CN220869260U - Three-glass two-cavity aluminum alloy door and window - Google Patents

Abstract

The application relates to a three-glass two-cavity aluminum alloy door and window, relates to the technical field of aluminum alloy doors and windows, and aims to improve the drainage performance of the three-glass two-cavity aluminum alloy door and window; the window comprises a window frame and a window sash, wherein a window groove for accommodating the window sash is formed in the window frame in a penetrating mode, a water passage is formed in the inner top wall of the window groove, the top end of the water passage is communicated with the outside, the other end of the water passage extends downwards, and the water passage reaches the outer side wall of the window frame to be communicated with the outside. The application has the following effects: the arrangement of the convection water channel can effectively drain rainwater to the outside through the water channel, so that the drainage performance of the three-glass two-cavity aluminum alloy door and window is improved, the probability of water accumulation of the aluminum alloy door and window is reduced, and the probability of rainwater infiltration into a room is further reduced.

Description

Three-glass two-cavity aluminum alloy door and window

Technical Field

The application relates to the technical field of aluminum alloy doors and windows, in particular to a three-glass two-cavity aluminum alloy door and window.

Background

Along with the continuous development of social economy and the increasing of the living standard of people, the requirements of people on the living quality are also continuously improved, and the aluminum alloy door and window refers to a door and window manufactured by adopting aluminum alloy extruded profiles as frames, stiles and fan materials, namely the aluminum door and window for short, and plays an important role in the daily life of people.

The Low-E glass is also called as Low-emissivity glass, and is a film system product formed by plating a plurality of layers of metal or other compounds on the surface of the glass, and the film coating layer has the characteristics of high visible light transmission and high middle and far infrared ray reflection, so that compared with common glass and traditional building film coating glass, the Low-E glass has excellent heat insulation effect and good light transmittance, and therefore, the Low-E three-glass two-cavity aluminum alloy door and window is widely applied to doors and windows.

With respect to the related art, the inventor finds that the drainage of the existing Low-E three-wave two-cavity aluminum alloy door and window is inconvenient in rainy days, so that water accumulation is easy to occur at the bottom end of the aluminum alloy door and window, and rainwater is easy to permeate into a room through a gap of the aluminum alloy door and window.

Disclosure of utility model

The application provides a three-glass two-cavity aluminum alloy door and window in order to improve the drainage performance of the three-glass two-cavity aluminum alloy door and window.

The application provides a three-glass two-cavity aluminum alloy door and window, which adopts the following technical scheme:

The utility model provides an aluminum alloy door and window in two chambeies of three glass, includes window frame and casement, run through on the window frame and set up the window groove that supplies the casement to hold, set up the water channel on the interior roof in window groove, the top and the external intercommunication of water channel, the other end downwardly extending of water channel, and reach on the lateral wall of window frame with external intercommunication.

By adopting the technical scheme, when rainwater falls onto the inner top wall of the window groove on the window frame, the rainwater flows into the water passage and flows to the outside through the water passage, so that the rainwater on the inner top wall of the window groove is discharged; the arrangement of the convection water channel can effectively drain rainwater to the outside through the water channel, so that the drainage performance of the three-glass two-cavity aluminum alloy door and window is improved, the probability of water accumulation of the aluminum alloy door and window is reduced, and the probability of rainwater infiltration into a room is further reduced.

Preferably, a filter screen is further arranged in the window frame, and the filter screen is arranged at the inlet of the top end of the water passage.

Through adopting above-mentioned technical scheme, set up the filter screen for the filter screen can filter the water channel top, thereby effectively reduces the probability that the foreign matter gets into the water channel through the top of water channel in, and then effectively reduced because the water channel is blockked up by the foreign matter, thereby leads to the probability that water channel drainage efficiency reduces.

Preferably, the number of the water passage and the filter screen is set to be a plurality of, and the water passage and the filter screen are set in one-to-one correspondence, a connecting plate is arranged between every two adjacent filter screens, and the adjacent filter screens are connected through the connecting plate.

Through adopting above-mentioned technical scheme, be a plurality of setting to water passage and filter screen, can effectively improve the efficiency to rainwater exhaust to reduced when heavy rain is on day, the rainwater comes not reach the probability of discharging and leading to the aluminium alloy door and window to take place the ponding in the water passage, and then further reduce the rainwater infiltration to indoor probability.

Preferably, each filter screen is in sliding connection with the window frame, a driving assembly used for driving the filter screen to slide is further arranged in the window frame, the driving assembly comprises a rotating rod, a driving gear and a driving rack, one end of the rotating rod extends out of the inner side wall of the window frame, the other end of the rotating rod is connected with the driving gear, the driving gear is meshed with the driving rack, and the driving rack is connected with a connecting plate of the driving rack.

Through adopting above-mentioned technical scheme, setting up drive assembly can make the user through rotatory dwang in the house for drive gear rotates, thereby drives the drive rack with drive gear engaged and takes place to slide, and then drives each filter screen and connecting plate and all take place to slide, thereby makes the filter screen outside the corresponding water channel of sliding out, and makes the connecting plate carry out the shutoff to the water inlet on water channel top, thereby reduces the probability that the foreign matter got into in the water channel when the water channel is unused.

Preferably, the outer side wall of the window frame is also provided with a water blocking frame, and the water blocking frame extends downwards and is lower than the outlet of the water passage on the outer side wall of the window frame.

Through adopting above-mentioned technical scheme, to setting up of manger plate frame, can make the manger plate frame shelter from the exit of water channel on the window frame lateral wall to reduce the probability that the rainwater falls into the exit of water channel on the window frame lateral wall, and then reduce the rainwater that falls into the exit of water channel on the window frame lateral wall, with the probability that the rainwater emergence convection current through water channel top water inlet department, effectively guaranteed the normal drainage of water channel.

Preferably, the bottom of the water baffle frame extends towards the direction close to the window frame and is connected with the window frame, a blocking net is further arranged at the bottom end of the water baffle frame, the bottom of the water baffle frame is communicated with the outside through the blocking net, and the bottom of the water passage is communicated with the bottom of the water baffle frame.

Through adopting above-mentioned technical scheme, to the setting of separation net, can effectively reduce the probability that the winged insect gets into in the water channel through the exit on the window frame lateral wall of water channel to effectively reduce the water channel because by the winged insect jam, and lead to the probability that drainage performance reduces.

Preferably, a sealing plate is further arranged at the bottom end of the water blocking frame, the sealing plate is in sliding connection with the water blocking frame, and the sealing plate can cover the blocking net when sliding.

Through adopting above-mentioned technical scheme, setting up to the closing plate can make when not raining, the user can be through sliding the closing plate to shelter from the separation net, and then reduce when not raining, tiny winged insect passes the separation net and gets into the probability in the passageway that leads to, has effectively reduced the passageway that leads to the water and has blocked by tiny winged insect probability.

Preferably, the top end of the water blocking frame extends upwards and is higher than the inner bottom wall of the window groove.

Through adopting above-mentioned technical scheme, the setting to manger plate frame top upward extension effectively makes manger plate frame can shelter from the rainwater to reduce the probability that the rainwater got into window inslot roof, and then reduce the probability that the ponding takes place for window inslot roof.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The arrangement of the convection water channel can effectively drain rainwater to the outside through the water channel, so that the drainage performance of the three-glass two-cavity aluminum alloy door and window is improved, the probability of water accumulation of the aluminum alloy door and window is reduced, and the probability of rainwater infiltration into a room is further reduced;

2. The driving assembly is arranged, so that a user can rotate the rotating rod in a room to enable the driving gear to rotate, and therefore the driving rack meshed with the driving gear is driven to slide, and each filter screen and the connecting plate are driven to slide, the filter screen slides out of the corresponding water passage, the connecting plate is used for plugging the water inlet at the top end of the water passage, and therefore the probability that foreign matters enter the water passage when the water passage is not used is reduced;

3. The setting to the manger plate frame can make the manger plate frame shelter from the exit of water channel on the window frame lateral wall to reduce the probability that the rainwater falls into the exit of water channel on the window frame lateral wall, and then reduce the rainwater that falls into the exit of water channel on the window frame lateral wall, with the probability that the rainwater emergence convection current takes place via water channel top water inlet department, effectively guaranteed the normal drainage of water channel.

Drawings

Fig. 1 is a schematic diagram of an aluminum alloy door and window for embodying a three-glass two-cavity in an embodiment of the present application.

Fig. 2 is a schematic structural view of a water passage according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a structure for embodying a driving assembly in an embodiment of the present application.

Reference numerals illustrate: 1. a window frame; 11. a window groove; 2. window sashes; 3. a water passage; 4. a water blocking frame; 41. a mounting groove; 5. a barrier web; 6. a sealing plate; 61. a carriage; 7. a filter screen; 8. a connecting plate; 9. a drive assembly; 91. a rotating lever; 92. a drive gear; 93. a drive rack; 94. and (5) rotating the cap.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

The embodiment of the application discloses a three-glass two-cavity aluminum alloy door and window. Referring to fig. 1 and 2, the three-glass two-cavity aluminum alloy door and window comprises a window frame 1 and a window sash 2, wherein the window frame 1 is fixedly arranged on a wall body, and a window groove 11 is formed in the side wall of the window frame 1 in a penetrating manner. The window sash 2 is a three-glass two-cavity window, and the window sash 2 is arranged on the window frame 1 and is in sliding connection with the window frame 1 through the inner wall of the window groove 11. The inner top wall of the window groove 11 is provided with a water passage 3, the top end of the water passage 3 is an inlet, the inlet at the top end of the water passage 3 is communicated with the outside, the bottom end of the water passage 3 is an outlet, and the bottom end of the water passage 3 extends downwards and reaches the outer side wall of the window frame 1 to be communicated with the outside.

Referring to fig. 2 and 3, a water blocking frame 4 is further provided on the outer sidewall of the window frame 1, and the water blocking frame 4 is fixedly connected with the outer sidewall of the window frame 1 by welding, and the top end of the water blocking frame 4 extends upward and is higher than the inner bottom wall of the bottom of the window groove 11. The bottom of manger plate frame 4 is lower than the exit of water channel 3 on window frame 1 lateral wall, and the bottom of manger plate frame 4 extends to the direction that is close to window frame 1 to pass through welded connection with window frame 1, the inside of manger plate frame 4 forms the cavity, the exit of water channel 3 bottom communicates with the cavity in the manger plate frame 4.

Referring to fig. 2 and 3, the bottom end of the water baffle frame 4 is further provided with a mounting groove 41 in a penetrating manner, the mounting groove 41 is communicated with the cavity inside the water baffle frame 4, the water baffle frame 4 is further provided with a blocking net 5, the blocking net 5 is located in the mounting groove 41, and the peripheral walls of the blocking net 5 are fixedly connected with the inner wall of the mounting groove 41 through bolts. Still be provided with closing plate 6 on the manger plate frame 4, in the bottom of manger plate frame 4 is inlayed at closing plate 6's top to with manger plate frame 4's bottom sliding connection, separation net 5 is located the route of sliding of manger plate frame 4 directly over, separation net 5 can cover separation net 5 at the in-process of sliding. The sealing plate 6 is provided with sliding frames 61 along both ends of its length direction, each sliding frame 61 is fixedly connected with the bottom wall of the sealing plate 6 by welding, and the top end of each sliding frame 61 extends upwards.

Referring to fig. 2 and 3, the water channels 3 are provided in a plurality, and each water channel 3 is located at one side of the inner wall of the corresponding window groove 11, which is close to the water blocking frame 4. The window frame 1 is also internally provided with a plurality of filter screens 7, the number of the filter screens 7 is set to be a plurality, and the filter screens 7 are set in one-to-one correspondence with the water channels 3. Each filter screen 7 is arranged at the top inlet of the water passage 3 and covers the top inlet of the water passage 3. Every two adjacent filter screens 7 are provided with connecting plates 8, and every two adjacent filter screens 7 are fixedly connected with the opposite ends of the corresponding connecting plates 8 through integrated forming.

Referring to fig. 2 and 3, two filter screens 7 respectively located at both ends of the window frame 1 in the length direction are each further provided with a connection plate 8 at one end far from the other filter screen 7, and the connection plates 8 are fixedly connected with the corresponding filter screens 7 through integral molding. The connecting plate 8 and the filter screen 7 are both in sliding connection with the window frame 1, and the sliding direction is the length direction of the window frame 1. The connecting plate 8 at one end of the window frame 1 along the length direction is provided with a driving component 9, and the driving component 9 is positioned in the window frame 1.

Referring to fig. 2 and 3, the driving assembly 9 includes a rotation rod 91, a driving gear 92 and a driving rack 93, one end of the driving rack 93 is fixedly connected with one of the connecting plates 8 located at one end of the window frame 1 along the length direction thereof, the driving rack 93 is slidably connected with the window frame 1, and the driving rack 93 is meshed with the driving gear 92. The driving gear 92 is fixedly sleeved on the rotating rod 91, the rotating rod 91 is rotationally connected with the window frame 1 through a bearing, and one end of the rotating rod 91 extends out of a side wall of the window frame 1 far away from the water retaining frame 4. The rotating rod 91 is fixedly sleeved with a rotating cap 94 at one end extending out of the window frame 1, and a plurality of protrusions are arranged on the side wall of the rotating cap 94.

Referring to fig. 2 and 3, when a rainy day is encountered, the sealing plate 6 is pulled to slip, thereby moving the sealing plate 6 away from the barrier net 5. Then the rotary cap 94 is rotated again, at this moment, the rotary cap 94 drives the rotary rod 91 to rotate, the rotary rod 91 drives the driving gear 92 to rotate, and the rotation of the driving gear 92 drives the driving rack 93 to slide, so that each filter screen 7 slides to the position right above the corresponding water passage 3, and the blocking of the water passage 3 is relieved. At this time, the rainwater falling into the bottom end of the window groove 11 flows into the cavity in the water baffle frame 4 through the water passage 3 and flows to the outside through the blocking net 5.

The implementation principle of the three-glass two-cavity aluminum alloy door and window provided by the embodiment of the application is as follows: when a rainy day is encountered, the sealing plate 6 is pulled to slip, so that the sealing plate 6 is away from the barrier net 5. Then the rotary cap 94 is rotated again, at this moment, the rotary cap 94 drives the rotary rod 91 to rotate, the rotary rod 91 drives the driving gear 92 to rotate, and the rotation of the driving gear 92 drives the driving rack 93 to slide, so that each filter screen 7 slides to the position right above the corresponding water passage 3, and the blocking of the water passage 3 is relieved. At this time, the rainwater falling into the bottom end of the window groove 11 flows into the cavity in the water baffle frame 4 through the water passage 3 and flows to the outside through the blocking net 5.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The utility model provides an aluminum alloy door and window in two chambeies of three glass, includes window frame (1) and casement (2), run through on window frame (1) and set up window groove (11) that supplies casement (2) to hold, its characterized in that: the inner top wall of the window groove (11) is provided with a water passage (3), the top end of the water passage (3) is communicated with the outside, and the other end of the water passage (3) extends downwards and reaches the outer side wall of the window frame (1) to be communicated with the outside.

2. The three-glass two-cavity aluminum alloy door and window according to claim 1, wherein: a filter screen (7) is further arranged in the window frame (1), and the filter screen (7) is arranged at the inlet of the top end of the water passage (3).

3. The three-glass two-cavity aluminum alloy door and window according to claim 2, wherein: the number of the water passage (3) and the number of the filter screens (7) are all set to be a plurality of, and are set up in a one-to-one correspondence mode, a connecting plate (8) is arranged between every two adjacent filter screens (7), and the adjacent filter screens (7) are connected through the connecting plate (8).

4. A three-pane two-cavity aluminum alloy door and window as claimed in claim 3, wherein: each filter screen (7) is in sliding connection with the window frame (1), the inside of the window frame (1) is provided with a driving assembly (9) for driving the filter screen (7) to slide, the driving assembly (9) comprises a rotating rod (91), a driving gear (92) and a driving rack (93), one end of the rotating rod (91) extends out of the inner side wall of the window frame (1), the other end of the rotating rod (91) is connected with the driving gear (92), the driving gear (92) is meshed with the driving rack (93), and the driving rack (93) is connected with a connecting plate (8) of the driving rack.

5. The three-glass two-cavity aluminum alloy door and window according to claim 1, wherein: the water retaining frame (4) is further arranged on the outer side wall of the window frame (1), and the water retaining frame (4) extends downwards and is lower than the outlet of the water passage (3) on the outer side wall of the window frame (1).

6. The three-glass two-cavity aluminum alloy door and window according to claim 5, wherein: the bottom of manger plate frame (4) extends to being close to window frame (1) direction, and with window frame (1) are connected, still be provided with separation net (5) on the bottom of manger plate frame (4), the bottom of manger plate frame (4) is through separation net (5) and external intercommunication, the bottom of leading to water passageway (3) communicates with the bottom of manger plate frame (4).

7. The three-glass two-cavity aluminum alloy door and window according to claim 6, wherein: the bottom end of the water baffle frame (4) is also provided with a sealing plate (6), the sealing plate (6) is in sliding connection with the water baffle frame (4), and the sealing plate (6) can cover the barrier net (5) when sliding.

8. The three-glass two-cavity aluminum alloy door and window according to claim 5, wherein: the top end of the water blocking frame (4) extends upwards and is higher than the inner bottom wall of the window groove (11).