CN222141037U

CN222141037U - Combined energy-saving door and window structure

Info

Publication number: CN222141037U
Application number: CN202323512607.1U
Authority: CN
Inventors: 王艳丽
Original assignee: Zhongcai Green Building Shandong Building Energy Conservation Technology Co ltd
Current assignee: Zhongcai Green Building Shandong Building Energy Conservation Technology Co ltd
Priority date: 2023-12-21
Filing date: 2023-12-21
Publication date: 2024-12-10
Anticipated expiration: 2033-12-21

Abstract

The utility model relates to the field of door and window structures, specifically a combined energy-saving door and window structure, which includes a door and window body that can be detachably installed in a mounting frame, a glass window that is rotatably arranged in the door and window frame, a glass window rotation axis that coincides with the central axis of the door and window frame, two sets of embedded grooves that are provided at the bottom of the door and window frame, the two sets of embedded grooves that are symmetrical about the central axis of the door and window frame, a stabilizing component that keeps the glass window stable after it is rotated and opened is provided in the embedded groove, and a limiting component that limits the rotation of the glass window after it is closed is provided in the door and window frame. In the utility model, the glass window is rotatably arranged in the door and window frame along the central axis, so that the glass window has a wider rotation angle, and stains on both sides of the glass window can be cleaned by standing on one side, without the need to use special tools to extend outside to clean the outside of the glass window, making it more convenient to clean.

Description

Combined energy-saving door and window structure

Technical Field

The utility model relates to the field of door and window structures, in particular to a combined energy-saving door and window structure.

Background

The door and window is divided into enclosure members or separation members according to the positions of the door and window, and has different design requirements, such as heat preservation, heat insulation, sound insulation, water resistance, fire resistance and the like, and the new requirements are energy saving, and the heat lost by the gaps of the door and window in cold areas accounts for about one fourth of the total heating heat consumption. The requirement of the tightness of doors and windows is an important content in energy-saving design.

The Chinese patent with the bulletin number of CN214740801U discloses a combined energy-saving aluminum alloy door and window, which comprises an aluminum alloy frame and a plurality of glass doors and windows, wherein each glass door and window comprises an outer frame and glass, the glass doors and windows are sequentially rotatably arranged between the inner walls of the upper side and the lower side of the aluminum alloy frame from left to right, each glass door and window can vertically rotate in the aluminum alloy frame, and both sides of each glass door and window are connected with sealing strips. The utility model replaces the traditional two glass doors and windows with a plurality of glass doors and windows capable of vertical rotation, has a combined door and window structure, can realize free and flexible rotation, is convenient to operate, ensures the indoor lighting effect, effectively improves the ventilation effect, and ensures the normal functions of heat insulation, sound insulation and the like.

However, the above-mentioned prior art has the disadvantage that the doors and windows are arranged vertically, and the doors and windows are not enough in angle even if they can rotate, so that when cleaning stains on the outer sides of the doors and windows, the cleaning needs to be performed by extending outside, and if the floors are higher, the cleaning of extending outside has higher danger.

Disclosure of utility model

The utility model aims to solve the problem of difficult cleaning caused by insufficient rotation angle in the prior art, and provides a combined energy-saving door and window structure.

The technical scheme of the utility model is that the combined energy-saving door and window structure comprises a mounting frame and a door and window body, wherein the door and window body comprises a door and window frame and a glass window;

the door and window body is detachably provided with a plurality of groups in the mounting frame;

The glass window rotates and sets up in the door and window frame, and glass window rotation axis and door and window frame axis coincidence, two sets of embedded groove have been seted up to door and window frame bottom, and two sets of embedded grooves are about door and window frame axis central symmetry, are provided with the stable subassembly that keeps glass window rotation to open the back in the embedded groove, are provided with in the door and window frame and restrict its pivoted restriction subassembly after the glass window is closed.

Preferably, sealing strips are arranged around the side surfaces of the glass window, the sealing strips are in contact with the inner sides of the door and window frames, the inner bottom of the door and window frames is provided with a stop block for limiting the overlarge rotation range of the glass window, the two groups of stop blocks are symmetrical about the central axis of the door and window frames, the door and window frames are internally rotated to be provided with rotating pieces, and the glass window is rotationally arranged on the rotating pieces.

Preferably, the stabilizing component comprises a connecting column and a telescopic rod, wherein the telescopic rod is divided into a connecting part and a telescopic part;

the connecting posts are arranged at the lower end of the glass window and are provided with two groups;

the connecting part is rotatably arranged at the bottom of the embedding groove, one end of the telescopic part extends into the connecting part, the other end of the telescopic part is provided with a rotating groove, the connecting column is embedded into the rotating groove for rotary connection, the telescopic part is contracted inwards towards the connecting part in the closed state of the glass window, the telescopic rod is accommodated in the embedding groove, and the telescopic part extends outwards from the connecting part in the open state of the glass window and is separated from the embedding groove.

The limiting assembly comprises a limiting block and a spring, wherein a clamping groove is formed in one side of the glass window, a moving groove is formed in one side of the door and window frame, the limiting block is arranged in the moving groove in a sliding mode, one end of the spring is connected with one side of the moving groove, the other end of the spring is connected with one end of the limiting block, the limiting block is embedded into the clamping groove on one side of the glass window, and the moving assembly for driving the limiting block to move is arranged in the door and window frame.

Preferably, the moving assembly comprises a rotating handle, a linkage piece and a clamping block, wherein the rotating handle is rotatably arranged on one side of the door and window frame, the linkage piece is rotatably arranged in the door and window frame, the clamping block is arranged at the lower end of the linkage piece, the clamping block stretches into the moving groove and is clamped on one side of the limiting block, the linkage piece is connected with the rotating handle, and the linkage piece rotates at the same frequency in the rotating state of the rotating handle.

Preferably, the two sets of embedded grooves are not communicated, the width of each set of embedded groove is smaller than the width of the door and window frame, and the width of the glass window is larger than the width of the embedded groove.

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

1. The glass window is arranged in the door and window frame along the central axis in a rotating way, so that the glass window is wider in rotating angle, stains on two sides of the glass window can be cleaned by standing on one side, a special tool is not required to extend out to clean the outer side of the glass window, cleaning is more convenient, ventilation can be better controlled simultaneously, the glass window can be better stabilized after rotating through the stabilizing component, and glass damage caused by random rotation can be avoided.

2. By arranging the limiting component in the door and window frame, the glass window cannot be easily opened after being closed, and the limiting component is buried in the door and window frame, so that the whole appearance is more attractive.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of the single door and window body glazing of FIG. 1 in an open configuration;

FIG. 3 is a schematic view of the removed glazing of FIG. 2;

FIG. 4 is a partial cross-sectional view of FIG. 3;

Fig. 5 is an enlarged schematic view of fig. 4.

The door and window comprises the following components of a mounting frame, a door and window body, a rotary handle, a door and window frame, a glass window, a telescopic rod, an embedded groove, a rotary piece, a stop block, a limiting block, a moving groove, a linkage piece, a clamping block, a spring and a spring.

Detailed Description

Example 1

As shown in fig. 1-5, the combined energy-saving door and window structure provided by the utility model comprises a mounting frame 1 and a door and window body 2, wherein the door and window body 2 comprises a door and window frame 4 and a glass window 5;

the door and window body 2 is detachably provided with a plurality of groups in the installation frame 1;

The glass window 5 rotates and sets up in door and window frame 4, and glass window 5 rotation axis and door and window frame 4 axis coincidence, two sets of embedded groove 7 have been seted up to door and window frame 4 bottom, and two sets of embedded groove 7 are about door and window frame 4 axis central symmetry, are provided with the stable subassembly that keeps glass window 5 rotation after opening in the embedded groove 7, are provided with in the door and window frame 4 and restrict its pivoted restriction subassembly after glass window 5 closes.

Further, sealing strips are arranged around the side surfaces of the glass window 5, the sealing strips are in contact with the inner side of the door and window frame 4, a stop block 10 for limiting the overlarge rotation range of the glass window is arranged at the inner bottom of the door and window frame 4, two groups of stop blocks 10 are symmetrical about the central axis of the door and window frame 4, a rotating piece 9 is rotationally arranged in the door and window frame 4, and the glass window 5 is rotationally arranged on the rotating piece 9.

Further, the stabilizing component comprises a connecting column and a telescopic rod 6, wherein the telescopic rod 6 is divided into a connecting part and a telescopic part;

the connecting posts are arranged at the lower end of the glass window 5 and are provided with two groups, and the telescopic rod 6 is rotatably arranged in the embedded groove 7;

The connecting part is rotatably arranged at the bottom of the embedding groove 7, one end of the telescopic part extends into the connecting part, the other end of the telescopic part is provided with a rotating groove 8, the connecting column is embedded into the rotating groove 8 for rotary connection, the telescopic part is contracted inwards towards the connecting part in the closed state of the glass window 5, the telescopic rod 6 is accommodated in the embedding groove 7, and the telescopic part extends outwards of the connecting part in the open state of the glass window 5, and the telescopic rod 6 is separated from the embedding groove 7.

Further, the two sets of embedded grooves 7 are not communicated, the width of each set of embedded grooves 7 is smaller than the width of the door and window frame 4, and the width of the glass window 5 is larger than the width of the embedded grooves 7.

The working principle is that a plurality of groups of door and window bodies 2 are detachably arranged in the mounting frame 1, when the outer side face of the glass window 5 needs to be cleaned, the glass window 5 is cleaned through a tool after being rotated to a proper angle, at the moment, the glass window 5 is limited to be easily rotated by the telescopic rod 6, friction force exists between the connecting part and the telescopic part in the telescopic rod 6, and the rotation can be counteracted by the rotation of people to rotate.

In the embodiment, the glass window 5 is arranged in the door and window frame 4 along the central axis in a rotating way, so that the rotating angle of the glass window 5 is wider, stains on two sides of the glass window 5 can be cleaned by standing on one side, a special tool is not required to extend out to clean the outer side of the glass window 5, cleaning is more convenient, ventilation can be better controlled simultaneously, the glass window 5 can be better stabilized after rotating by arranging the stabilizing component, and glass damage caused by random rotation can be avoided.

Example two

As shown in fig. 1-5, in comparison with the first embodiment, the limiting assembly of the combined energy-saving door and window structure provided by the utility model comprises a limiting block 11 and a spring 15, wherein a clamping groove is formed in one side of the glass window 5, a moving groove 12 is formed in one side of the door and window frame 4, the limiting block 11 is slidably arranged in the moving groove 12, the spring 15 is arranged in the moving groove 12, one end of the spring 15 is connected with one side of the moving groove 12, the other end of the spring 15 is connected with one end of the limiting block 11, the limiting block 11 is embedded into the clamping groove on one side of the glass window 5, and a moving assembly for driving the limiting block 11 to move is arranged in the door and window frame 4.

Further, the moving assembly comprises a rotating handle 3, a linkage piece 13 and a clamping block 14, wherein the rotating handle 3 is rotatably arranged on one side of the door and window frame 4, the linkage piece 13 is rotatably arranged in the door and window frame 4, the clamping block 14 is arranged at the lower end of the linkage piece 13, the clamping block 14 stretches into the moving groove 12 to be clamped on one side of the limiting block 11, the linkage piece 13 is connected with the rotating handle 3, and the linkage piece 13 rotates at the same frequency in the rotating state of the rotating handle 3.

The operating principle is that when the glass window 5 is closed, the limiting block 11 is embedded into the clamping groove, and when the glass window 5 is required to be opened, the handle 3 is rotated anticlockwise, the linkage piece 13 of the handle is rotated anticlockwise, so that the clamping block 14 pushes the limiting block 11 to move towards the side of the spring 15, the limiting block 11 is separated from the clamping groove, and at the moment, the glass window 5 can be rotated and opened.

In this embodiment, the limiting component is disposed in the door and window frame 4, so that the glass window 5 cannot be easily opened after being closed, and the limiting component is buried in the door and window frame 4, so that the overall appearance looks more attractive.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims

1. The combined energy-saving door and window structure is characterized by comprising a mounting frame (1) and a door and window body (2), wherein the door and window body (2) comprises a door and window frame (4) and a glass window (5);

the door and window body (2) is detachably provided with a plurality of groups in the installation frame (1);

The glass window (5) rotates and sets up in door and window frame (4), and glass window (5) rotation axis and door and window frame (4) axis coincidence, two sets of embedded groove (7) have been seted up to door and window frame (4) bottom, and two sets of embedded groove (7) are with door and window frame (4) axis central symmetry, are provided with the stable subassembly that keeps glass window (5) to rotate after opening in embedded groove (7), are provided with in door and window frame (4) and restrict its pivoted restriction subassembly after glass window (5) are closed.

2. The combined energy-saving door and window structure according to claim 1, wherein sealing strips are arranged around the side surfaces of the glass window (5), the sealing strips are in contact with the inner side of the door and window frame (4), a stop block (10) for limiting the overlarge rotation range of the glass window (5) is arranged at the inner bottom of the door and window frame (4), the two groups of stop blocks (10) are symmetrical about the central axis of the door and window frame, a rotating piece (9) is rotationally arranged in the door and window frame (4), and the glass window (5) is rotationally arranged on the rotating piece (9).

3. The combined energy-saving door and window structure according to claim 1, wherein the stabilizing assembly comprises a connecting column and a telescopic rod (6), and the telescopic rod (6) is divided into a connecting part and a telescopic part;

The connecting posts are arranged at the lower end of the glass window (5) and are provided with two groups, and the telescopic rod (6) is rotatably arranged in the embedded groove (7);

The connecting part is rotatably arranged at the bottom of the embedding groove (7), one end of the telescopic part extends into the connecting part, the other end of the telescopic part is provided with a rotating groove (8), the connecting column is embedded into the rotating groove (8) for rotary connection, the telescopic part is contracted inwards towards the connecting part in the closed state of the glass window (5), the telescopic rod (6) is accommodated in the embedding groove (7), the telescopic part extends outwards towards the connecting part in the open state of the glass window (5), and the telescopic rod (6) is separated from the embedding groove (7).

4. The combined energy-saving door and window structure according to claim 1, wherein the limiting component comprises a limiting block (11) and a spring (15), wherein a clamping groove is formed in one side of the glass window (5), a moving groove (12) is formed in one side of the door and window frame (4), the limiting block (11) is arranged in the moving groove (12) in a sliding mode, the spring (15) is arranged in the moving groove (12), one end of the spring (15) is connected with one side of the moving groove (12), the other end of the spring is connected with one end of the limiting block (11), the limiting block (11) is embedded into the clamping groove in one side of the glass window (5), and the moving component for driving the limiting block (11) to move is arranged in the door and window frame (4).

5. The combined energy-saving door and window structure according to claim 4, wherein the moving assembly comprises a rotating handle (3), a linkage piece (13) and a clamping block (14), the rotating handle (3) is rotatably arranged on one side of a door and window frame (4), the linkage piece (13) is rotatably arranged in the door and window frame (4), the clamping block (14) is arranged at the lower end of the linkage piece (13), the clamping block (14) stretches into the moving groove (12) and is clamped on one side of the limiting block (11), the linkage piece (13) is connected with the rotating handle (3), and the linkage piece (13) rotates at the same frequency under the rotating state of the rotating handle (3).

6. The combined energy-saving door and window structure according to claim 1, characterized in that the two sets of embedded grooves (7) are not communicated, the width of each set of embedded grooves (7) is smaller than the width of the door and window frame (4), and the width of the glass window (5) is larger than the width of the embedded grooves (7).