CN219412426U

CN219412426U - Heat-insulating aluminum alloy door and window

Info

Publication number: CN219412426U
Application number: CN202320835585.3U
Authority: CN
Inventors: 刘鹏; 王沛瑶; 王玲
Original assignee: Qingdao Zhitong Home Decoration Engineering Co ltd
Current assignee: Qingdao Zhitong Home Decoration Engineering Co ltd
Priority date: 2023-04-14
Filing date: 2023-04-14
Publication date: 2023-07-25
Anticipated expiration: 2033-04-14

Abstract

The utility model discloses a heat-insulating aluminum alloy door and window, which relates to the field of aluminum alloy doors and windows, and comprises an aluminum alloy frame, wherein vacuum glass is fixedly arranged in the aluminum alloy frame, a winding drum is movably arranged on the vacuum glass, a storage bin is arranged on the winding drum, a rotating roller is rotatably arranged on the inner wall of the storage bin, a piece of sun-shading cloth is fixedly arranged on the rotating roller, one end of the sun-shading cloth extends out of the storage bin and is parallel to the vacuum glass, positioning structures are arranged at two ends of the winding drum, and the positioning structures are matched with the inner wall of the aluminum alloy frame. According to the utility model, through the arrangement of the winding drum and the sun-shading cloth, when sunlight is strong, the sun-shading cloth in the winding drum can be released, and the sunlight is directly shaded by the sun-shading cloth, so that the heat spreading in a sunlight box room is reduced, the effect of physical heat insulation and heat prevention is realized, sunlight resources are fully utilized, the photovoltaic panel is used for converting light energy into electric energy and storing the electric energy in the storage battery, and the electric energy is provided for a driving motor for use, and the solar energy box is more environment-friendly.

Description

Heat-insulating aluminum alloy door and window

Technical Field

The utility model relates to the technical field of aluminum alloy doors and windows, in particular to a heat-insulating aluminum alloy door and window.

Background

The aluminium alloy door and window is made of aluminium alloy extruded section as frame, stile and leaf material.

In the prior art, heat-proof and heat-insulating measures of the aluminum alloy door and window mainly realize heat transmitted through a gas medium through a vacuum layer of vacuum glass, but a large amount of infrared light is also arranged in sunlight, and the heat cannot be isolated by the vacuum glass in a light mode, so that the heat-insulating aluminum alloy door and window is required to meet the demands of people.

Disclosure of Invention

The utility model aims to provide a heat-insulating aluminum alloy door and window, which solves the problem that the vacuum glass cannot isolate heat of the type because a large amount of infrared light is also arranged in sunlight and the heat is transmitted in a light mode in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a heat-insulating aluminum alloy door and window, includes the aluminum alloy frame, fixed mounting has vacuum glass in the aluminum alloy frame, and movable mounting has the receipts reel on the vacuum glass, has seted up the storage bin on the receipts reel, rotates on the inner wall of storage bin and installs the rotor, and fixed mounting has the puggaree on the rotor, and the one end of puggaree extends the storage bin outward and is parallel with vacuum glass, location structure is all installed at the both ends of receipts reel, location structure and the inner wall looks adaptation of aluminum alloy frame.

Preferably: the top side fixed mounting of receipts reel has drive assembly, and the one side fixed mounting that the receipts reel is close to vacuum glass has photovoltaic board, photovoltaic board and photovoltaic board electric connection, and drive assembly internal fixation has the battery, battery and photovoltaic board adaptation.

Preferably: the bottom side of the sun-shading cloth is fixedly provided with a counterweight rod, and the counterweight rod is matched with the winding drum.

Preferably: the driving assembly is internally and fixedly provided with a driving motor, the output end of the driving motor is fixedly provided with a driving wheel, and the driving wheel and the rotating roller are movably sleeved with the same driving belt.

Preferably: the positioning structure comprises a mounting block and a connecting block, wherein the mounting block is mounted on the inner wall of the aluminum alloy frame, and the connecting block is movably mounted at one end of the winding drum.

Preferably: clamping grooves are formed in the inner walls of the two sides of the mounting block, the same clamping block is mounted in the two clamping grooves in a sliding mode, and the two clamping blocks are fixedly mounted on the connecting block.

Preferably: the connecting block is close to the one end of receipts reel and has seted up the spread groove, and slidable mounting has the connecting axle in the spread groove, and connecting axle fixed mounting is in the side of receipts reel.

Preferably: the mounting block is rotatably provided with a limiting rod, the limiting rod is matched with the connecting block, the limiting rod is provided with a rotating hole, a rotating shaft is rotatably arranged in the rotating hole, and the rotating shaft is fixedly arranged on the mounting block.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the winding drum and the sun-shading cloth, when sunlight is strong, the sun-shading cloth in the winding drum can be released, and the sunlight is directly shaded by the sun-shading cloth, so that the heat spreading in a sunlight box room is reduced, and the physical heat insulation and heat prevention effects are realized.

According to the utility model, through the arrangement of the photovoltaic plate and the driving assembly, sunlight resources are fully utilized, the photovoltaic plate is used for converting light energy into electric energy and storing the electric energy in the storage battery, and the electric energy is provided for the driving motor for use, so that the device does not need an external power supply, and is more environment-friendly.

Drawings

Fig. 1 is a schematic perspective view of a heat-insulating aluminum alloy door and window according to the present utility model;

fig. 2 is a schematic top view of a fixing structure part of a heat-insulating aluminum alloy door and window according to the present utility model;

fig. 3 is a schematic cross-sectional structural view of a heat-insulating aluminum alloy door and window according to the present utility model;

fig. 4 is a schematic structural view of a winding drum portion of a heat-insulating aluminum alloy door and window according to the present utility model.

In the figure: 100. an aluminum alloy frame; 101. vacuum glass; 200. winding up a winding drum; 201. a storage bin; 202. a rotating roller; 203. sunshade cloth; 204. a weight bar; 300. a drive assembly; 301. a photovoltaic panel; 302. a storage battery; 303. a driving motor; 304. a driving wheel; 305. a drive belt; 400. a mounting block; 401. a connecting block; 402. a clamping groove; 403. a clamping block; 404. a limit rod; 405. a rotation hole; 406. a rotating shaft; 407. a connecting groove; 408. and a connecting shaft.

Detailed Description

In order to more clearly illustrate the technical solution of the present utility model, it is obvious that the following description of the present utility model is provided by way of example only, and it is within the scope of the present utility model to one skilled in the art to obtain other embodiments according to the present utility model without inventive effort.

Referring to fig. 1 to 4, a heat-insulating aluminum alloy door and window comprises an aluminum alloy frame 100, a vacuum glass 101 is fixedly installed in the aluminum alloy frame 100, a winding drum 200 is movably installed on the vacuum glass 101, a storage bin 201 is arranged on the winding drum 200, a rotating roller 202 is rotatably installed on the inner wall of the storage bin 201, a sun-shading cloth 203 is fixedly installed on the rotating roller 202, one end of the sun-shading cloth 203 extends out of the storage bin 201 and is parallel to the vacuum glass 101, positioning structures are installed at two ends of the winding drum 200 and are matched with the inner wall of the aluminum alloy frame 100, when the heat-insulating aluminum alloy door and window is used, two installation blocks 400 are firstly required to be installed on the inner wall of the aluminum alloy frame 100, then connecting blocks 401 at two ends of the winding drum 200 are adjusted to proper positions through connecting grooves 407 and connecting shafts 408, the connecting blocks 401 and clamping blocks 403 are installed in the connecting blocks 401 on the installation blocks 400, the installation of the winding drum 200 can be completed by rotating the limiting rod 404 through the rotating hole 405 and the rotating shaft 406, the installation of the winding drum 200 can be completed by fixing the position of the connecting block 401, sunlight resources are fully utilized, the photovoltaic panel 301 is used for converting light energy into electric energy and storing the electric energy in the storage battery 302, the electric energy is provided for the driving motor 303, an external power supply is not needed for the device, the driving motor 303 is more environment-friendly, the driving motor 303 drives the driving wheel 304 to rotate, the rotating roller 202 is driven to rotate through the driving belt 305, the rotating roller 202 releases the sun-shading cloth 203 to the outside, the vertical direction is ensured through pulling of the weight rod 204, sunlight is directly shaded by the sun-shading cloth 203, accordingly, the indoor heat spreading of the sun-shading drum is reduced, the physical heat insulation and heat prevention effects are achieved, and meanwhile, the weight rod 204 can avoid excessive shrinkage of the sun-shading cloth 203 during winding.

Further, a driving assembly 300 is fixedly installed on the top side of the winding drum 200, a photovoltaic panel 301 is fixedly installed on one side, close to the vacuum glass 101, of the winding drum 200, the photovoltaic panel 301 is electrically connected with the photovoltaic panel 301, a storage battery 302 is fixedly installed in the driving assembly 300, and the storage battery 302 is matched with the photovoltaic panel 301.

It should be noted that, fully utilize the sunshine resource, use photovoltaic board 301 to convert light energy into electric energy and store in battery 302, provide driving motor 303 for use for the device need not external power, more environmental protection.

Further, a counterweight rod 204 is fixedly installed at the bottom side of the sun-shading cloth 203, and the counterweight rod 204 is matched with the winding drum 200.

The weight rod 204 can prevent the sunshade cloth 203 from being excessively contracted when the sunshade cloth is wound up.

Further, a driving motor 303 is fixedly installed in the driving assembly 300, a driving wheel 304 is fixedly installed at the output end of the driving motor 303, and the driving wheel 304 and the rotating roller 202 are movably sleeved with the same driving belt 305.

The driving wheel 304 is driven to rotate by the driving motor 303, the rotating roller 202 is driven to rotate by the driving belt 305, the rotating roller 202 releases the sun-shading cloth 203 to the outside, the sun-shading cloth 203 directly shields the sun by pulling the weight lever 204 to ensure the vertical direction.

Further, the positioning structure comprises a mounting block 400 and a connecting block 401, wherein the mounting block 400 is mounted on the inner wall of the aluminum alloy frame 100, and the connecting block 401 is movably mounted at one end of the winding drum 200.

The connection blocks 401 at both ends of the winding drum 200 are adjusted to appropriate positions by the connection grooves 407 and the connection shafts 408, and the connection blocks 401 and the fixture blocks 403 are mounted in the connection blocks 401 on the mounting blocks 400, so that the connection between the mounting blocks 400 and the connection blocks 401 is achieved.

Further, clamping grooves 402 are formed in the inner walls of the two sides of the mounting block 400, the same clamping block 403 is slidably mounted in the two clamping grooves 402, and the two clamping blocks 403 are fixedly mounted on the connecting block 401.

Further, a connecting slot 407 is formed at one end of the connecting block 401 near the winding drum 200, a connecting shaft 408 is slidably mounted in the connecting slot 407, and the connecting shaft 408 is fixedly mounted on the side surface of the winding drum 200.

The connection block 401 is adjusted to a proper position by the connection slot 407 and the connection shaft 408, so as to adapt to the specifications of different aluminum alloy frames 100.

Further, the mounting block 400 is rotatably provided with a stop lever 404, the stop lever 404 is adapted to the connection block 401, a rotation hole 405 is formed in the stop lever 404, a rotation shaft 406 is rotatably mounted in the rotation hole 405, the rotation shaft 406 is fixedly mounted on the mounting block 400, the stop lever 404 is rotated by the rotation hole 405 and the rotation shaft 406, the position of the connection block 401 is fixed, and the mounting of the winding drum 200 can be completed.

The working principle of the utility model is as follows:

when the device is used, firstly, two mounting blocks 400 are required to be mounted on the inner wall of the aluminum alloy frame 100, then, connecting blocks 401 at two ends of the winding drum 200 are adjusted to proper positions through connecting grooves 407 and connecting shafts 408, the connecting blocks 401 and clamping blocks 403 are mounted in the connecting blocks 401 on the mounting blocks 400, connection of the mounting blocks 400 and the connecting blocks 401 is achieved, at the moment, the positions of the connecting blocks 401 are fixed by utilizing rotating holes 405 and rotating shafts 406 to rotate limiting rods 404, the winding drum 200 can be mounted, sunlight resources are fully utilized, light energy is converted into electric energy by using photovoltaic panels 301 and stored in storage batteries 302, the electric energy is provided for driving motors 303, an external power supply is not required, the device is more environment-friendly, driving wheels 304 are driven to rotate by driving belts 305, rotating rollers 202 release sun-shading cloth 203 outwards, vertical is ensured by pulling of weight rods 204, sunlight is directly shielded by utilizing the sun-shading cloth 203, the effect of physical heat insulation and heat prevention is achieved, and meanwhile, the sun-shading cloth 203 can be prevented from excessively shrinking when being wound by the weight rods 204.

The above embodiments are only exemplary embodiments of the present utility model and are not intended to limit the present utility model, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this utility model will occur to those skilled in the art, and are intended to be within the spirit and scope of the utility model.

Claims

1. The utility model provides a heat-insulating aluminum alloy door and window, includes aluminum alloy frame (100), its characterized in that: the vacuum glass winding device is characterized in that vacuum glass (101) is fixedly installed in the aluminum alloy frame (100), a winding drum (200) is movably installed on the vacuum glass (101), a storage bin (201) is arranged on the winding drum (200), a rotating roller (202) is rotatably installed on the inner wall of the storage bin (201), sun-shading cloth (203) is fixedly installed on the rotating roller (202), one end of the sun-shading cloth (203) extends out of the storage bin (201) and is parallel to the vacuum glass (101), and positioning structures are installed at two ends of the winding drum (200) and are matched with the inner wall of the aluminum alloy frame (100).

2. The heat-insulating aluminum alloy door and window according to claim 1, wherein: the solar photovoltaic winding device is characterized in that a driving assembly (300) is fixedly arranged on the top side of the winding drum (200), a photovoltaic plate (301) is fixedly arranged on one side, close to the vacuum glass (101), of the winding drum (200), the photovoltaic plate (301) is electrically connected with the photovoltaic plate (301), a storage battery (302) is fixedly arranged in the driving assembly (300), and the storage battery (302) is matched with the photovoltaic plate (301).

3. The heat-insulating aluminum alloy door and window according to claim 1, wherein: the bottom side of the sun-shading cloth (203) is fixedly provided with a counterweight rod (204), and the counterweight rod (204) is matched with the winding drum (200).

4. The heat-insulating aluminum alloy door and window according to claim 2, wherein: a driving motor (303) is fixedly arranged in the driving assembly (300), a driving wheel (304) is fixedly arranged at the output end of the driving motor (303), and the driving wheel (304) and the rotating roller (202) are movably sleeved with the same driving belt (305).

5. The heat-insulating aluminum alloy door and window according to claim 1, wherein: the positioning structure comprises a mounting block (400) and a connecting block (401), wherein the mounting block (400) is mounted on the inner wall of the aluminum alloy frame (100), and the connecting block (401) is movably mounted at one end of the winding drum (200).

6. The heat-insulating aluminum alloy door and window according to claim 5, wherein: clamping grooves (402) are formed in the inner walls of two sides of the mounting block (400), the same clamping block (403) is slidably mounted in the two clamping grooves (402), and the two clamping blocks (403) are fixedly mounted on the connecting block (401).

7. The heat-insulating aluminum alloy door and window according to claim 5, wherein: one end of the connecting block (401) close to the winding drum (200) is provided with a connecting groove (407), a connecting shaft (408) is slidably arranged in the connecting groove (407), and the connecting shaft (408) is fixedly arranged on the side face of the winding drum (200).

8. The heat-insulating aluminum alloy door and window according to claim 5, wherein: the mounting block (400) is rotatably provided with a limiting rod (404), the limiting rod (404) is matched with the connecting block (401), the limiting rod (404) is provided with a rotating hole (405), the rotating hole (405) is rotatably provided with a rotating shaft (406), and the rotating shaft (406) is fixedly arranged on the mounting block (400).