CN213775160U

CN213775160U - Aluminum alloy door and window facilitating drainage

Info

Publication number: CN213775160U
Application number: CN202022412412.XU
Authority: CN
Inventors: 杜大超
Original assignee: Chongqing Jiazhu Decoration Engineering Design Co ltd
Current assignee: Chongqing Jiazhu Decoration Engineering Design Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-07-23
Anticipated expiration: 2030-10-26

Abstract

The utility model discloses an aluminum alloy door and window beneficial to drainage, the utility model relates to the technical field of aluminum alloy door and window beneficial to drainage, the diaphragm is fixed in the middle upper part in the window frame, and the rear of the bottom of the inner wall of the window frame and the rear side of the lower surface of the diaphragm are all provided with a first chute which corresponds up and down, the front of the bottom of the inner wall of the window frame and the front side of the lower surface of the diaphragm are both provided with a second chute which corresponds up and down, a second glass is arranged between the first chute and the second chute which correspond up and down, and the upper end and the lower end of the second glass are provided with at least three rollers which are uniformly distributed, the center of the roller is rotatably connected with a rotating shaft, and the roller is rotatably connected with the second glass through the rotating shaft; the left side and the right side of the front surface of the inner part of the sliding chute II are respectively embedded with water absorption sponge, a clamping shell is wrapped above the water absorption sponge, and a sliding rod is fixed above the front surface of the clamping shell; the beneficial effects of the utility model reside in that: can timely treat rainwater, avoid the rainwater to store in the spout of window for a long time, be favorable to preventing in the rainwater infiltration wall body simultaneously.

Description

Aluminum alloy door and window facilitating drainage

Technical Field

The utility model belongs to the technical field of aluminum alloy door and window technique and specifically relates to a do benefit to aluminum alloy door and window of drainage.

Background

The aluminum alloy window is a window with a frame and sash structure made of aluminum alloy building profiles, and is divided into a common aluminum alloy door window and a broken bridge aluminum alloy door window. The aluminum alloy window has the advantages of attractive appearance, sealing and high strength, is widely applied to the field of constructional engineering, and can be widely used in home decoration, a common aluminum alloy door and window is used for packaging a balcony, the existing aluminum alloy window is difficult to discharge rainwater in time in a long time in a rainwater weather in a sliding groove of the window, and the rainwater is easy to permeate into a wall body.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that above-mentioned exists with not enough, provide an aluminum alloy door and window who does benefit to drainage, can in time handle the rainwater, avoid the rainwater to store in the spout of window for a long time, be favorable to preventing in the rainwater infiltration wall body simultaneously.

In order to achieve the purpose, the adopted technical scheme is as follows:

the utility model provides a do benefit to aluminum alloy door and window of drainage, do benefit to aluminum alloy door and window of drainage includes:

a transverse plate is fixed above the middle inside the window frame, a first sliding chute which corresponds to the rear surface of the bottom of the inner wall of the window frame and is arranged at the rear side of the lower surface of the transverse plate vertically is arranged on the rear side of the bottom of the inner wall of the window frame, a second sliding chute which corresponds to the front surface of the bottom of the inner wall of the window frame and is arranged at the front side of the lower surface of the transverse plate vertically is arranged on the front side of the bottom of the inner wall of the window frame and is arranged at the front side of the lower surface of the transverse plate vertically, a second glass is arranged between the first sliding chute and the second sliding chute which correspond to the first sliding chute vertically, at least three rollers which are uniformly distributed are arranged at the upper end and the lower end of the second glass, the centers of the rollers are rotatably connected with a rotating shaft, and the rollers are rotatably connected with the second glass through the rotating shaft;

the left and right sides all imbeds the sponge that absorbs water in the two inside front of spout, just it has the card shell to absorb water sponge top parcel, the preceding top of card shell is fixed with the slide bar, just two bottom front sides of spout open and have the wash port that extends to the windowsill in front.

Preferably, the roller slides into the first sliding chute and the second sliding chute which are adjacent to each other, and the second glass chute is rotatably connected with the first sliding chute and the second sliding chute through the roller.

Preferably, the second glass is positioned inside the window frame, and the length of the second glass is half of the length of the inner diameter of the window frame.

Preferably, the top of the clamping shell protrudes out of the upper surface of the second sliding chute, the front end of the sliding rod extends out of the front of the window frame, the width of the second sliding chute is larger than that of the first sliding chute, and the water absorption sponge is parallel to the front of the bottom of the second glass in the second sliding chute.

Preferably, the inside rear side of window frame is fixed with the wire netting, just the wire netting is on a parallel with spout one at the back, the wire netting top is fixed with diaphragm lower surface rear side, just wire netting length is unanimous with window frame internal diameter length.

Preferably, a handle is arranged above the middle of the outer side of the two front faces of the two pieces of glass.

Preferably, a first glass is arranged between the upper surface of the transverse plate and the top of the inner wall of the window frame.

Preferably, a windowsill is fixed at the bottom of the window frame, and the length and the width of the windowsill are both greater than those of the window frame.

By adopting the technical scheme, the beneficial effects are as follows:

the rainwater in the second sliding groove can be effectively prevented from overflowing through the water absorption sponge, and the flow speed of the rainwater discharged through the drain hole can be effectively reduced through the water absorption sponge, so that the phenomenon that the rainwater is stored in the window frame for a long time and is difficult to treat can be effectively prevented, and the rainwater can be prevented from permeating into the wall body.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. The drawings are intended to depict only some embodiments of the invention, and not all embodiments of the invention are limited thereto.

Fig. 1 is a schematic view of the overall front plan structure of the present invention;

FIG. 2 is a schematic view of the overall side view cross-sectional structure of the present invention;

fig. 3 is a schematic view of a partial structure in fig. 2 according to the present invention.

The labels in the figure are: the window frame 1, a windowsill 101, a first glass 102, a transverse plate 103, a first sliding chute 104, a roller 105, a second glass 106, a second sliding chute 107, a rotating shaft 108, a water-absorbing sponge 109, a clamping shell 110, a sliding rod 111, a wire mesh 112, a handle 113 and a water drainage hole 114.

Detailed Description

In order to make the purpose, technical features and technical effects of the technical solution of the present invention clearer, the drawings of the embodiments of the present invention are combined together, and the example solution of the embodiments of the present invention is clearly and completely described.

Referring to fig. 1 to 3, the present application is an aluminum alloy door window facilitating drainage, which includes:

a transverse plate 103 is fixed at the upper middle part inside the window frame 1, a first sliding chute 104 which is corresponding up and down is arranged at the rear side of the bottom of the inner wall of the window frame 1 and the rear side of the lower surface of the transverse plate 103, a second sliding chute 107 which is corresponding up and down is arranged at the front side of the bottom of the inner wall of the window frame 1 and the front side of the lower surface of the transverse plate 103, a second glass 106 is arranged between the first sliding chute 104 and the second sliding chute 107 which are corresponding up and down, at least three rollers 105 are arranged at the upper and lower ends of the second glass 106, the rollers 105 are connected with a rotating shaft 108 in a rotating way, and the roller 105 is rotatably connected with the second glass 106 through the rotating shaft 108, the roller 105 slides into the adjacent first chute 104 and the second chute 107, and the second glass 106 is rotatably connected with the first chute 104 and the second chute 107 through the roller 105, the second glass 106 is positioned inside the window frame 1, the length of the second glass 106 is half of the length of the inner diameter of the window frame 1, and a handle 113 is arranged above the middle of one side, close to the outside, of the front faces of the second glass 106;

specifically, by holding the handle 113 in the second glass 106, the two second glasses 106 slide in the first sliding chute 104 and the second sliding chute 107 through the roller 105, and since the length of the second glass 106 is half of the length of the inner diameter of the window frame 1, when a user slides the two second glasses 106 to the left and right sides of the window frame 1, the whole window frame 1 is closed, and if the two second glasses 106 slide to an overlapped state, the window frame 1 is in an open state, so that air circulation is facilitated;

the left side and the right side of the front inside the second sliding chute 107 are respectively embedded with water-absorbing sponge 109, a clamping shell 110 is wrapped above the water-absorbing sponge 109, a sliding rod 111 is fixed above the front of the clamping shell 110, a water discharging hole 114 extending to the front of the windowsill 101 is formed in the front side of the bottom of the second sliding chute 107, the top of the clamping shell 110 protrudes out of the upper surface of the second sliding chute 107, the front end of the sliding rod 111 extends out of the front of the window frame 1, the width of the groove of the second sliding chute 107 is larger than that of the first sliding chute 104, and the water-absorbing sponge 109 is parallel to the front of the bottom of the second glass 106 in the second sliding chute 107;

specifically, in rainy days, when rainwater permeates into the second sliding groove 107, water in the second sliding groove 107 can be adsorbed by the water-absorbing sponges 109 on the left side and the right side inside the second sliding groove 107, when the water-absorbing sponges 109 absorb water fully, the overflowed water flows out through the water discharge holes 114 in the bottom of the inner wall of the second sliding groove 107 and is discharged from the front of the windowsill 101, a user can take another water-absorbing sponge 109 to block the hole of the water discharge holes 114, so that the water discharged through the water discharge holes 114 is adsorbed, the discharged water is prevented from permeating into the wall, and after the water-absorbing sponges 109 inside the second sliding groove 107 absorb water fully, the user can hold the sliding rods 111 and slide the sliding rods 111 outwards, so that the water-absorbing sponges 109 are squeezed, and the water which is fully absorbed is also squeezed out and is uniformly discharged through the water discharge holes 114;

in conclusion, the water absorption sponge 109 can effectively prevent the rainwater in the second sliding groove 107 from overflowing, and the water absorption sponge 109 can also effectively slow down the flow rate of the rainwater discharged through the water discharging hole 114, so that the phenomenon that the rainwater is stored in the window frame 1 for a long time and is difficult to treat can be effectively prevented, and the rainwater can be prevented from permeating into the wall body.

The wire 112 is fixed on the rear side of the interior of the window frame 1, the wire 112 is parallel to the rear side of the first sliding groove 104, the top of the wire 112 is fixed on the rear side of the lower surface of the transverse plate 103, the length of the wire 112 is consistent with the length of the inner diameter of the window frame 1, and the wire 112 can prevent external impurities from entering the window.

A first glass 102 is arranged between the upper surface of the transverse plate 103 and the top of the inner wall of the window frame 1, and the space between the top of the wide inner wall of the window and the transverse plate 103 can be sealed through the first glass 102.

Window frame 1 bottom is fixed with windowsill 101, and windowsill 101 length and width all are greater than window frame 1's length and width, and through windowsill 101, the person of facilitating the use installs window frame 1 more, also is favorable to strengthening the steadiness of window frame 1 bottom simultaneously.

In the present specification, each embodiment is described with emphasis on differences from other embodiments, and the same or similar parts between the embodiments may be referred to each other.

Exemplary embodiments of the present invention have been described in detail with reference to the preferred embodiments, however, it will be understood by those skilled in the art that various modifications and changes may be made to the above specific embodiments without departing from the scope of the present invention, and various combinations of the technical features and structures of the present invention may be implemented without departing from the scope of the present invention, which is defined by the appended claims.

Claims

1. The utility model provides an aluminum alloy door and window who does benefit to drainage which characterized in that, the aluminum alloy door and window who does benefit to drainage includes:

the window frame (1), a transverse plate (103) is fixed at the middle upper part in the window frame (1), a first sliding chute (104) which corresponds up and down is formed in the rear of the bottom of the inner wall of the window frame (1) and the rear side of the lower surface of the transverse plate (103), a second sliding chute (107) which corresponds up and down is formed in the front of the bottom of the inner wall of the window frame (1) and the front side of the lower surface of the transverse plate (103), a second glass (106) is arranged between the first sliding chute (104) and the second sliding chute (107) which correspond up and down, at least three rollers (105) which are uniformly distributed are arranged at the upper end and the lower end of the second glass (106), a rotating shaft (108) is rotatably connected at the center of each roller (105), and each roller (105) is;

the water absorption sponge (109) is embedded into the left side and the right side of the front inside the second sliding groove (107), a clamping shell (110) wraps the upper portion of the water absorption sponge (109), a sliding rod (111) is fixed on the upper portion of the front side of the clamping shell (110), and a water drainage hole (114) extending to the front side of the windowsill (101) is formed in the front side of the bottom of the second sliding groove (107).

2. The aluminum alloy door and window facilitating drainage of claim 1, wherein: the roller (105) slides into the adjacent first sliding chute (104) and the second sliding chute (107), and the second glass (106) is rotatably connected with the first sliding chute (104) and the second sliding chute (107) through the roller (105).

3. The aluminum alloy door and window facilitating drainage of claim 1, wherein: the second glass (106) is positioned inside the window frame (1), and the length of the second glass (106) is one half of the length of the inner diameter of the window frame (1).

4. The aluminum alloy door and window facilitating drainage of claim 1, wherein: the top of the clamping shell (110) protrudes out of the upper surface of the second sliding chute (107), the front end of the sliding rod (111) extends out of the front surface of the window frame (1), the groove width of the second sliding chute (107) is larger than that of the first sliding chute (104), and the water absorption sponge (109) is parallel to the front surface of the bottom of the second glass (106) in the second sliding chute (107).

5. The aluminum alloy door and window facilitating drainage of claim 1, wherein: the inner rear side of the window frame (1) is fixed with a wire mesh (112), the wire mesh (112) is parallel to the rear surface of the first sliding groove (104), the top of the wire mesh (112) is fixed with the rear side of the lower surface of the transverse plate (103), and the length of the wire mesh (112) is consistent with the length of the inner diameter of the window frame (1).

6. The aluminum alloy door and window facilitating drainage of claim 1, wherein: and a handle (113) is arranged at the middle upper part of the outer side of the front faces of the two second glass pieces (106).

7. The aluminum alloy door and window facilitating drainage of claim 1, wherein: a first glass (102) is arranged between the upper surface of the transverse plate (103) and the top of the inner wall of the window frame (1).

8. The aluminum alloy door and window facilitating drainage of claim 1, wherein: a windowsill (101) is fixed at the bottom of the window frame (1), and the length and the width of the windowsill (101) are both greater than those of the window frame (1).