CN113356738A

CN113356738A - Aluminum alloy door and window with drainage anti-blocking structure and implementation method thereof

Info

Publication number: CN113356738A
Application number: CN202110845672.2A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Zhejiang Ruiming Energy Saving Door And Window Technology Co ltd
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2021-09-07
Anticipated expiration: 2041-07-26
Also published as: CN113356738B

Abstract

The invention relates to the technical field of aluminum alloy doors and windows, discloses an aluminum alloy door and window with a drainage anti-blocking structure, and also discloses an implementation method of the aluminum alloy door and window with the drainage anti-blocking structure. Including the back timber pole with install the curb girder pole at back timber pole both ends, and install the sill beam pole at side girder pole lower extreme, if the rainwater is less, accessible outlet B discharges, if the water yield is great, because the position of through-hole is in under the water inlet, water gushes into the casing through the through-hole, the power of through-hole rainwater displacement drives the elastic component extension, and drive the push pedal that is close to casing one end and promote forward, discharge the dust of outlet B department, and at this moment, outlet A is kept away from to the push pedal of outlet A department, can be so that outlet A and outlet B dredge simultaneously, if the rainwater floods when too much anti-blocking assembly, the balancing pole resumes balance, the push pedal resumes the normal position, be convenient for drainage and mediation.

Description

Aluminum alloy door and window with drainage anti-blocking structure and implementation method thereof

Technical Field

The invention relates to the technical field of aluminum alloy doors and windows, in particular to an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof.

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 is commonly used for packaging balconies in home decoration. The surface of the aluminum alloy is oxidized, smooth and shiny. The window sash frame is large, glass with a large area can be embedded, indoor light is sufficient and bright, the virtual-real contrast of vertical surfaces between the indoor space and the outdoor space is enhanced, and a room is rich in layers. The aluminum alloy is easy to extrude, the cross section of the section bar is accurate in size, and the processing accuracy is high, so that aluminum alloy doors and windows are selected by many owners in decoration.

In aluminum alloy window installation, if meet rainwater weather, the rainwater permeates in the gap through aluminum alloy door and window very easily, and the inside drainage structures's that sets up of general aluminum alloy door and window aperture is less, and the dust of outside blows into the aperture with wind easily, blocks up the outlet easily, leads to drainage effect not good, and general drainage structures installs the bottom at the aluminum alloy usually, and the unable drainage of rainwater of both sides infiltration leads to the result of use not good.

Aiming at the problems, the existing device is improved, and the aluminum alloy door and window with the drainage anti-blocking structure and the implementation method thereof are provided.

Disclosure of Invention

The invention aims to provide an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof, if rainwater is less, the rainwater can be drained through a drainage outlet B, if the water quantity is larger, because the position of a through hole is positioned at the right lower end of a water inlet, water flows into a shell through the through hole, the force of rainwater squeezing of the through hole drives an elastic part to extend and drives a push plate close to one end of the shell to push forwards to drain dust at the drainage outlet B, at the moment, the push plate at the drainage outlet A is far away from the drainage outlet A, so that the drainage outlet A and the drainage outlet B can be dredged simultaneously, if rainwater submerges an anti-blocking component too much, a balance rod is restored to be balanced, and the push plate is restored to be in place, so that drainage and dredging are facilitated, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: an aluminum alloy door and window with a drainage anti-blocking structure comprises a top beam rod, side beam rods and a bottom beam rod, wherein the side beam rods are arranged at two ends of the top beam rod, the bottom beam rod is arranged at the lower end of the side beam rod, the combined structure of the top beam rod, the side beam rods and the bottom beam rod is square, an outer frame is movably arranged in the top beam rod, a glass piece is arranged in the outer frame, a water outlet A and a water outlet B are machined in the outer surface of the bottom beam rod, and two groups of water outlets A and B are arranged;

the top beam rod comprises a cross section A processed at two ends of the top beam rod and an insert column installed at one end of the cross section A.

Furthermore, the side beam rod comprises a cross section B processed at two ends of the side beam rod and a reinforcing plate arranged inside the side beam rod, the inside of the side beam rod is subjected to space separation through the reinforcing plate, a water blocking chamber, a clamping chamber and a heat preservation chamber are sequentially arranged from outside to inside, the inside of the clamping chamber is matched with the outer frame, and two ends of the clamping chamber are matched with the inserting columns.

Furthermore, the chamber that blocks water is including installing the water bar A that blocks water the indoor wall and the hydrophobic spare of movable mounting in the hydroecium that blocks water, and the axis is installed at the inside both ends of hydrophobic spare, and surface mounting has the drainage bar, and water bar A longest end sets up in the drainage bar and leans on the outside, and the lower extreme of hydrophobic spare is provided with water bar B.

Furthermore, a waterproof layer, a heat insulation layer and a heat insulation layer are sequentially arranged in the heat insulation chamber from outside to inside.

Further, the floorbar rod comprises an outer section bar and an isolation cavity mounted inside the outer section bar, a cover plate is fixedly mounted at the upper end of the outer section bar, a sliding groove is formed in the upper surface of the cover plate, a water inlet is formed in the upper surface of the sliding groove and communicated with the inside of the isolation cavity, the isolation cavity is communicated with a water blocking chamber, a through hole is formed in the upper surface of the isolation cavity and matched with the water inlet, and an anti-blocking assembly is mounted inside the isolation cavity.

Further, prevent stifled subassembly including setting up at the inside casing of keeping apart the cavity and movable mounting at the inside balancing pole of keeping apart the cavity, one side that the balancing pole back end is close to the casing is provided with and keeps apart cavity inner wall swing joint's a piece, the both sides movable mounting of the other end of balancing pole has the push rod, the other end of push rod is provided with the push pedal, push pedal and outlet A and outlet B phase-match.

Further, prevent stifled subassembly still including processing at the through-hole of casing upper surface and setting at the inside elastic component of casing to and set up the connecting block in elastic component one end, the other end and the balancing pole of connecting block are connected, and the casing setting is on the top of balancing pole.

Further, outer frame includes section bar spare A and the portion of bending of processing in section bar spare A one side, section bar spare B is installed through the lock of the portion of bending to section bar spare A's one end, moving mechanism is installed in running through to section bar spare B's bottom, section bar spare A's inside is provided with the steady piece, the last surface machining of steady piece is fluted, recess and glass spare phase-match, and the rubber pad is installed at the both ends of glass spare, the section bar C of being connected with section bar spare A is installed to moving mechanism's upper end.

Further, moving mechanism includes the installed part with section bar spare B through connection and sets up the removal wheel at the installed part lower extreme, removes wheel and spout phase-match, and the packing is installed to the upper end of installed part, and section bar C is installed at the both ends of packing.

The invention provides another technical scheme that: the implementation method of the aluminum alloy door and window with the drainage and anti-blocking structure comprises the following steps:

s1: an operator clamps the cross section A at one end of the top beam rod with the cross section B at one end of the side beam rod, and clamps the inserted column at one end of the cross section A with the clamping chamber at one side of the cross section B, namely the assembly of the top beam rod and the side beam rod is completed, and the assembly of the top beam rod, the side beam rod and the bottom beam rod is completed in the same way;

s2: when raining, rainwater on the side surface gushes through one end of the side beam rod, is blocked by the water retaining strip A at the upper end and falls on the upper end of the drainage strip, and the weight of the rainwater drives the drainage piece on the inner wall of the drainage strip to roll along the central shaft so as to discharge the water to the bottom end of the water blocking chamber;

s3: rainwater flowing in from the front side is accumulated at the upper end of the bottom beam rod, and when the outer frame is closed, water in the sliding chute flows into the isolation chamber through the water inlet and is discharged through the water outlet A;

s4: during water gushed into outer section bar through the through-hole, the power of rainwater displacement drove the elastic component extension to the push pedal that drives near casing one end promotes forward, can accomplish the mediation to outlet B department, if the rainwater did not cross when preventing stifled subassembly, the push pedal resumes the normal position.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof, wherein two ends of a top beam rod are provided with cross sections A, one end of each cross section A is fixedly provided with an insert column, two ends of a side beam rod are provided with cross sections B clamped with the cross sections A, the interior of the side beam rod is spatially separated by a reinforcing plate, and is sequentially provided with a water blocking chamber, a clamping chamber and a heat preservation chamber from outside to inside, two ends of the clamping chamber are matched with the insert columns, an operator clamps the cross sections A at one end of the top beam rod and the cross sections B at one end of the side beam rod and clamps the insert columns at one end of the cross sections A and the clamping chamber at one side of the cross sections B, namely completes the assembly of the top beam rod and the side beam rod, and similarly completes the assembly of the top beam rod, the side beam rod and the bottom beam rod, the interior of the clamping chamber is matched with an outer frame, when the door and window is closed, the outer frame can be clamped in the aluminum alloy clamping chamber, the embedded installation is convenient for water and sound insulation and prevents the generation of gaps, and the waterproof layer, the heat insulation layer and the heat insulation layer are sequentially installed in the heat insulation chamber from outside to inside, so that the water in doors and windows can be prevented from permeating, a good heat insulation effect can be conveniently achieved in the chamber, and the isolation effect is good;

2. the invention provides an aluminum alloy door and window with a drainage and anti-blocking structure and an implementation method thereof.A water retaining strip A is arranged on the inner wall of a water blocking chamber, a drainage piece is movably arranged in the water blocking chamber, central shafts are arranged at two ends in the drainage piece, a drainage strip is arranged on the outer surface of the drainage piece, a water retaining strip B is arranged at the lower end of the drainage piece, when raining, rainwater on the side surface gushes in through one end of a side beam rod, the longest end of the water retaining strip A is arranged at the outer part of the drainage strip, the rainwater is blocked by the water retaining strip A at the upper end and falls on the upper end of the drainage strip, the weight of the rainwater drives the drainage piece on the inner wall of the drainage strip to roll along the central shaft, so that the water can be conveniently drained to the bottom end of the water blocking chamber, and finally is drained through the drainage port A and the drainage port B, and the water inlet of the side end of a window is prevented;

3. the invention provides an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof, wherein a balancing rod is arranged in an isolation chamber, one side of the back end of the balancing rod, which is close to a shell, is provided with a supporting block movably connected with the inner wall of the isolation chamber to form a lever structure taking the supporting block as a fulcrum, push rods are movably arranged at two sides of the other end of the balancing rod, the other end of each push rod is provided with a push plate, the push plates are matched with a drainage port A and a drainage port B, rainwater flowing from the front side is accumulated at the upper end of a bottom beam rod, an outer frame is closed, simultaneously, a moving wheel at the lower end of the outer frame slides along a sliding groove and drives water in the sliding groove to flow into the isolation chamber through a water inlet, under the condition that the isolation chamber has no water, the push plate close to one end of the drainage port A blocks the drainage port A, and can be drained through the drainage port B if the rainwater is less, if the water quantity is large, the through hole is positioned at the right lower end of the water inlet, water flows into the shell through the through hole, the elastic piece is driven to extend by the force of rainwater displacement of the through hole, and the push plate close to one end of the shell is driven to push forwards to discharge dust at the water outlet B, at the moment, the push plate at the water outlet A is far away from the water outlet A, so that the water outlet A and the water outlet B can be dredged simultaneously, if the anti-blocking component is submerged by too much rainwater, the balance rod is restored to be balanced, and the push plate is restored to be in place, so that the water is drained and dredged conveniently;

4. the invention provides an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof.

Drawings

FIG. 1 is a schematic view of the overall structure of an aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention;

FIG. 2 is a schematic view of the connection structure of the top beam rod and the side beam rod of the aluminum alloy door/window with the drainage and anti-blocking structure according to the present invention;

FIG. 3 is a cross-sectional view of a side beam rod of an aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention;

FIG. 4 is a partial cross-sectional view of a sill bar of an aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention;

FIG. 5 is a top view of a bottom beam rod of the aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention;

FIG. 6 is a partial cross-sectional view of the outer frame of the aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention;

fig. 7 is an enlarged view of a portion a in fig. 6 of the aluminum alloy door/window with a drainage and anti-blocking structure according to the present invention.

In the figure: 1. a roof beam rod; 11. cross section A; 12. inserting a column; 2. a side rail; 21. cross section B; 22. a reinforcing plate; 23. a water blocking chamber; 231. a water bar A; 232. a hydrophobic member; 233. a middle shaft; 234. a drainage strip; 235. a water bar B; 24. a clamping chamber; 25. a heat preservation chamber; 251. a waterproof layer; 252. a thermal insulation layer; 253. a heat-insulating layer; 3. a bottom beam bar; 31. an outer profile; 32. an isolation chamber; 33. a cover plate; 34. a chute; 35. a water inlet; 36. a through hole; 37. an anti-clogging component; 371. a housing; 372. a balancing pole; 373. supporting a block; 374. a push rod; 375. pushing the plate; 376. a through hole; 377. an elastic member; 378. connecting blocks; 4. an outer frame; 41. a profile piece A; 42. a bending part; 43. a profile piece B; 44. a moving mechanism; 441. a mounting member; 442. a moving wheel; 443. a filling member; 45. a stabilizing block; 46. a groove; 47. a rubber pad; 48. section C; 5. a glass member; 6. a water outlet A; 7. and a water outlet B.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an aluminum alloy door and window with a drainage anti-blocking structure comprises a top beam rod 1, side beam rods 2 arranged at two ends of the top beam rod 1, and a bottom beam rod 3 arranged at the lower end of the side beam rod 2, wherein the combined structure of the top beam rod 1, the side beam rods 2 and the bottom beam rod 3 is square, an outer frame 4 is movably arranged inside, a glass piece 5 is arranged inside the outer frame 4, a water outlet A6 and a water outlet B7 are machined in the outer surface of the bottom beam rod 3, and two groups of water outlets A6 and B7 are arranged.

Referring to fig. 1 and 2, the top beam rod 1 includes a cross section a11 processed at two ends of the top beam rod 1 and an insert post 12 installed at one end of a cross section a11, the side beam rod 2 includes a cross section B21 processed at two ends of the side beam rod 2 and a reinforcing plate 22 installed inside the side beam rod 2, the inside of the side beam rod 2 is spatially separated by the reinforcing plate 22, and a water blocking chamber 23, a clamping chamber 24 and a heat preservation chamber 25 are sequentially arranged from outside to inside, the inside of the clamping chamber 24 is matched with the outer frame 4, and two ends are matched with the insert post 12, an operator clamps the cross section a11 at one end of the top beam rod 1 and the cross section B21 at one end of the side beam rod 2, and clamps the insert post 12 at one end of the cross section a11 and the clamping chamber 24 at one side of the cross section B21, namely completes the assembly of the top beam rod 1 and the side beam rod 2, and completes the assembly of the top beam rod 1, the side beam rod 2 and the bottom rod 3, and the inside of the clamping chamber 24 is matched with the outer frame 4, when closing this aluminum alloy door and window, outer frame 4 can block in block chamber 24, and embedded installation is convenient for water proof and sound insulation, prevents to produce the space.

Referring to fig. 2 and 3, the water blocking chamber 23 includes a water bar a231 installed on an inner wall of the water blocking chamber 23 and a water drainage member 232 movably installed inside the water blocking chamber 23, a central shaft 233 is installed at both ends inside the water drainage member 232, and the outer surface is provided with a drainage strip 234, when raining, rainwater on the side surface gushes in through one end of the side beam rod 2, the longest end of the water retaining strip A231 is arranged at the outer part of the drainage strip 234, the rainwater is blocked by the water retaining strip A231 at the upper end, and falls on the upper end of the drainage bar 234, the weight of the rainwater drives the drainage piece 232 on the inner wall of the drainage bar 234 to roll along the central shaft 233, so as to conveniently drain the water to the bottom end of the water-blocking chamber 23, and finally the water is discharged through the water outlet A6 and the water outlet B7 together, so as to prevent the water from entering the side end of the window, the heat preservation chamber 25 is sequentially provided with a waterproof layer 251, a heat insulation layer 252 and a heat preservation layer 253 from outside to inside, can prevent the water infiltration in the door and window, be convenient for to indoor good heat preservation effect of playing, keep apart effectually.

Referring to fig. 4 and 5, the bottom beam rod 3 includes an outer section 31 and an isolation chamber 32 installed inside the outer section 31, a cover plate 33 is fixedly installed at the upper end of the outer section 31, a sliding groove 34 is processed on the upper surface of the cover plate 33, a water inlet 35 is arranged on the upper surface of the sliding groove 34, the water inlet 35 is communicated with the inside of the isolation chamber 32, the isolation chamber 32 is communicated with the water blocking chamber 23, a through hole 36 is processed on the upper surface of the isolation chamber 32, the through hole 36 is matched with the water inlet 35, an anti-blocking assembly 37 is installed inside the isolation chamber 32, the anti-blocking assembly 37 includes a shell 371 arranged inside the isolation chamber 32 and a balance rod 372 movably installed inside the isolation chamber 32, a support block 373 movably connected with the inner wall of the isolation chamber 32 is arranged on one side of the back end of the balance rod 372 close to the shell 371, push rods 374 are movably installed on two sides of the other end of the balance rod 372, and a push plate 375 is arranged on the other end of the push rod 374, the push plate 375 is matched with the water outlet A6 and the water outlet B7, rainwater flowing in from the front side is accumulated at the upper end of the bottom beam rod 3, the outer frame 4 is closed, meanwhile, the moving wheel 442 at the lower end of the outer frame 4 slides along the sliding groove 34 and drives water in the sliding groove 34 to flow into the isolation chamber 32 through the water inlet 35, under the condition that the isolation chamber 32 is free of water, the push plate 375 close to one end of the water outlet A6 blocks the water outlet A6, external dust is prevented from blocking the water outlet A6, and if the rainwater is less, the rainwater can be discharged through the water outlet B7.

Referring to fig. 5, the anti-blocking assembly 37 further includes a through hole 376 formed in the upper surface of the housing 371, an elastic member 377 arranged inside the housing 371, and a connection block 378 arranged at one end of the elastic member 377, the other end of the connection block 378 is connected with the balancing rod 372, and the housing 371 is arranged at the top end of the balancing rod 372, when the water displacement is large, because the position of the through hole 376 is located at the lower end of the water inlet 35, water flows into the housing 371 through the through hole 376, the elastic member 377 is extended by the force of rainwater displacement of the through hole 376, and the push plate 375 near one end of the housing 371 is pushed forward, dust at the water outlet B7 is discharged, and at this time, the push plate 375 at the water outlet a6 is far away from the water outlet a6, so that the water outlet a6 and the water outlet B7 can be dredged simultaneously, if the anti-blocking assembly 37 is too much, the balancing rod 372 is submerged, and the push plate 375 recovers to be in place, thereby facilitating drainage and dredging.

Referring to fig. 6 and 7, the outer frame 4 includes a profile a41 and a bending portion 42 formed at one side of the profile a41, one end of the profile a41 is snap-fitted with a profile B43 through the bending portion 42 to facilitate waterproofing at the outer frame 4, a moving mechanism 44 is mounted at the bottom end of the profile B43 in a penetrating manner, a fixing block 45 is disposed inside the profile a41, a groove 46 is formed on the upper surface of the fixing block 45, the groove 46 is matched with the glass element 5, and rubber pads 47 are mounted at two ends of the glass element 5 to make the connection between the glass element 5 and the outer frame 4 tighter, a profile C48 connected with the profile a41 is mounted at the upper end of the moving mechanism 44, the moving mechanism 44 includes a mounting member 441 connected with the profile B43 in a penetrating manner and a moving wheel 442 disposed at the lower end of the mounting member 441, the moving wheel 442 is matched with the chute 34, a filling member 443 is mounted at the upper end of the mounting member 441, and C48 is mounted at two ends of the filling member 443, the bottom of the outer frame 4 is prevented from water seepage, and the water-proof effect is good.

In order to better explain the above examples, the invention also provides an implementation scheme, and an implementation method of the aluminum alloy door and window with the drainage and anti-blocking structure comprises the following steps:

the method comprises the following steps: an operator clamps the cross section A11 at one end of the top beam rod 1 with the cross section B21 at one end of the side beam rod 2, and clamps the inserted column 12 at one end of the cross section A11 with the clamping chamber 24 at one side of the cross section B21, namely the assembly of the top beam rod 1 and the side beam rod 2 is completed, and similarly, the assembly of the top beam rod 1, the side beam rod 2 and the bottom beam rod 3 is completed;

step two: when raining, rainwater on the side surface gushes in through one end of the side beam rod 2, the rainwater is blocked by the water blocking strip A231 on the upper end and falls on the upper end of the drainage strip 234, and the weight of the rainwater drives the drainage piece 232 on the inner wall of the drainage strip 234 to roll along the central shaft 233 so as to discharge the water to the bottom end of the water blocking chamber 23;

step three: rainwater flowing in from the front side is accumulated at the upper end of the bottom beam rod 3, and when the outer frame 4 is closed, water in the chute 34 flows into the isolation chamber 32 through the water inlet 35 and is discharged through the water outlet A6;

step four: during water gushed into outer section bar 31 through-hole 376, the power of rainwater displacement drove the extension of elastic component 377 to the push pedal 375 that drives near casing 371 one end promotes forward, can accomplish the mediation to outlet B7 department, if the rainwater when crossing anti-blocking assembly 37, push pedal 375 resumes the normal position.

In summary, the following steps: the invention provides an aluminum alloy door and window with a drainage anti-blocking structure and an implementation method thereof, wherein two ends of a top beam rod 1 are provided with a cross section A11, one end of the cross section A11 is fixedly provided with an insert column 12, two ends of a side beam rod 2 are provided with a cross section B21 clamped with the cross section A11, the inside of the side beam rod 2 is spatially separated by a reinforcing plate 22, and a water blocking chamber 23, a clamping chamber 24 and a heat preservation chamber 25 are sequentially arranged from outside to inside, two ends of the clamping chamber 24 are matched with the insert column 12, an operator clamps the cross section A11 at one end of the top beam rod 1 with the cross section B21 at one end of the side beam rod 2 and clamps the insert column 12 at one end of the cross section A11 with the clamping chamber 24 at one side of the cross section B21, namely the assembly of the top beam rod 1 and the side beam rod 2 is completed, the assembly of the top beam rod 1, the side beam rod 2 and a bottom beam rod 3 is completed in the same way, the inside of the clamping chamber 24 is matched with an outer frame 4, when the aluminum alloy door and window is closed, the outer frame 4 can be clamped into the clamping chamber 24, the embedded installation is convenient for water and sound insulation and gap generation is prevented, the waterproof layer 251, the heat insulation layer 252 and the heat insulation layer 253 are sequentially installed in the heat insulation chamber 25 from outside to inside, water infiltration in doors and windows can be prevented, good heat insulation effect can be conveniently achieved indoors, the isolation effect is good, the water blocking strip A231 is installed on the inner wall of the water blocking chamber 23, the water blocking chamber 23 is movably installed with the water draining piece 232, the middle shaft 233 is installed at two ends of the interior of the water draining piece 232, the water draining strip 234 is installed on the outer surface of the interior of the water draining piece 232, the water blocking strip B235 is arranged at the lower end of the water draining piece 232, rainwater on the side surface gushes through one end of the side beam rod 2 during raining, the longest end of the water blocking strip A231 is arranged at the outer part of the water draining strip 234, the rainwater is blocked by the water blocking strip A231 and falls at the upper end of the water draining strip 234, the weight of the rainwater drives the water draining piece 232 to roll along the middle shaft 233, and water is conveniently drained to the bottom end of the water blocking chamber 23, finally, the water is discharged together through the water outlet A6 and the water outlet B7 to prevent water from entering the side end of the window, a balance rod 372 is installed inside the isolation chamber 32, a support block 373 movably connected with the inner wall of the isolation chamber 32 is arranged on one side, close to the shell 371, of the back end of the balance rod 372 to form a lever structure with the support block 373 as a fulcrum, push rods 374 are movably installed on two sides of the other end of the balance rod 372, a push plate 375 is arranged on the other end of each push rod 374, the push plate 375 is matched with the water outlet A6 and the water outlet B7, rainwater flowing in from the front is accumulated at the upper end of the bottom beam rod 3, when the outer frame 4 is closed, the moving wheel 442 at the lower end of the outer frame 4 slides along the sliding chute 34 and drives water inside the sliding chute 34 to flow into the isolation chamber 32 through the water inlet 35, and under the condition that the isolation chamber 32 has no water, the push plate 375 near one end of the water outlet A6 blocks the water outlet A6 to prevent external dust from blocking the water outlet A6, if the rainwater is less, the rainwater can be discharged through the water outlet B7, if the water quantity is larger, because the position of the through hole 376 is positioned at the lower end of the water inlet 35, the water flows into the shell 371 through the through hole 376, the force of the rainwater displacement of the through hole 376 drives the elastic member 377 to extend and drive the push plate 375 near one end of the shell 371 to push forwards, so that the dust at the position of the water outlet B7 is discharged, at the moment, the push plate 375 at the position of the water outlet A6 is far away from the water outlet A6, so that the water outlet A6 and the water outlet B7 can be dredged simultaneously, if the anti-blocking component 37 is submerged by too much rainwater, the balance rod 372 restores to the original position, the push plate 375 is convenient to drain and dredge, the bending part 42 is arranged on one side of the section A41, the section B43 is installed at one end of the section A41 in a buckling mode through the bending part 42, so that the outer frame 4 can prevent water, the bottom end of the section B43 is provided with the moving mechanism 44 in a penetrating way, and the stabilizing block 45 is arranged inside the section A41, the upper surface of stabilizing block 45 is processed with recess 46, recess 46 and glass spare 5 phase-match, and the rubber pad 47 is installed at the both ends of glass spare 5 for the connection of glass spare 5 and outer frame 4 junction is comparatively inseparable, and section bar C48 of being connected with section bar A41 is installed to the upper end of moving mechanism 44, and section bar C48 internally mounted has filling member 443, prevents outer frame 4 bottom infiltration, and the water proof is effectual.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an aluminum alloy door and window with stifled structure of drainage, includes roof beam pole (1) and installs side beam pole (2) at roof beam pole (1) both ends to and install bottom beam pole (3) at side beam pole (2) lower extreme, its characterized in that: the combined structure of the top beam rod (1), the side beam rod (2) and the bottom beam rod (3) is square, an outer frame (4) is movably mounted inside the combined structure, a glass piece (5) is mounted inside the outer frame (4), a water outlet A (6) and a water outlet B (7) are machined in the outer surface of the bottom beam rod (3), and two groups of water outlets A (6) and B (7) are arranged;

the top beam rod (1) comprises a cross section A (11) processed at two ends of the top beam rod (1) and an inserting column (12) fixedly installed at one end of the cross section A (11).

2. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 1, characterized in that: side roof beam pole (2) carry out space separation including processing cross section B (21) at side roof beam pole (2) both ends and set up gusset plate (22) inside side roof beam pole (2), the inside of side roof beam pole (2) through gusset plate (22), and by outer to interior water blocking chamber (23), block room (24) and heat preservation room (25) of having set gradually, the inside and outer frame (4) phase-match of block room (24), and both ends with insert post (12) phase-match.

3. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 2, characterized in that: the water blocking chamber (23) comprises a water blocking strip A (231) arranged on the inner wall of the water blocking chamber (23) and a hydrophobic part (232) movably arranged in the water blocking chamber (23), a middle shaft (233) is arranged at two ends of the interior of the hydrophobic part (232), a drainage strip (234) is arranged on the outer surface of the interior of the hydrophobic part (232), the longest end of the water blocking strip A (231) is arranged on the outer portion of the drainage strip (234), and a water blocking strip B (235) is arranged at the lower end of the hydrophobic part (232).

4. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 2, characterized in that: the heat preservation chamber (25) is sequentially provided with a waterproof layer (251), a heat insulation layer (252) and a heat preservation layer (253) from outside to inside.

5. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 1, characterized in that: bottom beam pole (3) include outer section bar (31) and install isolation cavity (32) in outer section bar (31) inside, the upper end fixed mounting of outer section bar (31) has apron (33), the last surface machining of apron (33) has spout (34), the upper surface of spout (34) is provided with water inlet (35), water inlet (35) communicate with each other with the inside of isolating cavity (32), and isolate cavity (32) and hinder hydroecium (23) and communicate with each other, it has through hole (36) to isolate cavity (32) upper surface machining, through hole (36) and water inlet (35) phase-match, it has anti-blocking assembly (37) to isolate cavity (32) internally mounted.

6. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 5, characterized in that: prevent stifled subassembly (37) including setting up at casing (371) and the movable mounting inside balancing pole (372) of keeping apart cavity (32) inside of keeping apart cavity (32), one side that balancing pole (372) back end is close to casing (371) is provided with and keeps apart cavity (32) inner wall swing joint's brace piece (373), the both sides movable mounting of the other end of balancing pole (372) has push rod (374), the other end of push rod (374) is provided with push pedal (375), push pedal (375) and outlet A (6) and outlet B (7) phase-match.

7. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 6, characterized in that: the anti-blocking assembly (37) further comprises a through hole (376) processed on the upper surface of the shell (371), an elastic piece (377) arranged inside the shell (371), and a connecting block (378) arranged at one end of the elastic piece (377), the other end of the connecting block (378) is connected with the balance rod (372), and the shell (371) is arranged at the top end of the balance rod (372).

8. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 1, characterized in that: outer frame (4) include section bar spare A (41) and processing at section bar spare A (41) one side portion of bending (42), section bar spare B (43) are installed through portion of bending (42) lock to the one end of section bar spare A (41), moving mechanism (44) are installed in running through to the bottom of section bar spare B (43), the inside of section bar spare A (41) is provided with firm piece (45), the upper surface processing of firm piece (45) is fluted (46), recess (46) and glass spare (5) phase-match, and rubber pad (47) are installed at the both ends of glass spare (5), section bar C (48) of being connected with section bar spare A (41) are installed to the upper end of moving mechanism (44).

9. The aluminum alloy door and window with the drainage anti-blocking structure as claimed in claim 8, characterized in that: the moving mechanism (44) comprises a mounting piece (441) which is connected with the section piece B (43) in a penetrating way and a moving wheel (442) which is arranged at the lower end of the mounting piece (441), the moving wheel (442) is matched with the sliding groove (34), the upper end of the mounting piece (441) is provided with a filling piece (443), and both ends of the filling piece (443) are provided with the section pieces C (48).

10. The method for implementing the aluminum alloy door and window with the drainage and anti-blocking structure as claimed in any one of claims 1 to 9, characterized by comprising the following steps:

s1: an operator clamps the cross section A (11) at one end of the top beam rod (1) with the cross section B (21) at one end of the side beam rod (2), and clamps the insertion column (12) at one end of the cross section A (11) with the clamping chamber (24) at one side of the cross section B (21), namely the assembly of the top beam rod (1) and the side beam rod (2) is completed, and the assembly of the top beam rod (1), the side beam rod (2) and the bottom beam rod (3) is completed in the same way;

s2: when raining, rainwater on the side surface is gushed through one end of the side beam rod (2), the rainwater is blocked by the water blocking strip A (231) at the upper end and falls on the upper end of the drainage strip (234), and the weight of the rainwater drives the drainage piece (232) on the inner wall of the drainage strip (234) to roll along the central shaft (233) so as to discharge the water to the bottom end of the water blocking chamber (23);

s3: rainwater flowing in from the front side is accumulated at the upper end of the bottom beam rod (3), the outer frame (4) is closed, and meanwhile, water in the sliding chute (34) flows into the isolation chamber (32) through the water inlet (35) and is discharged through the water outlet A (6);

s4: during water gushed into casing (371) through-hole (376), the power that the rainwater was crowded drives elastic component (377) extension to drive push pedal (375) that are close to casing (371) one end and promote forward, can accomplish the mediation to outlet B (7) department, if the rainwater did not cross when preventing stifled subassembly (37), push pedal (375) resume the normal position.