounting part; when the second slider is in when the first position, the adjustable shelf along thickness direction for the motion of first installation department can make the tip of second movable rod slide in or the roll-off the second joint groove.

7. The long life energy saving aluminum alloy door and window of claim 6, wherein:

when the first slider and the second slider are both located at the first position, an interval is arranged between the first clamping groove and the second clamping groove.

8. The long life energy saving aluminum alloy door and window of claim 1, wherein:

the interval between the rotating axis of the first curtain body and the rotating axis of the second curtain body is a first interval;

the interval between the movable end of the first curtain body and the movable end of the second curtain body is a second interval;

the first interval is greater than the second interval.

Technical Field

The application relates to the technical field of building doors and windows, in particular to a long-life energy-saving aluminum alloy door and window.

Background

At present, the mounting structure of door and window generally adopts aluminum alloy frame cooperation single-layer glass, and the heat preservation effect of this kind of door and window structure is poor, causes a large amount of losses of indoor heat easily to it is poor to make indoor heating or refrigeration effect, and need ensure indoor heating or refrigeration effect through the mode that improves the power of heating or refrigeration.

Disclosure of Invention

The application provides a long-life energy-saving aluminum alloy door and window to improve above-mentioned problem.

The invention is particularly such that:

long-life energy-saving aluminum alloy door and window

The device comprises an aluminum alloy fixed frame, an installation frame, first glass, second glass, a first curtain body, a second curtain body, a movable frame, a first motor, a second motor and a movable structure;

the aluminum alloy fixing frame is a rectangular frame and is used for being connected with a wall body, and a mounting groove for mounting the mounting frame is formed in the rectangular inner circumferential surface of the aluminum alloy fixing frame;

the mounting frame comprises a first mounting part, a second mounting part, a third mounting part and a fourth mounting part, and the first mounting part, the second mounting part, the third mounting part and the fourth mounting part are sequentially connected end to form a rectangular outline matched with the mounting groove; the first mounting part and the third mounting part are arranged oppositely, and the second mounting part and the fourth mounting part are arranged oppositely; the first installation part, the second installation part, the third installation part and the fourth installation part are all of hollow structures, and the inner circumferential surfaces of the first installation part, the second installation part, the third installation part and the fourth installation part are all provided with a first groove body, a movable channel and a second groove body in sequence along the thickness direction;

the movable channels of the first mounting part, the second mounting part, the third mounting part and the fourth mounting part are respectively communicated with the inner spaces of the first mounting part, the second mounting part, the third mounting part and the fourth mounting part; the first groove bodies of the first installation part, the second installation part, the third installation part and the fourth installation part are sequentially communicated and used for being matched with first glass, the second groove bodies of the first installation part, the second installation part, the third installation part and the fourth installation part are sequentially communicated and used for being matched with second glass, the first glass and the second glass connected with the installation frame are spaced, and a movable space communicated with a plurality of movable channels is formed between the first glass and the second glass;

the first curtain body and the second curtain body are arranged in the first mounting part; the first curtain body is accommodated with a heat insulation curtain, and the second curtain body is accommodated with a shading curtain;

the movable frame is movably arranged in the first installation part and comprises a frame body, a first installation position and a second installation position, the first installation position and the second installation position are arranged on the frame body, the first curtain body is rotatably installed at the first installation position, and the second curtain body is rotatably installed at the second installation position; the first motor and the second motor are both connected with the frame body, the first motor is connected with a rotating shaft of the first curtain body to drive the first curtain body to rotate relative to the frame body, and the second motor is connected with a rotating shaft of the second curtain body to drive the second curtain body to rotate relative to the frame body; a first limiting clamping groove and a second limiting clamping groove are formed in the two ends of the frame body along the axial direction of the rotating shaft of the first curtain body; the first limiting clamping groove is used for being clamped with the movable end of the first curtain body to limit the movement of the movable end of the first curtain body to the first installation position, and the second limiting clamping groove is used for being clamped with the movable end of the second curtain body to limit the movement of the movable end of the second curtain body to the first installation position;

the movable structure comprises a third motor, a fourth motor, a first slide rail group, a second slide rail group, two first slide blocks and two second slide blocks; the first slide rail group comprises two first rails which are respectively arranged in the second mounting part and the fourth mounting part in parallel, and two ends of the two first rails are respectively positioned in the first mounting part and the third mounting part; the second slide rail group comprises two second rails which are respectively arranged in the second mounting part and the fourth mounting part in parallel, and two ends of the two second rails are respectively positioned in the first mounting part and the third mounting part; the first rail and the second rail which are positioned in the second mounting part or the fourth mounting part are parallel and spaced; the two first sliding blocks are respectively in sliding fit with the two first tracks, and the two second sliding blocks are respectively in sliding fit with the two second tracks; the two first sliding blocks are respectively clamped with the movable end of the first curtain body positioned in the first limiting clamping groove, and the two second sliding blocks are respectively clamped with the movable end of the second curtain body positioned in the second limiting clamping groove;

the third motor is arranged in the third mounting part; the third motor is used for driving the first sliding block to move relative to the corresponding first track and is matched with the first motor so as to drive the movable end of the first curtain body to move towards the direction far away from the first installation position when the first motor rotates to release the first curtain body, so that the first curtain body is unfolded and extends into the movable space and the third installation part to separate the first glass and the second glass, and the projection outlines of the first glass and the second glass are positioned in the projection outline of the unfolded first curtain body along the thickness direction;

the fourth motor is arranged in the third mounting part; the fourth motor is used for driving the second sliding block to move relative to the corresponding second track and is matched with the second motor, so that when the second motor rotates to release the second curtain body, the movable end of the second curtain body is driven to move in the direction away from the second installation position, the second curtain body is unfolded and stretches into the movable space and the third installation part, the first glass and the second glass are separated, and the projection outline of the first glass and the projection outline of the second glass are located in the projection outline of the unfolded second curtain body along the thickness direction.

In an embodiment of the present invention, the movable structure further includes two first lead screws disposed in the first track and two second lead screws disposed in the second track;

the two first sliding blocks are correspondingly matched with the two first lead screws respectively, and the third motor is in transmission connection with the two first lead screws so as to drive the two first lead screws to rotate through the third motor, so that the two first sliding blocks are driven to move;

the two second sliding blocks are correspondingly matched with the two second lead screws respectively, and the fourth motor is in transmission connection with the two second lead screws so as to drive the two second lead screws to rotate through the fourth motor and further drive the two second sliding blocks to move.

In one embodiment of the invention, the first curtain further comprises a first movable rod connected to the movable end of the first curtain; two ends of the first movable rod are respectively abutted against the side faces, facing the third mounting part, of the two first sliding blocks;

the second curtain body also comprises a second movable rod connected with the movable end of the second curtain body; and two ends of the second movable rod are respectively abutted against the side faces, facing the third mounting part, of the two second sliding blocks.

In one embodiment of the invention, the first slider includes a first position within the first mounting portion and a second position within the third mounting portion; when the first sliding block is at the first position, the surface of the first movable rod, which is used for being abutted against the first sliding block, is positioned on one side, facing the third mounting part, of the first sliding block;

the second sliding block comprises a first position located in the first mounting part and a second position located in the third mounting part; when the second slider is in the first position, the surface of the second movable rod, which is used for being abutted against the second slider, is positioned on one side of the second slider, which faces the third mounting part.

In one embodiment of the invention, the first curtain further comprises a first movable rod connected to the movable end of the first curtain; two ends of the first movable rod are respectively clamped with the two first sliding blocks;

the second curtain body also comprises a second movable rod connected with the movable end of the second curtain body; two ends of the second movable rod are respectively clamped with the two second sliding blocks.

In one embodiment of the invention, the first slide block is provided with a first clamping groove along the thickness direction; the first sliding block comprises a first position located in the first installation part and a second position located in the third installation part; when the first sliding block is located at the first position, the end part of the first movable rod can slide into or out of the first clamping groove by the movable frame relative to the first mounting part along the thickness direction;

the second sliding block is provided with a second clamping groove along the thickness direction; the second sliding block comprises a first position located in the first mounting part and a second position located in the third mounting part; when the second slider is in the first position, the motion of adjustable shelf for first installation department along the thickness direction can make the tip of second movable rod slide in or the roll-off second joint groove.

In an embodiment of the invention, when the first slider and the second slider are both in the first position, a space is provided between the first clamping groove and the second clamping groove.

In one embodiment of the invention, the spacing between the axis of rotation of the first curtain and the axis of rotation of the second curtain is a first spacing;

the interval between the movable end of the first curtain body and the movable end of the second curtain body is a second interval;

the first spacing is greater than the second spacing.

The invention has the beneficial effects that:

the long-life energy-saving aluminum alloy door and window comprises an aluminum alloy fixed frame, an installation frame, first glass, second glass, a first curtain body, a second curtain body, a movable frame, a first motor, a second motor and a movable structure. Wherein, first glass sets up with the second glass interval, and is formed with the activity space. The first curtain body and the second curtain body are arranged in the first mounting part; the first curtain body is accommodated with a heat insulation curtain, and the second curtain body is accommodated with a shading curtain; therefore, the indoor and outdoor heat exchange can be further reduced through the expansion or contraction of the first curtain body and the second curtain body, so that the heat preservation effect can be effectively improved, the heat exchange between the first glass and the second separated indoor and outdoor is reduced, the indoor heating or cooling efficiency can be guaranteed, and the heating or cooling power consumption is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural view of a long-life energy-saving aluminum alloy door window provided by the present application;

FIG. 2 is a schematic view of the configuration of the activity space provided by the present application;

fig. 3 is a schematic arrangement diagram of a first slide rail set and a second slide rail set provided in the present application;

fig. 4 is a schematic diagram of the arrangement of the first rail and the second rail provided in the present application;

FIG. 5 is a schematic view of the installation of a first curtain as provided herein;

FIG. 6 is a schematic view of the installation of a second curtain as provided herein.

Icon: 100-long-life energy-saving aluminum alloy doors and windows; 101-aluminum alloy fixed frame; 102-a mounting frame; 103-a first glass; 104-a second glass; 105-a first curtain; 106-a second curtain; 108-a first motor; 109-a second motor; 111-a first mounting portion; 112-a second mounting portion; 113-a third mount; 114-a fourth mounting portion; 115-activity space; 116-a third motor; 117-fourth motor; 118-a first set of slide rails; 119-a second slide rail set; 120-a first slider; 121-a second slider; 122 — a first track; 123-a second track; 124-first lead screw; 125-second lead screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present application, it should be noted that the indication of orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which is usually placed when the product of the application is used, or the orientation or positional relationship which is usually understood by those skilled in the art, or the orientation or positional relationship which is usually placed when the product of the application is used, and is only for the convenience of describing the application and simplifying the description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the application. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.