CN115559642A - A heat-insulating aluminum alloy vacuum glass energy-saving window - Google Patents

Abstract

The invention discloses a heat-insulating aluminum alloy vacuum glass energy-saving window, which relates to the technical field of energy-saving windows. The energy-saving window includes an outer frame, the inner wall of the outer frame is rotatably connected with an installation frame, and the inner wall of the installation frame is inlaid with glass. And the inner wall of the outer frame is connected with a driving mechanism through rotation, and the outer end of the driving mechanism is connected with a rotating mechanism. In the present invention, a driving mechanism and a rotating mechanism are arranged on the outer frame of the energy-saving window. By rotating the rotating mechanism, the driving mechanism rotates accordingly, so that the driving mechanism drives the installation frame inside the outer frame to rotate, and the glass can be rotated, thereby enabling By exchanging the positions of the inner glass and the outer glass, the outer glass can also be wiped, avoiding the situation that the outer glass cannot be wiped, and improving the practicability of the device.

Description

A heat-insulating aluminum alloy vacuum glass energy-saving window

technical field

The invention relates to the technical field of energy-saving windows, in particular to a heat-insulating aluminum alloy vacuum glass energy-saving window.

Background technique

A window is a hole built on the wall during construction to allow light or air to enter the room. Nowadays, in order to make the house sunny, people have gradually increased the requirements for the functions of the window. Energy-saving windows are to increase A type of door and window that has a large lighting and ventilation area or expresses the character of modern architecture. Energy-saving windows will improve the optical properties, thermal properties and sealing properties of materials, and improve the structure of windows to achieve the expected results. Most of the existing energy-saving windows are fixed in actual use. After a long time of use, there will be a lot of dust on the windows, and the windows need to be cleaned. When cleaning, the glass side outside the house is often unable to be cleaned. It needs to be cleaned. It is troublesome to disassemble, especially nowadays, most houses are usually high-rise buildings, and it is very unsafe to disassemble the windows. Therefore, we propose a heat-insulating aluminum alloy vacuum glass energy-saving window to solve such problems.

Contents of the invention

In order to overcome the troublesome problem that the window needs to be disassembled when cleaning it in the prior art, the present invention provides a heat-insulating aluminum alloy vacuum glass energy-saving window, which is convenient to use and reasonable in structure.

The technical solution adopted by the present invention to solve the technical problem is: a heat-insulating aluminum alloy vacuum glass energy-saving window, including an outer frame, the inner wall of the outer frame is rotatably connected with an installation frame, the inner wall of the installation frame is inlaid with glass, And the inner wall of the outer frame is connected with a driving mechanism through rotation, and the outer end of the driving mechanism is connected with a rotating mechanism.

In the heat-insulating aluminum alloy vacuum glass energy-saving window described above, the installation frame includes an inner frame, the upper and lower sides of the inner frame are respectively fixed with rotating shafts, and the rotating shafts are symmetrically distributed with respect to the central axis of the inner frame, and the rotating shafts The shaft runs through the outer frame and is rotatably connected with the outer frame.

In the aforementioned heat-insulating aluminum alloy vacuum glass energy-saving window, the driving mechanism includes a connecting shaft, the connecting shaft penetrates the outer frame, and a worm is installed at one end of the connecting shaft.

In the heat-insulating aluminum alloy vacuum glass energy-saving window described above, a worm wheel is provided on the outer wall of the rotating shaft on one side of the inner frame, and the worm wheel is engaged with the worm, and the worm wheel is located inside the outer frame.

In the heat-insulating aluminum alloy vacuum glass energy-saving window described above, the rotating mechanism includes a hand wheel, and a number of connecting rods are evenly distributed on one side of the hand wheel, and the outer wall of the connecting rod is provided with a circular plate, and the connecting rod The circular plate extends to the inside of the outer frame, and the outer walls of the connecting rods are respectively sleeved with springs, the springs are located inside the circular plate and one end of the spring is fixedly connected to the inner wall of the circular plate.

The above-mentioned heat-insulating aluminum alloy vacuum glass energy-saving window, the material of the glass is heat-insulating aluminum alloy vacuum glass.

The beneficial effects of the present invention are: the present invention sets a driving mechanism and a rotating mechanism on the outer frame of the energy-saving window, and by rotating the rotating mechanism, the driving mechanism rotates accordingly, so that the driving mechanism drives the installation frame inside the outer frame to rotate. The glass is rotated so that the positions of the inner glass and the outer glass can be exchanged, that is, the outdoor glass can also be wiped, avoiding the situation that the outdoor glass cannot be wiped, and improving the practicability of the device.

Description of drawings

Fig. 1 is a structural representation of a heat-insulating aluminum alloy vacuum glass energy-saving window of the present invention;

Fig. 2 is the structural representation of installation frame among the present invention;

Fig. 3 is a structural schematic diagram of the driving mechanism and the rotating mechanism in the present invention.

In the figure: 1. outer frame, 2. installation frame, 201. inner frame, 202. rotating shaft, 3. glass, 4. rotating mechanism, 401. hand wheel, 402. connecting rod, 403. spring, 404. circular plate , 5. Driving mechanism, 501. Connecting shaft, 502. Worm, 503. Worm gear.

detailed description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention. Unless otherwise defined, the technical terms or scientific terms used herein shall have the usual meanings understood by those having ordinary skill in the art to which the present disclosure belongs. "Up", "Down", "Left", "Right", "Front", "Back", "Inside" and "Outside" used in the description and claims of this patent application are only used to indicate relative positions When the absolute position of the described object changes, the relative positional relationship changes accordingly. The parts of the present invention that are not described in detail are known technologies of those skilled in the art.

As shown in Fig. 1 to Fig. 3, a heat-insulating aluminum alloy vacuum glass energy-saving window of the present invention includes an outer frame 1, the outer frame 1 is a hollow structure, the inner wall of the outer frame 1 is inlaid with an installation frame 2, and the installation frame 2 is a rotating connection structure, the inner wall of the installation frame 2 is inlaid with glass 3, and the inner wall of the outer frame 1 is provided with a driving mechanism 5, the driving mechanism 5 is a rotating connection structure, and the driving mechanism 5 Through the outer frame 1, a rotating mechanism 4 is fixedly installed on the outer wall of the driving mechanism 5, and the rotating mechanism 4 is an elastic telescopic connection structure. The installation frame 2 includes an inner frame 201, and the inner frame 201 is located at The inner wall of the outer frame 1, one side of the inner frame 201 is fixed with a rotating shaft 202, and the rotating shaft 202 is symmetrically distributed with the central axis of the inner frame 201, and the rotating shaft 202 runs through the outer frame 1 and is connected with the outer frame 1. Frame 1 is rotatably connected, and the glass 3 is made of heat-insulating aluminum alloy vacuum glass.

In this embodiment, the driving mechanism 5 includes a connecting shaft 501, the connecting shaft 501 penetrates the outer frame 1, and a worm 502 is installed at one end of the connecting shaft 501, and a worm gear is fixedly installed on the outer wall of the rotating shaft 202. 503, and the worm wheel 503 meshes with the worm 502, the worm wheel 503 is located inside the outer frame 1, and the installation frame 2 can be rotated by the driving mechanism 5, which increases the flexibility of the device.

In this embodiment, the rotating mechanism 4 includes a handwheel 401, one side of the handwheel 401 is provided with evenly distributed connecting rods 402, and the outer wall of the connecting rods 402 is covered with a circular plate 404, the connecting The rod 402 extends through the circular plate 404 to the inside of the outer frame 1, and the outer wall of the connecting rod 402 is covered with a spring 403, the spring 403 is located inside the circular plate 404, and one end of the spring 403 is connected to the circular plate The inner wall of 404 is fixedly connected, and the rotation mechanism 4 can drive the installation frame 2 to rotate, and when the rotation is not needed, the installation frame 2 can be fixed, which increases the stability of the installation frame 2 .

When the device is in use, first install the device to the required place through the outer frame 1, and then the sunlight enters the room through the glass 3 when in use, and the glass 3 is a heat-insulating aluminum alloy vacuum glass, which has great advantages in heat insulation and heat preservation. upgrade, so as to achieve the effect of energy saving. When the glass 3 needs to be cleaned after long-term use, the glass 3 on the inside of the house should be cleaned and wiped first. After cleaning, when the glass 3 on the outside of the house needs to be cleaned, the first pull The handwheel 401 makes the connecting rod 402 slide in the circular plate 404, and compresses the spring 403, so that the connecting rod 402 is separated from the outer frame 1. After separation, the handwheel 401 is turned to make the circular plate 404 rotate, and the connecting shaft is driven by the circular plate 404 501 rotates, so that the worm 502 rotates, and the worm 502 meshes with the worm wheel 503, thereby driving the worm wheel 503 to rotate, causing the rotating shaft 202 to rotate, thereby causing the inner frame 201 to rotate, thereby driving the glass 3 to rotate, and the glass 3 on the outside of the object can be rotated. Turn to inside to clean.

Claims (6)

1. The heat-insulating aluminum alloy vacuum glass energy-saving window is characterized in that: including frame (1), the inner wall of frame (1) rotates and is connected with installing frame (2), the inner wall of installing frame (2) is inlayed and is had glass (3), just the inner wall of frame (1) runs through to rotate and is connected with actuating mechanism (5), the outer end of actuating mechanism (5) is connected with slewing mechanism (4).

2. The heat-insulating aluminum alloy vacuum glass energy-saving window as claimed in claim 1, characterized in that: the mounting frame (2) includes inside casing (201), and the upper and lower both sides of inside casing (201) are fixed with axis of rotation (202) respectively, just axis of rotation (202) are the symmetric distribution with the axis of inside casing (201), axis of rotation (202) run through in frame (1) and rotate with frame (1) and be connected.

3. The heat-insulating aluminum alloy vacuum glass energy-saving window as claimed in claim 2, characterized in that: the driving mechanism (5) comprises a connecting shaft (501), the connecting shaft (501) penetrates through the outer frame (1), and a worm (502) is installed at one end of the connecting shaft (501).

4. The heat-insulating aluminum alloy vacuum glass energy-saving window as claimed in claim 3, wherein: the outer wall of the rotating shaft (202) on one side of the inner frame (201) is provided with a worm wheel (503), the worm wheel (503) is meshed with the worm (502), and the worm wheel (503) is located inside the outer frame (1).

5. The insulated aluminum alloy vacuum glass energy saving window of any one of claims 1 to 4, wherein: slewing mechanism (4) include hand wheel (401), hand wheel (401) one side evenly distributed is provided with a plurality of connecting rods (402), and the outer wall cover of connecting rod (402) is equipped with plectane (404), connecting rod (402) run through in plectane (404) extend to the inside of frame (1), and the outer wall of each connecting rod (402) is equipped with spring (403) respectively in a sleeved manner, spring (403) are located the inside of plectane (404) and the inner wall fixed connection of its one end and plectane (404).

6. The energy-saving window of heat-insulating aluminum alloy vacuum glass as claimed in claim 5, wherein: the glass (3) is made of heat-insulating aluminum alloy vacuum glass.

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