CN112267804A

CN112267804A - Building energy-saving external window

Info

Publication number: CN112267804A
Application number: CN202011219978.9A
Authority: CN
Inventors: 李玄吉; 费腾; 费忠阳; 孙泉; 尚宏树
Original assignee: Jinan Rongji Construction Engineering Quality Inspection Co ltd; Jinan Second Construction Group Engineering Co ltd
Current assignee: Jinan Rongji Construction Engineering Quality Inspection Co ltd; Jinan Second Construction Group Engineering Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-01-26

Abstract

The invention discloses a building energy-saving outer window which comprises a window frame, a fixed window, a sliding window and a sliding chute; a fixed window and two screen windows are arranged in the window frame, the screen windows are positioned on the left side and the right side of the fixed window, a sliding groove is formed in the bottom of the window frame, and two sliding windows are installed on the sliding groove through a rail; a cloth box is arranged at the top of the front side of the window frame, a rotating shaft is arranged in the cloth box, two ends of the rotating shaft are connected with bearings positioned at two ends of the cloth box, a motor is arranged at one side of the cloth box, an output shaft of the motor is in transmission connection with the rotating shaft, and the heat insulation cloth is wound on the rotating shaft; a groove is arranged at the bottom of the sliding groove at the junction of the fixed window and the screen window, and a dust storage box is arranged in the groove; the bottom of the sliding window is provided with a brush plate, the bottom of the brush plate is provided with a brush, and the bottom end of the brush can be contacted with the bottom surface of the sliding groove. When the temperature difference between the indoor and the outdoor is large, the window body can be covered by the heat insulation cloth for heat insulation; an ash removal structure is arranged in the sliding chute of the sliding window, and ash is automatically removed when the sliding window is opened and closed.

Description

Building energy-saving external window

Technical Field

The invention relates to the field of windows, in particular to an energy-saving outer window for a building.

Background

With the acceleration of urbanization process and the improvement of quality of life of people, the proportion of building energy consumption in the total social consumption is continuously increased and is expected to reach about 35% finally, so that building energy saving has a great influence on the national civilization, and door and window energy consumption accounts for 50% -60% of the building energy consumption, so that the research on energy-saving door and window is highly valued in the industry at present.

The existing door and window generally adopts a double-layer glass structure, and when the external temperature is high in summer, the heat can cause the indoor temperature to rise through the window, so that the refrigeration effect of an air conditioner is influenced; when the external temperature is low in winter, the cold air can cause the indoor temperature to reduce through the window, and the heating effect of an air conditioner or a heater is influenced. And the general deposition in the spout of present plug-type exterior window, its reason is that external dust falls in the spout of window opening part earlier when windowing, can drive this dust to other regions of spout when austral window, sliding sash switch removes, because the spout width is less, inconvenient manual dust removal to influence indoor environment.

Disclosure of Invention

In order to overcome the technical defects, the invention provides the building energy-saving outer window, wherein the inner side of the window body is provided with the storable heat-insulating cloth, and the heat-insulating cloth can cover the window body to insulate heat when the temperature difference between the inside and the outside is large; an ash removal structure is arranged in the sliding chute of the sliding window, and ash is automatically removed when the sliding window is opened and closed.

The technical scheme adopted by the invention for solving the technical problems is as follows: an energy-saving external window for buildings comprises a window frame, a fixed window, a sliding window and a sliding chute; a fixed window and two screen windows are arranged in the window frame, the screen windows are positioned on the left side and the right side of the fixed window, a sliding groove is formed in the bottom of the window frame, and two sliding windows are installed on the sliding groove through a rail; the top of the front side of the window frame is provided with a cloth box, the inside of the cloth box is provided with a rotating shaft, two ends of the rotating shaft are connected with bearings positioned at two ends of the cloth box, one side of the cloth box is provided with a motor, an output shaft of the motor is connected with the rotating shaft in a transmission manner, the heat insulation cloth is wound on the rotating shaft, one end of the heat insulation cloth is fixedly connected with the rotating shaft, the other end of the heat insulation cloth extends out of an opening below the cloth box, and the end of the heat insulation cloth extending out of the cloth box and; a groove is arranged at the bottom of the sliding groove at the junction of the fixed window and the screen window, and a dust storage box is arranged in the groove; the bottom of the sliding window is provided with a brush plate, the bottom of the brush plate is provided with a brush, and the bottom end of the brush can be contacted with the bottom surface of the sliding groove.

The ash storage box is of a square box structure with an opening at the top surface, a plurality of ash scraping sheets are arranged in the ash storage box, sawteeth are arranged at the top ends of the ash scraping sheets, and the ash scraping sheets are in contact with the brush to scrape dust on the surface of the brush into the ash storage box.

The bottom of the window frame is provided with a drainage channel, one end of the drainage channel is communicated with the outer side surface of the window frame, the other end of the drainage channel is communicated with the interior of the ash storage box, when raining and a window is forgotten to be closed, rainwater entering the sliding groove can flow into the ash storage box with a lower position and then flow out of the drainage channel, and dust in the ash storage box is taken out together in the flowing-out process; when the ash storage box is cleaned in daily life, the box body can be taken out from the groove, and then the dust in the box body can be cleaned; the clear water can be directly poured into the sliding groove, the residual dust in the sliding groove is flushed into the dust collecting box by water flow, and then the sewage is discharged out of the window from the drainage channel, so that the trouble of manually cleaning the dust storing box is avoided.

The connecting piece is a sticking strip, a magic tape or a snap fastener, so that the heat insulation cloth can be kept stable when being pulled down to cover the window.

The invention has the beneficial effects that:

(1) the building energy-saving external window is characterized in that the inner side of the window body is provided with the heat insulation cloth capable of covering the window, the heat insulation cloth can be pulled down in hot summer and cold winter, the heat exchange between indoor heat and the outside through the window is reduced, the indoor energy is saved, the expansion and the storage of the heat insulation cloth are controlled through the motor, and the operation is convenient;

(2) the ash storage box is arranged in the sliding groove of the sliding window, and the brush can sweep dust in the sliding groove into the ash storage box when the sliding window is opened and closed every time, so that frequent manual cleaning is avoided; and when the clear water is poured into the sliding groove for washing, the sewage can flow into the ash storage box and finally flows to the outdoor through the drainage channel, so that the cleaning is very convenient, the manpower is saved, and the sanitation of the sliding groove is kept.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view (partially in section) of the front side of the present invention with the insulating cloth fully stowed within the cloth box.

Fig. 2 is a schematic view of the front side of the present invention as the blanket is pulled down.

Fig. 3 is a schematic view of the front side of the present invention when an insulating cloth covers a window.

Fig. 4 is an enlarged schematic view of a in fig. 1.

Fig. 5 is a partial cross-sectional view of the left side of the window frame when the insulating cloth covers the window.

Fig. 6 is a schematic structural view of the ash storage box.

The picture marks comprise a window frame 1, a fixed window 2, a sliding window 3, a sliding groove 4, a sliding groove 5, a track 6, a cloth box 7, a motor 8, heat insulation cloth 9, a connecting piece 10, a dust storage box 11, a brush board 12, a brush 13, a dust scraping sheet 14, a drainage channel 15 and a screen window 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments.

Referring to fig. 1 to 6, the present embodiment provides a building energy saving exterior window, including a window frame 1, a fixed window 2, a sliding window 3 and a sliding chute 4; a fixed window 2 and two screen windows 15 are arranged in a window frame 1, the screen windows 15 are positioned at the left side and the right side of the fixed window 2, a sliding chute 4 is arranged at the bottom of the window frame 1, and two sliding windows 3 capable of covering the screen windows 15 are arranged on the sliding chute 4 through a rail 5; the structure is a common building external window structure at present.

In order to achieve the effects of heat insulation and energy saving, a cloth box 6 is installed at the top of the front side of a window frame 1, a rotating shaft is installed inside the cloth box 6, two ends of the rotating shaft are connected with bearings located at two ends inside the cloth box 6, a motor 7 is installed at one side of the cloth box 6, an output shaft of the motor 7 is connected with the rotating shaft through a gear or chain transmission, a heat insulation cloth 8 is wound on the rotating shaft, one end of the heat insulation cloth 8 is fixedly connected with the rotating shaft, the other end of the heat insulation cloth extends out of an opening below the cloth box 6, the motor 7 is provided with a remote controller, the motor 7 is controlled to work through the remote controller to drive the rotating shaft to rotate, the heat insulation cloth 8 extends out of the cloth box 6 downwards when the motor; in order to keep the heat insulation cloth stably covering the shielding window, a mutually matched connecting piece 9 is arranged at one end of the heat insulation cloth 8 extending from the cloth box 6 and the inner bottom of the window frame 1, and the connecting piece 9 is preferably an adhesive strip.

In order to keep the sliding groove sanitary, a groove is arranged at the bottom of the sliding groove 4 at the junction of the fixed window 2 and the screen window 15, a dust storage box 10 for temporarily storing dust is placed in the groove, and the dust storage box 10 is of a square box structure with an opening on the top surface; simultaneously at 3 bottom installations brush board 11 of austral window, sliding sash, brush board 11 bottom is equipped with brush 12, and brush 12 bottom can contact with 4 bottom surfaces of spout, and then when making austral window, sliding sash 3 move on spout 4, brush 12 can be with the dust of 4 bottom surfaces of spout sweep into in the ash storage box 10.

In order to further improve the dust sweeping effect of the brush 12, a plurality of dust scraping sheets 13 are installed in the dust storage box 10, and the top ends of the dust scraping sheets 13 are arranged in a zigzag shape, so that dust on the surface of the brush 12 can be favorably scraped into the dust storage box 10 when the dust scraping sheets contact with the brush 12.

The bottom of the window frame 1 is provided with a drainage channel 14, one end of the drainage channel 14 is communicated with the outer side surface of the window frame 1, the other end of the drainage channel 14 is communicated with the interior of the ash storage box 10, when raining and a window is forgotten to be closed, rainwater entering the sliding groove 4 flows into the ash storage box 10 with a lower position and then flows out from the drainage channel 14, dust in the ash storage box 10 is taken out together in the flowing-out process, and meanwhile, the phenomenon that the rainwater gushes into the room from the sliding groove 4 when the rainfall is too large can be prevented.

The daily cleaning ash storage box 10 can take the box body out of the groove and then clean the dust in the box body; clean water can be directly poured into the sliding chute 4, residual dust in the sliding chute 4 is flushed into the dust collecting box 10 by water flow, and then sewage is discharged out of the window from the drainage channel 14, so that the trouble of manually cleaning the dust storing box 10 is avoided.

The above description is not limited to the above examples, and the undescribed technical features of the present invention can be implemented by or using the prior art, which is not described herein again; while the present invention has been described in detail with reference to the preferred embodiments and examples, it will be understood by those skilled in the art that various changes, modifications, additions and substitutions can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. An energy-saving outer window for buildings comprises a window frame (1), a fixed window (2), a sliding window (3) and a sliding groove (4); a fixed window (2) and two screen windows (15) are arranged in a window frame (1), the screen windows (15) are positioned at the left side and the right side of the fixed window (2), a sliding chute (4) is arranged at the bottom of the window frame (1), and two sliding windows (3) are arranged on the sliding chute (4) through a rail (5); the window frame is characterized in that a cloth box (6) is installed at the top of the front side of the window frame (1), a rotating shaft is installed inside the cloth box (6), two ends of the rotating shaft are connected with bearings located at two ends of the cloth box (6), a motor (7) is installed at one side of the cloth box, an output shaft of the motor (7) is in transmission connection with the rotating shaft, heat insulation cloth (8) is wound on the rotating shaft, one end of the heat insulation cloth (8) is fixedly connected with the rotating shaft, the other end of the heat insulation cloth (8) extends out of an opening below the cloth box (6), and connecting pieces (9) capable of being matched with each other are arranged at one end, extending out of the cloth box (6), of the heat; a groove is arranged at the bottom of the sliding groove (4) at the junction of the fixed window (2) and the screen window (15), and a dust storage box (10) is arranged in the groove; the bottom of the sliding window (3) is provided with a brush plate (11), the bottom of the brush plate (11) is provided with a brush (12), and the bottom end of the brush (12) can be contacted with the bottom surface of the sliding groove (4).

2. The building energy-saving external window according to claim 1, wherein the ash storage box (10) is a square box structure with an open top surface, a plurality of ash scraping sheets (13) are installed in the ash storage box (10), and the top ends of the ash scraping sheets (13) are provided with saw teeth.

3. The energy-saving exterior window for buildings as claimed in claim 2, wherein the bottom of the window frame (1) is provided with a drainage channel (14), one end of the drainage channel (14) is communicated with the outer side surface of the window frame (1), and the other end is communicated with the interior of the ash storage box (10).

4. The external building energy saving window according to claim 1, wherein the connecting piece (9) is an adhesive strip, a magic tape or a snap button.