CN214697494U - Wind pressure conduction energy dissipation device for bridge-cutoff heat-insulation aluminum alloy window - Google Patents
Wind pressure conduction energy dissipation device for bridge-cutoff heat-insulation aluminum alloy window Download PDFInfo
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- CN214697494U CN214697494U CN202022881422.8U CN202022881422U CN214697494U CN 214697494 U CN214697494 U CN 214697494U CN 202022881422 U CN202022881422 U CN 202022881422U CN 214697494 U CN214697494 U CN 214697494U
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Abstract
Bridge cut-off heat-insulating aluminum alloy window wind pressure conduction energy dissipater has solved present bridge cut-off heat-insulating aluminum alloy window can not carry out the energy dissipation to the wind pressure, the not good problem of anti-wind effect. The sliding door window comprises a sliding door window body, wherein a rotatable disc is arranged in the door window body, and first connecting rods are uniformly hinged to the periphery of the edge of the disc; the door and window body is internally provided with a plurality of slidable sliding blocks, the sliding blocks correspond to the first connecting rods one by one, the outer end of each first connecting rod is hinged and fixed with the inner side of the corresponding sliding block, the outer side of each sliding block is fixedly provided with a push spring, and the outer end of each push spring is fixedly connected with the door and window body. The utility model discloses novel structure, it is ingenious to think about, and is sliding closure in the closure, pastes tightly with the wall body, increases its pleasing to the eye degree, simultaneously through the slip of slider, still the air-out of air outlet carries out the energy dissipation to the wind pressure, improve equipment's anti-wind pressure ability.
Description
Technical Field
The utility model belongs to the technical field of aluminum alloy window wind pressure conduction technique and specifically relates to a bridge cut-off heat-insulating aluminum alloy window wind pressure conduction energy dissipater is related to.
Background
The broken bridge type aluminum alloy window is an improved type which is pushed out for improving the heat preservation performance of the window and door on the basis of the old aluminum alloy window, the principle of the broken bridge type aluminum alloy window is that PA66 nylon is utilized to separate and tightly connect an indoor layer and an outdoor layer of aluminum alloy into a whole, a new heat insulation type aluminum profile is formed, the broken bridge type aluminum alloy window can be divided into a strip penetrating type and a glue injecting type according to different connection modes, the aluminum alloy window and door made of the profile has superior heat insulation performance, the fatal problems that the aluminum alloy is fast in conduction and heat dissipation and does not meet the energy-saving requirement are thoroughly solved, and meanwhile, a plurality of new structural matching forms are adopted, and the old and difficult problem that an aluminum alloy sliding window is not tight in sealing is thoroughly solved.
The bridge-cut-off heat-insulation aluminum alloy window has certain wind pressure resistance, but in an area close to the seaside or an area with strong wind power, even if the bridge-cut-off heat-insulation aluminum alloy window is adopted, the door and the window are damaged to a certain extent due to too large wind power, so that some unnecessary losses are caused, the problem that the bridge-cut-off heat-insulation aluminum alloy window is not too sparse, how to dissipate energy of wind pressure is solved, and the bridge-cut-off heat-insulation aluminum alloy window becomes a new direction of the current research.
SUMMERY OF THE UTILITY MODEL
To the above-mentioned condition, for overcoming prior art's defect, the utility model provides a bridge cut-off heat-insulating aluminum alloy window wind pressure conduction energy dissipater has effectually solved present bridge cut-off heat-insulating aluminum alloy window and can not carry out the energy dissipation to the wind pressure, the not good problem of anti-wind effect.
In order to realize the purpose, the utility model comprises a slidable door and window body, a rotatable disc is arranged in the door and window body, and first connecting rods are uniformly distributed and hinged on the periphery of the edge of the disc;
the door and window body is internally provided with a plurality of slidable sliding blocks, the sliding blocks correspond to the first connecting rods one by one, the outer end of each first connecting rod is hinged and fixed with the inner side of the corresponding sliding block, the outer side of each sliding block is fixedly provided with a push spring, and the outer end of each push spring is fixedly connected with the door and window body.
Preferably, each slider rear end is equipped with the guide way, and slidable is equipped with the guided way in the guide way, and the guided way runs through the guide way and door and window body fixed connection.
Preferably, be equipped with the air intake on the door and window body, the air intake intercommunication has the ventilation groove, and the ventilation groove right-hand member is connected with the air outlet, and air intake, ventilation groove and air outlet constitute the structure of (type).
Preferably, a one-way valve is arranged at the air outlet.
Preferably, still including fixed frame, be equipped with the sliding tray of L type on the frame, the sliding tray includes transverse groove and inclined groove, and transverse groove and inclined groove arc are connected, and slidable is equipped with the sliding block in the sliding tray, and the sliding block outer end runs through frame and door and window body fixed connection.
Preferably, the door window further comprises a rotatable gear, the gear is located above the door window body, a rack is fixedly connected to the upper end of the door window body, and the rack is meshed with the gear.
Preferably, the rear end of the door and window body is provided with an inclination angle, and the right end face of the door and window body is larger than the left end face of the door and window body.
Preferably, door and window body right-hand member threaded connection has a plurality of holding screws, and holding screws and slider extrusion contact constitute the structure of fixing the slider.
The utility model discloses novel structure, it is ingenious to think about, and is sliding closure in the closure, pastes tightly with the wall body, increases its pleasing to the eye degree, simultaneously through the slip of slider, still the air-out of air outlet carries out the energy dissipation to the wind pressure, improve equipment's anti-wind pressure ability.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is an enlarged schematic view of a portion a in fig. 1.
Fig. 3 is a schematic view of the side structure of the present invention.
Fig. 4 is the structure schematic diagram of the door and window body after being partially cut open.
Fig. 5 is the schematic view of the internal structure of the door/window body of the present invention.
Fig. 6 is a schematic axial view of the structure of fig. 5.
Detailed Description
The following describes the present invention in further detail with reference to fig. 1-6.
As shown in fig. 1-6, the utility model comprises a slidable door and window body 1, a rotatable disc 2 is arranged in the door and window body 1, and first connecting rods 3 are uniformly distributed and hinged on the edge circumference of the disc 2;
the door and window is characterized in that a plurality of slidable sliding blocks 4 are arranged in the door and window body 1, the sliding blocks 4 correspond to the first connecting rods 3 one by one, the outer end of each first connecting rod 3 is hinged and fixed with the inner side of the corresponding sliding block 4, a push spring 5 is fixed on the outer side of each sliding block 4, and the outer end of each push spring 5 is fixedly connected with the door and window body 1.
The utility model discloses in, door and window body 1 can be gliding carries out the closure, a cavity has been seted up on door and window body 1, the through-hole has been seted up in the middle of the cavity, the cavity communicates with each other with the external world through the through-hole, after in the cavity is entered into through the through-hole to external wind, because it promotes slider 4 and carries out gliding in the cavity towards the cavity to push away spring 5, wind promotes the slider 4 thrust that will overcome when moving to the outside, can lose a large amount of wind energy at this in-process, because slider 4 is the circumference equipartition, the wind direction of wind has very big uncertainty after getting into in the cavity, wind energy promotes slider 4 and does the work this moment, the wind pressure carries out a large amount of consumptions, thereby promote door and window body 1's anti-wind ability.
Every 4 rear ends of slider are equipped with the guide way, and slidable is equipped with guided way 6 in the guide way, and guided way 6 runs through the guide way and door and window body 1 fixed connection.
As shown in fig. 4, under the action of the guide rail 6, the sliding effect of the sliding block 4 is ensured, and meanwhile, a stopper can be fixed at the innermost end of the guide rail 6, so that the guide rail 6 can be effectively prevented from being separated from the sliding block 4.
Be equipped with the air intake on the door and window body 1, the air intake intercommunication has ventilation groove 7, and ventilation groove 7 right-hand member is connected with the air outlet, and air intake, ventilation groove 7 and air outlet constitute the structure of (type).
As shown in fig. 3 and 4, after the external wind blows into the air inlet, the external wind enters the air outlet along the ventilation slot 7, and the air outlet and the air inlet are on the same plane, so that the wind passing through the air inlet blows out from the air outlet and collides with the external wind, and the wind pressure is consumed to a certain extent.
And a one-way valve 8 is arranged at the air outlet.
As shown in fig. 3 and 4, the one-way valve 8 is configured to allow air to escape from the outlet to the outside, but not allow external air to enter the outlet from the one-way valve 8.
Still including fixed frame 9, be equipped with the sliding tray 10 of L type on the frame 9, sliding tray 10 includes transverse groove 11 and inclined groove 12, and transverse groove 11 and inclined groove 12 arc are connected, and slidable is equipped with sliding block 13 in the sliding tray 10, and sliding block 13 outer end runs through frame 9 and door and window body 1 fixed connection.
Only show the partial structure of frame 9 as fig. 1-3, contain four groups of sliding tray 10 in a frame 9, upper and lower respectively two sets of, in this novel, show upper and lower respectively one set of, sliding block 13 slides along sliding tray 10, as shown in fig. 2, sliding tray 10 has an radian, when sliding block 13 is located the top layer position of radian, door and window body 1 just in time closes, when sliding block 13 slides to the rear side, door and window body 1 has one and slides to the left side when the backward sliding, opens door and window body 1 like this.
Still include rotatable gear 14, gear 14 is located door and window body 1 top, and door and window body 1 upper end fixedly connected with rack 15, rack 15 meshes with gear 14 mutually.
As shown in fig. 1 and 3, the gear 14 is rotatably connected to the wall, and the thickness of the gear 14 is larger than the sliding of the rack 15, so that the rack 15 slides when the gear 14 rotates, and the gear 14 is engaged with the rack 15 when the sliding block 13 enters the inclined groove 12.
The rear end of the door and window body 1 is provided with an inclination angle 16, and the right end face of the door and window body 1 is larger than the left end face of the door and window body 1.
As shown in fig. 3, the existence of the inclined angle 16 prevents the door/window body 1 from interfering with the wall when opening and closing.
The right end of the door and window body 1 is in threaded connection with a plurality of set screws 17, and the set screws 17 and the sliding block 4 are in extrusion contact to form a structure for fixing the sliding block 4.
Adopt holding screw 17 to go to realize fixing slider 4, because door and window body 1 just has certain anti-wind effect, we can be according to the weather forecast condition, after wind-force reached a certain wind level, we relieved holding screw and died to gliding lock, slide at slider 4 this moment and also under the two complex circumstances of air outlet air-out, carry out the energy dissipation to the wind pressure, improve the anti-wind pressure ability of bridge cut-off heat-insulating aluminum alloy window.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. The wind pressure conduction energy dissipation device of the bridge-cut-off heat-insulation aluminum alloy window is characterized by comprising a slidable door and window body (1), wherein a rotatable disc (2) is arranged in the door and window body (1), and first connecting rods (3) are uniformly hinged on the periphery of the edge of the disc (2);
the door and window is characterized in that a plurality of slidable sliding blocks (4) are arranged in the door and window body (1), the sliding blocks (4) correspond to the first connecting rods (3) one to one, the outer end of each first connecting rod (3) is hinged and fixed with the inner side of the corresponding sliding block (4), a push spring (5) is fixed to the outer side of each sliding block (4), and the outer end of each push spring (5) is fixedly connected with the door and window body (1).
2. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 1, wherein a guide groove is formed at the rear end of each sliding block (4), a guide rail (6) is slidably arranged in the guide groove, and the guide rail (6) penetrates through the guide groove and is fixedly connected with the door window body (1).
3. The bridge cut-off heat insulation aluminum alloy window wind pressure conduction energy dissipation device of claim 1, characterized in that the door and window body (1) is provided with an air inlet which is communicated with a ventilation groove (7), the right end of the ventilation groove (7) is connected with an air outlet, and the air inlet, the ventilation groove (7) and the air outlet form a [ shaped structure ].
4. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 3, wherein a one-way valve (8) is arranged at the air outlet.
5. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 1, further comprising a fixed frame (9), wherein an L-shaped sliding groove (10) is formed in the frame (9), the sliding groove (10) comprises a transverse groove (11) and an inclined groove (12), the transverse groove (11) is arc-connected with the inclined groove (12), a sliding block (13) is slidably arranged in the sliding groove (10), and the outer end of the sliding block (13) penetrates through the frame (9) and is fixedly connected with the door and window body (1).
6. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 1, further comprising a rotatable gear (14), wherein the gear (14) is located above the door and window body (1), a rack (15) is fixedly connected to the upper end of the door and window body (1), and the rack (15) is meshed with the gear (14).
7. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 1, wherein the rear end of the door/window body (1) is provided with an inclination angle (16), and the right end face of the door/window body (1) is larger than the left end face of the door/window body (1).
8. The wind pressure conduction energy dissipater of a bridge cut-off heat insulation aluminum alloy window according to claim 1, wherein a plurality of set screws (17) are connected to the right end of the window and door body (1) in a threaded manner, and the set screws (17) and the sliding block (4) are in pressing contact to form a structure for fixing the sliding block (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022881422.8U CN214697494U (en) | 2020-12-04 | 2020-12-04 | Wind pressure conduction energy dissipation device for bridge-cutoff heat-insulation aluminum alloy window |
Applications Claiming Priority (1)
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CN202022881422.8U CN214697494U (en) | 2020-12-04 | 2020-12-04 | Wind pressure conduction energy dissipation device for bridge-cutoff heat-insulation aluminum alloy window |
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CN214697494U true CN214697494U (en) | 2021-11-12 |
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CN202022881422.8U Active CN214697494U (en) | 2020-12-04 | 2020-12-04 | Wind pressure conduction energy dissipation device for bridge-cutoff heat-insulation aluminum alloy window |
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2020
- 2020-12-04 CN CN202022881422.8U patent/CN214697494U/en active Active
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