CN114215459B

CN114215459B - High-tightness energy-saving aluminum alloy door and window

Info

Publication number: CN114215459B
Application number: CN202111519283.7A
Authority: CN
Inventors: 上官峰; 孔艳梅; 王强; 王晓凤; 朱峰; 张腾龙
Original assignee: SHANDONG XIONGSHI ARCHITECTURE DECORATION CO Ltd
Current assignee: SHANDONG XIONGSHI ARCHITECTURE DECORATION CO Ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2023-08-15
Anticipated expiration: 2041-12-14
Also published as: CN114215459A

Abstract

The invention discloses an energy-saving aluminum alloy door and window with high sealing performance, and belongs to the field of energy-saving aluminum alloy doors and windows. The utility model provides a high leakproofness energy-conserving aluminum alloy door and window, includes the frame and connects the window on the frame, be connected with the slide rail between frame and the window, the slide rail is including rotating the guide rail of connecting on the frame, sliding connection has the slide on the guide rail, the slide rotates to be connected on the window, swivelling joint has the handle that has the card strip on the window, the outside fixedly connected with first sealing washer all around of window, the seal groove has been seted up to the inside all around of frame, fixedly connected with second sealing washer in the seal groove, first sealing washer and second sealing washer are hollow structure; the sealing structure can be expanded and clung when the window is closed, so that the sealing structure can be clung to the window, and can be expanded by pressure gas in cold weather, so that the sealing structure can be effectively sealed, and cold air is prevented from entering a room.

Description

High-tightness energy-saving aluminum alloy door and window

Technical Field

The invention relates to the technical field of energy-saving aluminum alloy doors and windows, in particular to a high-tightness energy-saving aluminum alloy door and window.

Background

The energy-saving aluminum alloy door and window is the most basic configuration of a general house, the door and window made of aluminum alloy materials is strong in fire resistance, long in using time, energy-saving in protection and is the most important factor affecting lighting, ventilation and comfort, the energy-saving aluminum alloy extruded profiles are used as door and window scales made of frames, stiles and fan materials, the window can be used for preventing rain and snow from being scraped into the house and ensuring ventilation in sunny days, air circulation and indoor air environment are ensured, sunlight and ventilation are required in sunny days in particular in winter, the window is required to be tightly closed in rainy days and snowy days, cold air is prevented from being blown in, indoor supercooling is realized, in order to ensure sealing effect, at present, sealing strips are simply connected to the window for simple sealing, but the sealing strips have the phenomenon of thermal expansion and cold contraction, the weather is too cold, the sealing strips shrink, and a certain risk is caused at the moment, and the cold air is blown into a room.

Disclosure of Invention

The invention aims to solve the problems of poor sealing effect of the traditional sealing strip in cold weather in the prior art, and provides an energy-saving aluminum alloy door and window with high sealing performance.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an energy-conserving aluminum alloy door and window of high leakproofness, includes the frame and connects the window on the frame, be connected with the slide rail between frame and the window, the slide rail is including rotating the guide rail of connection on the frame, sliding connection has the slide on the guide rail, the slide rotates to be connected on the window, swivelling joint has the handle of card strip on the window, the outside fixedly connected with first sealing washer all around of window, the seal groove has been seted up to the frame inboard all around, fixedly connected with second sealing washer in the seal groove, first sealing washer and second sealing washer are hollow structure, fixedly connected with inflator on the guide rail, sliding seal is connected with the piston rod in the inflator, piston rod fixedly connected with is on the slide, the inflator with second sealing washer intercommunication.

Preferably, the inner wall of the first sealing ring is fixedly connected with a plurality of ferromagnetic sheets, and the second sealing ring is filled with iron powder.

Preferably, the frame is fixedly connected with a box body, the box body is provided with a buffer tank, the buffer tank is connected with the second sealing ring through a gas pipe, an inclined baffle is fixedly connected to the buffer tank, a filter screen is connected between the inclined baffle and the inner wall of the buffer tank, and the inclined baffle is positioned above the gas pipe;

the one-way air inlet pipe with the one-way valve and the one-way air charging pipe are connected to the inflator pump, an air outlet pipe communicated with the one-way air inlet pipe is connected to the upper end of the buffer tank, and an air blowing pipe communicated with the one-way air charging pipe is fixedly connected to the lower end of the buffer tank.

Preferably, the buffer tank is connected with a powder adding cover, and one end of the air blowing pipe positioned in the buffer tank is fixedly connected with a gauze.

Preferably, a filter box is further connected between the one-way air inlet pipe and the air outlet pipe, the air outlet pipe is connected to one side of the filter box, and the one-way air inlet pipe is positioned at the other side of the filter box;

the filter box is characterized by further comprising a water storage pipe fixedly connected in the box body, wherein the lower end of the water storage pipe is connected with a spraying pipe, the lower end of the spraying pipe is arranged in the filter box and is connected with a spraying head, and the spraying head is positioned on the upper side of a pipe orifice of the air outlet pipe.

Preferably, a pulling valve is connected to the spraying pipe, a first driving cylinder communicated with the filtering box is fixedly connected to the filtering box, a first piston rod is connected to the first driving cylinder in a sliding sealing manner, and the upper end of the first piston rod is connected with a pulling switch of the pulling valve.

Preferably, the right side of the lower end of the filter box is connected with a plug door, a groove is arranged in the plug door, and the bottom wall of the groove is of an inclined structure.

Preferably, a heating tank is connected between the air blowing pipe and the unidirectional air charging pipe, one end of the heating tank is connected with the air blowing pipe, and the other end of the heating tank is connected with the unidirectional air charging pipe.

Preferably, the box body is fixedly connected with a liquid box, a plurality of heating pipes are inserted into the heating tank, the lower end of the liquid box is connected with a dripping pipe, and the water outlet end of the dripping pipe is positioned above the heating pipes.

Preferably, the dripping pipe is connected with a pressing valve, the heating tank is fixedly connected with a second driving cylinder, the second driving cylinder is communicated with the heating tank, a second piston rod is connected in the second driving cylinder in a sliding sealing manner, and the upper end of the second piston rod is propped against a pressing switch of the pressing valve.

Compared with the prior art, the invention provides the high-tightness energy-saving aluminum alloy door and window, which has the following beneficial effects:

1. this energy-conserving aluminum alloy door and window of high leakproofness adopts rubber materials through first sealing washer and second sealing washer, can shrink, adopts hollow structure, in the second sealing washer of hollow structure is carried to the gas transmission in the inflator in the time closing the window, plays fine sealed effect, compares direct sealing strip and seals, can expand when this seal structure closes the window and hugs closely, realizes hugging closely sealedly, also can receive the pressure gas to expand at chilly weather, realizes effectual sealedly, has avoided cold wind to get into indoor.

Drawings

FIG. 1 is a schematic diagram of a high-tightness energy-saving aluminum alloy door and window according to the present invention;

FIG. 2 is a second schematic diagram of a high-tightness energy-saving aluminum alloy door and window according to the present invention;

fig. 3 is a schematic diagram of a frame structure of a high-tightness energy-saving aluminum alloy door and window according to the present invention;

fig. 4 is a schematic side structural view of a high-tightness energy-saving aluminum alloy door and window according to the present invention;

fig. 5 is a front view of an energy-saving aluminum alloy door and window with high sealing performance;

fig. 6 is a schematic diagram of the internal structure of a box body of the high-tightness energy-saving aluminum alloy door and window provided by the invention;

fig. 7 is a schematic structural diagram of the high-tightness energy-saving aluminum alloy door and window in fig. 6 at a position a;

fig. 8 is a schematic structural diagram of the high-tightness energy-saving aluminum alloy door and window shown in fig. 6 at B;

fig. 9 is a schematic structural diagram of the high-tightness energy-saving aluminum alloy door and window in fig. 6 at C;

fig. 10 is a schematic structural diagram of the high-tightness energy-saving aluminum alloy door and window shown in fig. 6 at D.

In the figure: 1. a frame; 2. a window; 3. a handle; 4. a slide plate; 5. a guide rail; 6. a first seal ring; 7. sealing grooves; 8. a piston rod; 9. an inflator; 10. a one-way air inlet pipe; 11. a unidirectional inflation tube; 12. a case; 13. a water storage pipe; 14. a liquid tank; 15. a gas pipe; 16. iron powder; 17. a second seal ring; 18. a ferromagnetic sheet; 19. a filter screen; 20. an air outlet pipe; 21. a buffer tank; 22. a tilting baffle; 23. adding a powder cover; 24. an air blowing pipe; 25. yarn net cloth; 26. a filter box; 27. a stopper door; 28. a spray tube; 29. a spray head; 30. a first piston rod; 31. a first drive cylinder; 32. pulling the valve; 33. a heating tank; 34. heating pipes; 35. a second driving cylinder; 36. a second piston rod; 37. pressing the valve; 38. the tube was added dropwise.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1:

referring to figures 1-10, a high-tightness energy-saving aluminum alloy door window comprises a frame 1 and a window 2 connected to the frame 1, wherein a sliding rail is connected between the frame 1 and the window 2, the sliding rail comprises a guide rail 5 rotationally connected to the frame 1, a sliding plate 4 is slidingly connected to the guide rail 5, the sliding plate 4 is rotationally connected to the window 2, a handle 3 with a clamping strip is rotationally connected to the window 2, a first sealing ring 6 is fixedly connected to the outer side around the window 2, a sealing groove 7 is formed in the inner side around the frame 1, a second sealing ring 17 is fixedly connected in the sealing groove 7, the first sealing ring 6 and the second sealing ring 17 are hollow structures, an inflator 9 is fixedly connected to the guide rail 5, a piston rod 8 is slidingly and hermetically connected to the inflator 9, the piston rod 8 is fixedly connected to the sliding plate 4, and the inflator 9 is communicated with the second sealing ring 17;

this door and window structure, through hollow structure first sealing washer 6 and second sealing washer 17, mutual extrusion is sealed, first sealing washer 6 can enter into in seal groove 7 when closing the door, thereby can closely laminate with the second sealing washer 17 in the seal groove 7 and seal, first sealing washer 6 and second sealing washer 17 adopt rubber materials, can shrink, adopt hollow structure, when closing window 2, slide 4 can drive piston rod 8 and remove, thereby the gas in inflator pump 9 is compressed, thereby carry hollow structure's second sealing washer 17 in, thereby the expansion is hugged closely first sealing washer 6, play fine sealed effect.

Example 2:

The inner wall of the first sealing ring 6 is fixedly connected with a plurality of ferromagnetic pieces 18, the second sealing ring 17 is internally filled with iron powder 16, after the first sealing ring 6 is inserted into the sealing groove 7, the first sealing ring 6 and the second sealing ring 17 are tightly attached at the moment, and as the iron powder 16 exists in the second sealing ring 17, the first sealing ring 6 contains the plurality of ferromagnetic pieces 18 and can adsorb the iron powder 16, so that the first sealing ring 6 and the second sealing ring 17 are further effectively attached, and the sealing effect is improved.

The frame 1 is fixedly connected with the box body 12, the box body 12 is provided with a buffer tank 21, the buffer tank 21 is connected with the second sealing ring 17 through the gas pipe 15, the buffer tank 21 is fixedly connected with an inclined baffle 22, a filter screen 19 is connected between the inclined baffle 22 and the inner wall of the buffer tank 21, and the inclined baffle 22 is positioned above the gas pipe 15;

the inflator 9 is connected with a one-way air inlet pipe 10 with a one-way valve and a one-way air charging pipe 11, the upper end of the buffer tank 21 is connected with an air outlet pipe 20 communicated with the one-way air inlet pipe 10, and the lower end of the buffer tank 21 is fixedly connected with an air blowing pipe 24 communicated with the one-way air charging pipe 11;

the buffer tank 21 is connected with the powder adding cover 23, one end of the air blowing pipe 24, which is positioned in the buffer tank 21, is fixedly connected with the gauze 25, the arrangement of the buffer tank 21 can timely supplement the iron powder 16 to the buffer tank 21, the unidirectional air inlet pipe 10 and the unidirectional air charging pipe 11 on the air charging pipe 9 are utilized for air suction and air blowing, when air blowing is carried out, a large amount of iron powder 16 is contained in the buffer tank 21, the air blowing pipe 24 is used for blowing the iron powder to the air conveying pipe 15 and is blown into the second sealing ring 17, the sufficient iron powder amount is ensured, the adsorption effect is ensured, in addition, when the air charging pipe 9 is used for sucking air, the arrangement of the inclined baffle 22 and the filter screen 19 can be utilized, the iron powder is effectively prevented from entering the air charging pipe 9, and the gauze 25 of the air blowing pipe 24 and the air blowing head is effectively prevented from entering the air blowing pipe 24, and the powder adding cover 23 timely supplements the iron powder.

Example 3:

the buffer tank 21 is connected with the powder adding cover 23, one end of the air blowing pipe 24 positioned in the buffer tank 21 is fixedly connected with the gauze 25, the iron powder 16 can be timely supplemented into the buffer tank 21 through the arrangement of the buffer tank 21, the unidirectional air inlet pipe 10 and the unidirectional air blowing pipe 11 on the air blowing pipe 9 are utilized for exhausting and blowing air, the structure of the air blowing pipe 9 is the same as the structure principle of an air blowing pipe on the market, when the air blowing is carried out, a large amount of iron powder 16 is contained in the buffer tank 21, the iron powder is blown into the air conveying pipe 15 through the air blowing pipe 24 and blown into the second sealing ring 17, the sufficient iron powder amount is ensured, the adsorption effect is ensured, in addition, when the air blowing pipe 9 is used for sucking air, the iron powder can be effectively prevented from entering the air blowing pipe 9 through the arrangement of the inclined baffle 22 and the gauze 19, the iron powder is effectively prevented from entering the air blowing pipe 24 by the air blowing pipe 25, the iron powder adding cover 23 is required to be timely supplemented, the iron powder is not required to be supplemented, and leakage is not caused by the iron powder adding cover 23 in normal use;

a filter box 26 is further connected between the unidirectional air inlet pipe 10 and the air outlet pipe 20, the air outlet pipe 20 is connected to one side of the filter box 26, and the unidirectional air inlet pipe 10 is positioned on the other side of the filter box 26;

still include the aqua storage tube 13 of fixed connection in box 12, the aqua storage tube 13 lower extreme is connected with spray tube 28, spray tube 28 lower extreme is arranged in the rose box 26 and is connected with sprinkler head 29, sprinkler head 29 is located the mouth of pipe upside of outlet duct 20, when carrying out the convulsions, gas gets into the further filtration of rose box 26, when entering into sprinkler head 29, sprinkler head 29 sprays water, effectually reduce the iron powder get into in the one-way intake pipe 10, the junction of one-way intake pipe 10 and rose box 26 has the filtration sponge that absorbs water, the filtration steam.

The spray pipe 28 is connected with a pulling valve 32, the filter box 26 is fixedly connected with a first driving barrel 31 communicated with the filter box 26, a first piston rod 30 is connected in the first driving barrel 31 in a sliding sealing manner, the upper end of the first piston rod 30 is connected with a pulling switch of the pulling valve 32, when the air is exhausted, the filter box 26 generates negative pressure, at the moment, the first piston rod 30 moves downwards under the action of a piston provided by the first piston rod 30, the piston is in sliding sealing with the first driving barrel 31, the filter box 26 generates negative pressure, and accordingly the filter box moves downwards, the pulling valve 32 is opened, and automatic sprinkling is realized.

The right side of the lower end of the filter box 26 is connected with a plug door 27, a groove is arranged in the plug door 27, and the bottom wall of the groove is of an inclined structure; after long-term use, water can be discharged, and residual iron powder can enter the grooves of the plug 27 for recycling.

Example 4:

the buffer tank 21 is connected with the powder adding cover 23, one end of the air blowing pipe 24 positioned in the buffer tank 21 is fixedly connected with the gauze 25, the iron powder 16 can be timely replenished into the buffer tank 21 through the arrangement of the buffer tank 21, the unidirectional air inlet pipe 10 and the unidirectional air blowing pipe 11 on the air charging pipe 9 are utilized for exhausting and blowing, the structure of the air charging pipe 9 is the same as the structure principle of an air charging pipe on the market, when the air charging is carried out, a large amount of iron powder 16 is contained in the buffer tank 21, the iron powder is blown into the air conveying pipe 15 through the air blowing pipe 24 and is blown into the second sealing ring 17, the sufficient iron powder amount is ensured, the adsorption effect is ensured, in addition, when the air charging pipe 9 is used for sucking air, the iron powder can be effectively prevented from entering the air charging pipe 24 through the arrangement of the inclined baffle 22 and the gauze 19, the iron powder is effectively prevented from entering the air blowing pipe 24 by the air blowing pipe 24, the iron powder is required to be timely replenished, the iron powder is not required to be replenished under normal conditions, and leakage of the iron powder is not caused when the air charging cover 23 is arranged, and the iron powder is not leaked;

the heating tank 33 is connected between the air blowing pipe 24 and the unidirectional air charging pipe 11, one end of the heating tank 33 is connected with the air blowing pipe 24, the other end of the heating tank 33 is connected with the unidirectional air charging pipe 11, heating can be performed during air blowing, particularly in cold weather, the heating tank 33 is used, the temperatures of the second sealing ring 17 and the first sealing ring 6 can be increased, the attaching effect is better, and the heating tank 33 can be directly heated by an electric heater.

Besides the electric heating, the electric heating can be realized by adopting chemical reaction heating, electric power is saved, the liquid tank 14 is fixedly connected to the tank body 12, a plurality of heating pipes 34 are inserted into the heating tank 33, the lower end of the liquid tank 14 is connected with the drip pipe 38, the water outlet end of the drip pipe 38 is positioned above the heating pipes 34, water is placed in the liquid tank 14, quicklime is placed in the heating pipes 34, and the water enters the heating pipes 34 to react for heat release, so that heating is realized and is sent into the second sealing ring 17.

The drip tube 38 is connected with a pressing valve 37, the heating tank 33 is fixedly connected with a second driving cylinder 35, the second driving cylinder 35 is communicated with the heating tank 33, a second piston rod 36 is connected in the second driving cylinder 35 in a sliding sealing manner, the upper end of the second piston rod 36 is propped against a pressing switch of the pressing valve 37, pressure is generated during blowing, the second piston rod 36 is pushed to move upwards, the pressing valve 37 is opened, and automatic heating is achieved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a high leakproofness energy-conserving aluminum alloy door and window, includes frame (1) and connects window (2) on frame (1), be connected with the slide rail between frame (1) and window (2), the slide rail is including rotating guide rail (5) of connecting on frame (1), sliding connection has slide plate (4) on guide rail (5), slide plate (4) rotate and connect on window (2), rotatory handle (3) that are connected with the card strip on window (2), a serial communication port, window (2) are outside fixedly connected with first sealing washer (6) all around, frame (1) are inboard all around offered seal groove (7), fixedly connected with second sealing washer (17) in seal groove (7), first sealing washer (6) and second sealing washer (17) are hollow structure, fixedly connected with inflator (9) on guide rail (5), sliding seal connects with piston rod (8) in inflator (9), piston rod (8) fixedly connected with on slide plate (4), inflator (9) are connected with second sealing washer (17);

a plurality of ferromagnetic sheets (18) are fixedly connected to the inner wall of the first sealing ring (6), and iron powder (16) is filled in the second sealing ring (17);

the frame (1) is fixedly connected with a box body (12), the box body (12) is provided with a buffer tank (21), the buffer tank (21) is connected with the second sealing ring (17) through a gas pipe (15), the buffer tank (21) is fixedly connected with an inclined baffle plate (22), a filter screen (19) is connected between the inclined baffle plate (22) and the inner wall of the buffer tank (21), and the inclined baffle plate (22) is positioned above the gas pipe (15);

the one-way air inlet pipe (10) with a one-way valve and the one-way air charging pipe (11) are connected to the inflator pump (9), an air outlet pipe (20) communicated with the one-way air inlet pipe (10) is connected to the upper end of the buffer tank (21), an air blowing pipe (24) communicated with the one-way air charging pipe (11) is fixedly connected to the lower end of the buffer tank (21), and iron powder (16) can be timely supplemented to the buffer tank (21) through the arrangement of the buffer tank (21).

2. The high-tightness energy-saving aluminum alloy door and window according to claim 1, wherein the buffer tank (21) is connected with a powder adding cover (23), and one end of the air blowing pipe (24) positioned in the buffer tank (21) is fixedly connected with a gauze (25).

3. The high-tightness energy-saving aluminum alloy door and window according to claim 1, wherein a filter box (26) is further connected between the unidirectional air inlet pipe (10) and the air outlet pipe (20), the air outlet pipe (20) is connected to one side of the filter box (26), and the unidirectional air inlet pipe (10) is positioned on the other side of the filter box (26);

the water storage device is characterized by further comprising a water storage pipe (13) fixedly connected in the box body (12), wherein the lower end of the water storage pipe (13) is connected with a spraying pipe (28), the lower end of the spraying pipe (28) is arranged in the filter box (26) and is connected with a spraying head (29), and the spraying head (29) is positioned on the upper side of a pipe orifice of the air outlet pipe (20).

4. The high-tightness energy-saving aluminum alloy door and window according to claim 3, wherein the spraying pipe (28) is connected with a pulling valve (32), the filter box (26) is fixedly connected with a first driving cylinder (31) communicated with the filter box (26), a first piston rod (30) is connected in the first driving cylinder (31) in a sliding sealing manner, and the upper end of the first piston rod (30) is connected with a pulling switch of the pulling valve (32).

5. The high-tightness energy-saving aluminum alloy door and window according to claim 3, wherein a plug door (27) is connected to the right side of the lower end of the filter box (26), a groove is formed in the plug door (27), and the bottom wall of the groove is of an inclined structure.

6. The high-tightness energy-saving aluminum alloy door and window according to claim 1, wherein a heating tank (33) is connected between the air blowing pipe (24) and the unidirectional air charging pipe (11), one end of the heating tank (33) is connected with the air blowing pipe (24), and the other end of the heating tank is connected with the unidirectional air charging pipe (11).

7. The high-tightness energy-saving aluminum alloy door and window according to claim 6, wherein the box body (12) is fixedly connected with a liquid box (14), the heating tank (33) is inserted with a plurality of heating pipes (34), the lower end of the liquid box (14) is connected with a dripping pipe (38), and the water outlet end of the dripping pipe (38) is positioned above the heating pipes (34).

8. The high-tightness energy-saving aluminum alloy door and window according to claim 7, wherein the drip tube (38) is connected with a pressing valve (37), the heating tank (33) is fixedly connected with a second driving cylinder (35), the second driving cylinder (35) is communicated with the heating tank (33), a second piston rod (36) is connected in the second driving cylinder (35) in a sliding sealing manner, and the upper end of the second piston rod (36) is propped against a pressing switch of the pressing valve (37).