CN112392352A

CN112392352A - Quick reaction aluminum alloy window

Info

Publication number: CN112392352A
Application number: CN202011277571.1A
Authority: CN
Inventors: 桑勍勍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-02-23

Abstract

The application relates to a fast reaction aluminum alloy window, which comprises a window frame and a window sash made of aluminum alloy sections, wherein the window sash is rotatably arranged on the window frame, a glass plate is fixedly arranged in the window sash, a fireproof window closing device connected with the window sash is fixedly arranged on a top frame of the window frame, and a fireproof cavity extending around the frame of the window frame is formed in the frame of the window frame; the fire-proof window is characterized in that a built-in steel lining with an L-shaped section is arranged in the fire-proof cavity, one side, close to the outdoor, of the built-in steel lining is provided with a fire-encountering expansion layer made of fire-encountering expansion rubber, one side, close to the window sash, of the built-in steel lining is provided with a locking assembly, and the locking assembly is driven by the built-in steel lining to lock the window sash. The present application has the effect of reducing the penetration of flame and smoke through the aluminum alloy window.

Description

Quick reaction aluminum alloy window

Technical Field

The application relates to the field of aluminum alloy windows, in particular to a fast reaction aluminum alloy window.

Background

At present, an aluminum alloy door and window is a door and window frame member which is manufactured by processing technologies of blanking, punching, groove milling, tapping, manufacturing and the like on an aluminum alloy section with a treated surface, and is assembled by a connecting piece, a sealing material and an opening and closing hardware fitting. The door and window sash of the aluminum alloy door and window can be made of different materials and can be manufactured in various manners. Aluminum alloy windows are also commonly used as fireproof windows, and steel linings are usually arranged in the aluminum alloy windows to prevent the aluminum alloy windows from melting and falling due to high-temperature environments when fire disasters happen, so that the fireproof performance is good.

However, in case of fire, the window frame and the window sash of the aluminum alloy window are only closed by the automatic window closer, and the locking force between the window frame and the window sash is insufficient, so that the situation that flame and smoke penetrate through the aluminum alloy window through the window frame and the window sash is easily caused, and the fireproof performance of the aluminum alloy window is reduced.

Disclosure of Invention

In order to reduce the penetration of flame and smog to the aluminum alloy window, promote the fire behavior of aluminum alloy window, this application provides a fast response aluminum alloy window.

The application provides a quick reaction aluminum alloy window adopts following technical scheme:

a fast reaction aluminum alloy window comprises a window frame and a window sash made of aluminum alloy sections, wherein the window sash is rotatably arranged on the window frame, a glass plate is fixedly arranged in the window sash, a fireproof window closer connected with the window sash is fixedly arranged on a top frame of the window frame, and a fireproof cavity extending around the frame of the window frame is formed in the frame of the window frame; the fire-proof window is characterized in that a built-in steel lining with an L-shaped section is arranged in the fire-proof cavity, one side, close to the outdoor, of the built-in steel lining is provided with a fire-encountering expansion layer made of fire-encountering expansion rubber, one side, close to the window sash, of the built-in steel lining is provided with a locking assembly, and the locking assembly is driven by the built-in steel lining to lock the window sash.

Through adopting above-mentioned technical scheme, when outdoor conflagration breaing out, the casement is closed to the fire prevention window closer, and at this moment, outdoor flame burning window frame for meeting fire inflation layer in the window frame fire prevention intracavity is heated and is expanded, thereby the jack-up built-in steel lining moves towards locking Assembly, and locking Assembly locks the casement under the drive of built-in steel lining, thereby plays the effect that reduces the penetration of flame and smog to the aluminum alloy window, promotes the fire behavior of aluminum alloy window.

Preferably, the locking assembly comprises a stressed support block fixed in the fireproof cavity, a telescopic opening arranged on the window frame and communicated with the fireproof cavity, a locking block slidably mounted in the telescopic opening, and a transmission steel sheet obliquely arranged in the fireproof cavity; one side of the transmission steel sheet is abutted against the stressed support block, and the other side of the transmission steel sheet is arranged on the surface of the locking block far away from the window sash and connected with the surface of the locking block; the surface of the transmission steel sheet far away from the window sash is abutted against the side edge of the built-in steel lining far away from the fire-encountering expansion layer; the shaping has the mounting groove that is used for holding closed casement that extends to set up along the window frame on the window frame, the expansion joint with the mounting groove intercommunication, just the locking block sets up in the casement and keeps away from one side of built-in steel lining.

Through adopting above-mentioned technical scheme, move towards the drive steel sheet when meeting fire inflation rubber layer inflation when built-in steel lining for built-in steel lining supports tight drive steel sheet, thereby makes the drive steel sheet rotate around the contact point orientation locking block of atress brace piece, thereby has driven the outstanding expansion joint of locking block, and then makes the locking block restrict the rotation of casement, prevents that the casement from separating with the window frame when the conflagration breaks out, has improved the security of aluminum alloy window.

Preferably, an elastic strip is fixed between one side edge of the transmission steel sheet connected with the stress supporting block and the stress supporting block.

By adopting the technical scheme, when the transmission steel sheet is abutted by the built-in steel lining and moves, the elastic strip is extruded by the transmission steel sheet to be compressed and deformed, so that the transmission steel sheet deflects around the stress support block and rotates, the locking block is driven to move out of the expansion port, and the window sash is locked.

Preferably, an elastic piece is arranged between the transmission steel sheet and the locking block, the elastic piece and the surface of the locking block far away from the window sash are fixed, and the surface of the transmission steel sheet close to the locking block is abutted against the elastic piece.

Through adopting above-mentioned technical scheme, the setting of elastic component for the locking piece is prevented when locking piece breaks away from the expansion mouth in the drive steel sheet can drive the locking piece removal.

Preferably, the elastic component include with the laminating portion that the laminating of drive steel sheet set up and with the hollow portion that the locking piece is fixed, hollow portion with laminating portion integrated into one piece, just elastic portion elasticity rubber materials makes.

Through adopting above-mentioned technical scheme, the setting of hollow portion for the hollow portion shrink is extruded earlier to the drive steel sheet when rotating, and the removal of drive locking piece is removed again, is convenient for control the movement time of locking piece through the size design of hollow portion.

Preferably, an expansion rubber strip which expands when encountering fire is arranged between the transmission steel sheet and the built-in steel lining.

Through adopting above-mentioned technical scheme, when flame spread to the fire prevention intracavity, meet fire expansion adhesive tape inflation for the transmission billet supports tight locking piece, prevents that the casement from becoming flexible.

Preferably, a bending part arranged on one side, away from the fire-encountering expansion layer, of the built-in steel lining is integrally formed on the built-in steel lining, a sealing groove communicated with the inner wall, away from the locking block, of the mounting groove is formed in the inner wall of the fire-proof cavity, and the sealing groove is arranged around the window frame in an extending manner; an elastic sealing ring is embedded in the sealing groove, one side of the elastic sealing ring extends out of the sealing groove and abuts against the bending part, and the other side of the elastic sealing ring extends out of the sealing groove and abuts against the window sash.

By adopting the technical scheme, when a fire disaster occurs outdoors, the fireproof window closer closes the window sash, at the moment, outdoor flame burns the window frame, so that the fire-encountering expansion layer in the fireproof cavity of the window frame is heated and expanded, the built-in steel lining is jacked to move towards the window sash, the built-in steel lining is abutted against the elastic sealing ring, the elastic sealing ring is abutted against the window sash, and the sealing between the window sash and the window frame is enhanced.

Preferably, a fireproof filler made of perlite particles and polymerized silicon gel is arranged in the fireproof cavity, and the fireproof filler is arranged between the bending part and the built-in steel lining.

By adopting the technical scheme, when the window frame is burnt by flame, the fireproof filler prepared by mixing perlite particles and polysilicone gel is hardened, so that the bending part is tightly propped against the inner wall of the fireproof cavity, the built-in steel lining is fixed in the fireproof cavity, and the window sash is continuously sealed with the window frame.

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

1. when a fire disaster occurs outdoors, the fireproof window closer closes the window sash, and at the moment, outdoor flame burns the window frame, so that the fire-encountering expansion layer in the fireproof cavity of the window frame is heated and expanded, the built-in steel lining is jacked to move towards the locking assembly, and the locking assembly locks the window sash under the driving of the built-in steel lining, so that the effects of reducing the penetration of flame and smoke on the aluminum alloy window and improving the fireproof performance of the aluminum alloy window are achieved;

2. when the built-in steel lining expands in case of fire, the built-in steel lining moves towards the transmission steel sheet, so that the built-in steel lining is abutted against the transmission steel sheet, the transmission steel sheet rotates around the contact point of the stress support block towards the locking block, the locking block is driven to protrude out of the telescopic opening, the locking block limits the rotation of the window sash, the window sash is prevented from being separated from the window frame in case of fire, and the safety of the aluminum alloy window is improved;

3. when the window frame is burnt by flame, the fireproof filler prepared by mixing perlite particles and the polysilicone gel is hardened, so that the bending part is tightly propped against the inner wall of the fireproof cavity, the built-in steel lining is fixed in the fireproof cavity, and the window sash is continuously sealed with the window frame.

Drawings

Fig. 1 is a schematic cross-sectional view of a top frame of a window frame of a rapid reaction aluminum alloy window according to an embodiment of the present invention.

Description of reference numerals: 1. a window frame; 2. a window sash; 21. a glass plate; 3. a fire-proof window closer; 4. a steel lining is arranged inside; 41. a bending section; 42. a fire-proof cavity; 43. a fire-resistant filler; 44. mounting grooves; 5. an intumescent layer on fire; 61. a stressed support block; 611. an elastic strip; 62. a flexible opening; 63. a locking block; 64. a transmission steel sheet; 7. an elastic member; 71. a bonding section; 72. a hollow portion; 8. an elastic sealing ring; 9. the rubber strip expands when encountering fire.

Detailed Description

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

The embodiment of the application discloses a fast reaction aluminum alloy window. Referring to fig. 1, the fast reaction aluminum alloy window comprises a window frame 1 and a window sash 2 made of aluminum alloy sections, wherein the window sash 2 is rotatably installed on a vertical frame at one side of the window frame 1, a glass plate 21 is fixedly installed in the window sash 2, and a fireproof window closer 3 connected with the window sash 2 is fixedly installed on a top frame of the window frame 1. And the window sash 2 is formed with a mounting groove 44 extending along the window frame 1 for accommodating the closed window sash 2, and in case of fire, the fireproof window closer 3 drives the window sash 2 to rotate until the window sash 2 rotates into the mounting groove 44.

Referring to fig. 1, a fire-proof cavity 42 extending around the frame of the window frame 1 is formed in the frame of the window frame 1, a built-in steel lining 4 with an L-shaped section is arranged in the fire-proof cavity 42, a fire-encountering expansion layer 5 made of fire-encountering expansion rubber is arranged on one side of the built-in steel lining 4 close to the outdoor, the fire-encountering expansion layer 5 is made of fire-encountering expansion glue, and a locking component is arranged on one side of the built-in steel lining 4 close to the window sash 2. The locking assembly comprises a stress supporting block 61 fixed in the fireproof cavity 42, a telescopic opening 62 which is arranged on the mounting groove 44 of the window frame 1 and communicated with the fireproof cavity 42, a locking block 63 which is slidably mounted in the telescopic opening 62, and a transmission steel sheet 64 which is obliquely arranged in the fireproof cavity 42. The expansion opening 62 is communicated with the installation groove 44, and the locking block 63 is arranged on one side of the window sash 2 far away from the built-in steel lining 4. One side of the transmission steel sheet 64 is connected with the stress supporting block 61, the other side of the transmission steel sheet 64 is arranged on the surface of the locking block 63 far away from the window sash 2 and connected with the surface, and an elastic strip 611 is fixed between one side of the transmission steel sheet 64 connected with the stress supporting block 61 and the stress supporting block 61. The surface of the transmission steel sheet 64 far away from the window sash 2 is abutted against the side edge of the built-in steel lining 4 far away from the fire-encountering expansion layer 5, and one side edge of the built-in steel lining 4 abutting against the transmission steel sheet 64 is bent into an arc shape.

Referring to fig. 1, an elastic member 7 is arranged between the transmission steel sheet 64 and the locking block 63, the elastic member 7 includes an attaching portion 71 attached and fixed to the transmission steel sheet 64 and a hollow portion 72 fixed to the locking block 63, the hollow portion 72 and the attaching portion 71 are integrally formed, and the elastic portion is made of an elastic rubber material. The attaching portion 71 is in the form of a sheet, and the hollow portion 72 is in the form of a hollow tube. The outer wall of the hollow part 72 is fixed with the surface of the locking block 63 far away from the window sash 2, and the surface of the transmission steel sheet 64 close to the locking block 63 is abutted against the hollow part 72. In addition, an expansion rubber strip 9 which expands when encountering fire is arranged between the transmission steel sheet 64 and the built-in steel lining 4.

Referring to fig. 1, a bending portion 41 is integrally formed on the built-in steel lining 4 and is arranged on one side, away from the fire-encountering expansion layer 5, of the built-in steel lining 4, a sealing groove communicated with the inner wall, away from the locking block 63, of the mounting groove 44 is formed in the inner wall of the fire-proof cavity 42, and the sealing groove extends around the window frame 1. An elastic sealing ring 8 is embedded in the sealing groove, one side of the elastic sealing ring 8 extends out of the sealing groove and abuts against the bending part 41, and the other side of the elastic sealing ring 8 extends out of the sealing groove and abuts against the side wall of the window sash 2. The fireproof cavity 42 is internally provided with fireproof filler 43 which is prepared by mixing perlite particles and polysilicone gel in equal proportion, and the fireproof filler 43 is arranged between the bending part 41 and the built-in steel lining 4.

The implementation principle of the rapid reaction aluminum alloy window in the embodiment of the application is as follows: when an outdoor fire disaster occurs, the window sash 2 is closed by the fireproof window closer 3, at the moment, outdoor flame burns the window frame 1, so that the fire expansion layer 5 in the fireproof cavity 42 of the window frame 1 is heated and expanded, the built-in steel lining 4 is jacked to move towards the locking assembly, the window sash 2 is locked by the locking assembly under the driving of the built-in steel lining 4, and therefore the effects of reducing the penetration of flame and smoke to the aluminum alloy window and improving the fireproof performance of the aluminum alloy window are achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a quick reaction aluminum alloy window, includes window frame (1) and casement (2) of being made by the aluminum alloy ex-trusions, and casement (2) rotate to be installed on window frame (1), and fixed mounting has glass board (21) in casement (2), and window frame (1) top frame fixed mounting has the fire prevention of being connected with casement (2) and closes window ware (3), its characterized in that: a fireproof cavity (42) which extends around the frame of the window frame (1) is formed in the frame of the window frame (1); a built-in steel lining (4) with an L-shaped section is arranged in the fireproof cavity (42), a fire-encountering expansion layer (5) made of fire-encountering expansion rubber is arranged on one side, close to the outdoor, of the built-in steel lining (4), a locking assembly is arranged on one side, close to the window sash (2), of the built-in steel lining (4), and the locking assembly is driven by the built-in steel lining (4) to lock the window sash (2).

2. The fast reacting aluminum alloy window of claim 1, wherein: the locking assembly comprises a stress supporting block (61) fixed in the fireproof cavity (42), a telescopic opening (62) formed in the window frame (1) and communicated with the fireproof cavity (42), a locking block (63) installed in the telescopic opening (62) in a sliding mode, and a transmission steel sheet (64) obliquely arranged in the fireproof cavity (42); one side of the transmission steel sheet (64) is abutted against the stressed supporting block (61), and the other side of the transmission steel sheet is arranged on the surface, far away from the window sash (2), of the locking block (63) and connected with the surface; the surface of the transmission steel sheet (64) far away from the window sash (2) is abutted against the side edge of the built-in steel lining (4) far away from the fire-encountering expansion layer (5); the window frame (1) is provided with an installation groove (44) which is formed along the window frame (1) in an extending mode and used for accommodating the closed window sash (2), the expansion port (62) is communicated with the installation groove (44), and the locking block (63) is arranged on one side, away from the built-in steel lining (4), of the window sash (2).

3. The rapid reaction aluminum alloy window of claim 2, wherein: an elastic strip (611) is fixed between one side of the transmission steel sheet (64) connected with the stress supporting block (61) and the stress supporting block (61).

4. The rapid reaction aluminum alloy window of claim 2, wherein: the window is characterized in that an elastic piece (7) is arranged between the transmission steel sheet (64) and the locking block (63), the elastic piece (7) is fixed on the surface of the locking block (63) far away from the window sash (2), and the transmission steel sheet (64) is close to the surface of the locking block (63) and the elastic piece (7) are abutted.

5. The window of claim 4, wherein: elastic component (7) include with laminating portion (71) that transmission steel sheet (64) laminating set up and with locking piece (63) fixed hollow portion (72), hollow portion (72) with laminating portion (71) integrated into one piece, just elastic component (7) are made by elastic rubber material.

6. The window of claim 5, wherein: and an expansion rubber strip (9) which expands when encountering fire is arranged between the transmission steel sheet (64) and the built-in steel lining (4).

7. The rapid reaction aluminum alloy window of claim 2, wherein: a bending part (41) arranged on one side, far away from the fire-encountering expansion layer (5), of the built-in steel lining (4) is integrally formed on the built-in steel lining (4), a sealing groove communicated with the inner wall, far away from the locking block (63), of the mounting groove (44) is formed in the inner wall of the fire-proof cavity (42), and the sealing groove is arranged in an extending mode around the window frame (1); an elastic sealing ring (8) is embedded in the sealing groove, one side of the elastic sealing ring (8) extends out of the sealing groove and is abutted against the bending part (41), and the other side of the elastic sealing ring (8) extends out of the sealing groove and is abutted against the window sash (2).

8. The window of claim 7, wherein: and a fireproof filler (43) prepared by mixing perlite particles and polysilicone gel is arranged in the fireproof cavity (42), and the fireproof filler (43) is arranged between the bending part (41) and the built-in steel lining (4).