阅读说明：本技术 能换气的节能门窗及型材 (Energy-saving door and window capable of ventilating and section bar ) 是由 吴炜 于 2019-01-14 设计创作，主要内容包括：本发明是一种能呼吸换气的节能门窗幕墙系统及型材,尤其与铝合金或其它刚性材料制做的门窗幕墙有关,本发明还涉及组成该门窗幕墙的可实现热交换的型材。(The invention relates to a breathable and ventilated energy-saving door and window curtain wall system and a section bar, in particular to a door and window curtain wall made of aluminum alloy or other rigid materials, and also relates to a section bar capable of realizing heat exchange for forming the door and window curtain wall.)

1. Ability breath and realize fresh air ventilation can door and window curtain system, its characterized in that: the frame section bar 1 is a multi-cavity section bar, the sash section bar 2, the frame seat section bar 3, the press strip section bar 15, the press strip section bar 151, the frame section bar 1 and the frame seat section bar 3 can form a frame section bar 4, and the frame section bar 1 and the frame seat section bar 3 can form a mullion frame section bar 5 or a Z mullion frame section bar 6. The frame material section bar 1 forms a window frame framework, the frame seat section bar 3 is arranged according to different functional requirements to form a frame, and the glass 16 is fixed by a pressing strip 151. The sash material section bar 2 is provided with glass 16 and battens 15 to form a sash, and the sash is assembled on a window frame to form a door window.

2. A profile for forming a door or window according to claim 1, being a multi-cell profile, which may be a bridge-cut or non-bridge-cut profile, characterized in that: the inner rib 13 of the frame material section bar 1 is provided with a heat dissipation thorn strip 14, the rib 13 and the heat dissipation thorn strip 14 can be integrated, and the respective independent section bars can be combined into a whole.

3. The door, window and its section bar of claim 1, 2, characterized in that: the frame material section bar 1 is a multi-cavity section bar, and is provided with a cavity-crossing communicating pipe 7 for communicating two cavities, so that the cavities in the frame material section bar 1 form two independent channels which are closely separated; the frame material section bar 1 is provided with an outdoor air inlet 8, an indoor air inlet 9, an indoor air outlet 10 and an outdoor air outlet 11; the inner rib 13 of the frame material section bar 1 is provided with a heat dissipation thorn strip 14, the rib 13 and the heat dissipation thorn strip 14 can be integrated, or the respective independent section bars can be combined into a whole; fresh air enters the room from the indoor air inlet 9 through the outdoor air inlet 8 and the air inlet cavity and the communicating pipe 7, and dirty air is discharged out of the room through the indoor air outlet 10, the air exhaust cavity, the communicating pipe 7 and the outdoor air outlet 11.

4. A frame base section bar for forming a door or window according to claims 1 and 2, characterized in that: the frame section bar 3 can be combined with the frame section bar 1 into various section bars, the frame section bar 1 and the frame section bar 3 can be combined into a side frame section bar 4, the frame section bar 1 and the frame section bar 3 can be combined into a mullion frame section bar 5 or a Z mullion frame section bar 6, and the frame section bar 3 can be installed after the assembly of the door and window frame is completed to assemble various functional frames.

5. The door and window according to claims 1 and 2, characterized in that: the multifunctional air purifier 1 or other air purifiers can be assembled at the indoor air inlet 9 of the frame material section bar 1 to purify fresh air and then enter the room.

Technical Field

The invention relates to an energy-saving door and window curtain wall system capable of exchanging air and a section bar, in particular to a door and window curtain wall made of aluminum alloy or other rigid materials, and the invention also relates to a section bar capable of realizing heat exchange for forming the door and window curtain wall.

Background

The sealing and air exchange of the curtain wall of the known building door and window are a great contradiction problem, the sealing is not tight, air leakage is not energy-saving, the fixed sealing and air exchange are difficult, and how to enable the door and window to have a breathing function to realize fresh air exchange and energy saving is a great problem to be solved urgently by the energy-saving door and window. The invention provides a door and window system and a section bar thereof, which are used for solving the problem and can realize air exchange, fresh air heat exchange and air exchange energy-saving door and window systems and the section bar thereof capable of carrying out heat exchange.

Disclosure of Invention

The invention aims to provide a door and window curtain wall section bar structure which is simple in structure, few in type of formed section bars and capable of ventilating to realize fresh air heat exchange and ventilation, and the invention also aims to provide a door and window curtain wall section bar structure capable of carrying out heat exchange.

The purpose of the invention is realized by that the frame material section bar 1 is a multi-cavity section bar, the sash material section bar 2, the frame seat section bar 3, the batten section bar 15 or the batten section bar 151, the frame material section bar 1 and the frame seat section bar 3 can form a frame 4, the frame material section bar 1 and the frame seat section bar 3 can form a mullion frame 5, and the frame material section bar 1 and the frame seat section bar 3 can form a Z mullion frame 6. The frame material section bar 1 forms a window frame framework, the frame seat section bar 3 is arranged on the window frame framework according to different functional requirements to form a frame 4, a mullion frame and a Z mullion frame, the glazing bead 16 is fixed by the glazing bead, the sash material section bar 2 is provided with the glazing bead 16 and the glazing bead to form a sash, and the sash is assembled on the window frame to form a door and window. The frame base section bar 3 can be combined with the frame material section bar 1 into various section bars, can be flexibly combined and adjusted according to design requirements, has strong building block type combination interchangeability, saves materials and is convenient to install.

The inner rib 13 of the frame material section bar 1 is provided with a heat dissipation thorn strip 14, the rib 13 and the heat dissipation thorn strip 14 can be integrated, and the respective independent section bars can be combined into a whole.

A cavity-crossing communicating pipe 7 for communicating the two cavities can be arranged on the frame material section bar 1, so that the cavities in the frame material section bar 1 form two independent channels which are closely separated. Fresh air enters the room from the indoor air inlet 9 through the outdoor air inlet 8 and the air inlet cavity and the communicating pipe 7, and dirty air is discharged out of the room through the indoor air outlet 10, the air exhaust cavity, the communicating pipe 7 and the outdoor air outlet 11. The fresh air that gets into just can carry out the heat exchange through rib 13 and heat dissipation thorn strip 14 when the muddy air of discharge flows in the section bar chamber that closely separates, and door and window can also carry out the heat exchange when introducing the fresh air like this, discharge muddy gas, make door and window more energy-conserving.

Drawings

FIG. 1 is a schematic view of a door and window of a fresh air heat exchange energy-saving door and window system according to the present invention;

FIG. 2 is a sectional view of the door and window 2-2 of the fresh air heat exchange ventilation energy-saving door and window system of the present invention;

FIG. 3 is a sectional view of the door and window 1-1 of the fresh air heat exchange ventilation energy-saving door and window system of the present invention;

FIG. 4 is a cross-sectional view of 5-5 of the doors and windows of the fresh air heat exchange ventilation energy-saving door and window system of the present invention;

FIG. 5 is a 4-4 sectional view of the door and window of the fresh air heat exchange ventilation energy-saving door and window system of the present invention;

FIG. 6 is a cross-sectional view of the door and window 6-6 of the fresh air heat exchange ventilation energy-saving door and window system of the present invention;

FIG. 7 is a cross-sectional view of a heat exchange profile frame material section of the present invention;

FIG. 8 is a sectional view of the frame of the heat exchange profile of the present invention;

fig. 9 is a sectional view of the assembly of the mullion of the heat exchange profile of the present invention;

fig. 10 sectional view of a heat exchange profile Z stile according to the invention.

Fig. 11 is a cross-sectional view of the bezel profile of the present invention.

Detailed Description

The following are examples of the present invention: referring to fig. 1-10, the frame material section bar 1 is combined into a door and window frame, the frame base section bar 3 is arranged at each corresponding position of the frame material section bar 1 of the door and window frame according to the design requirements, and is combined into a side frame 4, a mullion frame 5 and a Z mullion frame 6 to form a door and window frame, the glass 16 is fixed on the door and window frame by the batten section bar 151 to form a fixed door and window, and a sash formed by the sash material section bar 2, the batten section bar 15 and the glass 16 is arranged, so that a door and window frame is formed.

The following are examples of the present invention: referring to fig. 7-11, the frame profile 3 can be combined with the frame profile 1 to form a multi-functional profile, the frame profile 1 and the frame profile 3 can be combined to form a frame profile 4, and the frame profile 1 and the frame profile 3 can be combined to form a mullion frame profile 5 or a Z-mullion frame profile 6. Can be flexibly combined and adjusted according to design requirements, has strong building block type combination interchangeability, saves materials and is convenient to manufacture.

The following are examples of the present invention: referring to fig. 2-10, the frame material section 1 and the fixing frame, sash frame, mullion, Z mullion and other structural sections formed by the same have heat dissipation ribs 14 on the inner ribs 13, and the ribs 13 and the heat dissipation ribs 14 may be integrated or may be formed by combining independent sections.

The following are examples of the present invention: as shown in fig. 4, 5 and 6, the fresh air heat exchange ventilation energy-saving door and window changing system is characterized in that an outdoor air inlet 8 is formed in the outdoor wall of the frame material section bar 1 of the window, an indoor air inlet 9 is formed in the indoor wall of the window, an indoor air outlet 10 is formed in the indoor wall of the window, an outdoor air outlet 11 is formed in the outdoor wall of the window, a cross-cavity communicating pipe 7 is arranged between two separated cavities on the frame material section bar 1, so that the cavities in the frame material section bar 1 form two independent channels which are connected and separated, and the air flowing in the two cavities can exchange heat through the cavity ribs 13 and the heat dissipation stabs 14 on the cavity ribs, so that the door and window can introduce fresh air and discharge foul air and can exchange heat at the same time, and the door and window can save more.

The following are examples of the invention: as shown in fig. 1-6, a multifunctional air cleaner 12 can be installed at the indoor air inlet 9 of the frame material section bar 1, fresh air coming in from the indoor air inlet 9 enters the multifunctional air cleaner 12, then the cleaned air enters the room from a cleaner room inlet 1350, meanwhile indoor turbid air enters the air exhaust cavity from the air outlet 10 and is exhausted from an outdoor air outlet 11, or indoor turbid air can also enter the multifunctional air cleaner 12 from an air outlet 1351 of the multifunctional air cleaner room 12 with a heat exchange function, then enters the air exhaust cavity through the air outlet 10 after heat exchange with the air entering the room and is exhausted from the outdoor air outlet 11, so that the functions of cleaning fresh air, increasing negative ions, adjusting air humidity, sterilizing and the like are realized, and a comfortable air environment is created.