CN220705589U - High-rise glass frame installation anti-falling device - Google Patents

Abstract

The utility model relates to the field of glass frames and discloses a high-rise glass frame installation anti-falling device. The outer side of the sliding window mounting frame is provided with an anti-falling frame, and the anti-falling frame is stably and reliably fixed in the outer wall by embedding sliding boxes at the upper end and the lower end of the anti-falling frame into the outer wall; and set up opening and check and keep off the net in preventing weighing down the frame, utilize opening and check to keep off the net and constitute an anti-weighing down space, when glass is broken because of unexpected factor, broken glass all sputters in preventing weighing down the space, avoids glass to drop from the window high altitude and causes the incident. In addition, the sliding boxes at the upper part and the lower part of the anti-falling frame are internally provided with traction rope components, and two ends of the traction rope components are respectively fixed in the sliding space of the sliding box and the glass component. The anti-falling space formed by the traction rope component, the opening and the grid blocking net is utilized to form two layers of protection measures for the glass component, so that the glass component is prevented from falling from the high altitude, and injury to pedestrians is caused.

Description

High-rise glass frame installation anti-falling device

Technical Field

The utility model relates to the field of glass frames, in particular to a high-rise glass frame installation anti-falling device.

Background

Windows are architectural openings built into walls or roofs for the entry of light or air into the room, the intent of the window being to virtually refer to windows and doors, respectively, in modern chinese, the window being a single-finger window, and the bezel being an installation part of a modern window.

The window in the prior art is frequently operated in opening and closing for a long time and is exposed to sunlight for a long time, the glass frame is subjected to wind and rain, the glass frame is extremely easy to age and damage, if the glass frame is not found in time after aging or damage, the falling window is extremely easy to appear on a weather day, and especially, the falling phenomenon is caused when the window sashes of high-rise buildings fall down once falling down, so that articles below the building are damaged, pedestrians are more dangerous, and even life hazards of the pedestrians are caused, and at the moment, the falling prevention device is needed to be installed on the window.

The glass frame can collide with the wall body in the falling process or burst due to uncontrollable factors under the sun high-temperature insolation for a long time, and the glass in the glass frame can splash outdoors or indoors to cause injury to surrounding personnel when burst.

Disclosure of Invention

Aiming at the defects in the prior art, the anti-falling device for installing the high-rise glass frame is provided, so that the glass window can be prevented from falling, and fragments after glass breakage can be effectively prevented from flying out of the room.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a high-rise glass frame installation anti-falling device which characterized in that: the sliding window comprises a sliding window mounting frame embedded in an outer wall and an anti-falling frame fixed on the outer side surface of the sliding window mounting frame, wherein the sliding window mounting frame and the anti-falling frame both adopt frame structures; two glass components and a sliding space matched with the glass components are arranged on the sliding window mounting frame, an opening matched with the area of the glass components is arranged in the middle of the anti-falling frame, one side of the opening is communicated with the sliding window mounting frame, and a grid blocking net is arranged on the other side of the opening; the anti-falling frame is embedded into the outer wall through the sliding box, a sliding cavity which is parallel to the sliding space and has the same length is arranged in the sliding box, a communicating channel is arranged between the sliding cavity and the sliding space, and the channel is parallel to the sliding space and has the same length; and traction rope assemblies are arranged in the upper sliding cavity and the lower sliding cavity, one ends of the upper traction rope assembly and the lower traction rope assembly are fixed in the sliding cavity, and the other ends of the upper traction rope assembly and the lower traction rope assembly penetrate through the channels and are respectively connected with one glass assembly.

According to the technical scheme, the haulage rope assembly comprises a haulage rope and a sliding block, the sliding block adopts a T-shaped structure, the shape of a sliding space in a sliding box is matched with the shape of a transverse section of the T-shaped structure, and the shape of a connecting part of a vertical section and the transverse section, one end of the haulage rope is fixed at the end, far away from the transverse section, of the vertical section of the T-shaped block, and the other end of the haulage rope penetrates through a channel to be connected with the window assembly.

According to the technical scheme, the channel comprises a first transition space arranged in the falling prevention frame and a second transition space arranged in the sliding window mounting frame, wherein the first transition space is positioned below or above the sliding box, connecting grooves are formed between the first transition space and the sliding space, between the second transition space and the first transition space and between the second transition space and the sliding window mounting frame, and the first transition space, the second transition space and the connecting grooves are all arranged in parallel and have the same length.

According to the technical scheme, the glass assembly comprises glass and a glass mounting frame matched with the glass, and sliding blocks matched with the sliding space are arranged at the top and the bottom of the glass mounting frame.

According to the technical scheme, the anti-sputtering component is arranged in the glass component, the anti-sputtering net is arranged in the anti-sputtering component, and the anti-sputtering net is in an unfolding state and a storage state; when the glass is broken, the anti-sputtering net is switched from the storage state to the unfolding state, and covers the side face of the glass assembly.

According to the technical scheme, the anti-sputtering assembly further comprises a rotating shaft which is arranged on the glass mounting frame in a rotating connection mode, a pulling block which is fixedly connected to the bottom of the anti-sputtering net, a sliding block which is fixed at the end head of the pulling block, and a detection driving assembly which detects the state of glass and drives the sliding block to move downwards according to the monitoring state; the top of the anti-sputtering net is fixed on the rotating shaft, and the anti-sputtering net is wound on the rotating shaft; the detection driving assembly detects the state of glass in real time, and when the glass is broken in a large area, the detection driving assembly pulls the sliding block to move downwards, so that the anti-sputtering net covers the glass mounting frame.

According to the technical scheme, the detection driving assembly comprises a fixed block fixedly connected with the bottom of the glass mounting frame, a sliding rod vertically and fixedly arranged on the upper surface of the fixed block, and a tension spring sleeved on the sliding rod; the sliding rod is arranged on the inner side of the glass mounting frame and is positioned between the side surface of the glass and the side surface of the glass mounting frame; the sliding block is provided with a sliding hole matched with the sliding rod, the sliding block is sleeved on the sliding rod, and two ends of the tension spring are respectively fixed at the bottom of the sliding block and the top of the fixed block; the bottom of the slider rests against the top of the glass near the edges of the sides.

According to the technical scheme, a torsion spring is sleeved on the end part of the rotating shaft, one end of the torsion spring is fixed on the glass mounting frame, and the other end of the torsion spring is fixedly hung on the rotating shaft; the acting force of the tension spring is larger than the acting force of the torsion spring.

According to the technical scheme, the magnets are arranged at the bottom of the glass mounting frame and the bottom of the pulling block.

The utility model has the following beneficial effects:

1. the outer side of the sliding window mounting frame is provided with an anti-falling frame, and the anti-falling frame is stably and reliably fixed in the outer wall by embedding sliding boxes at the upper end and the lower end of the anti-falling frame into the outer wall; and set up opening and check and keep off the net in preventing weighing down the frame, utilize opening and check to keep off the net and constitute an anti-weighing down space, when glass is broken because of unexpected factor, broken glass all sputters in preventing weighing down the space, avoids glass to drop from the window high altitude and causes the incident. In addition, traction rope assemblies are arranged in the sliding boxes at the upper part and the lower part of the anti-falling frame, two ends of each traction rope assembly are respectively fixed in the sliding space of the sliding box and the glass assembly, and when the glass assembly does not fall, the traction rope assemblies move in the sliding space and the channel along with the sliding of the glass assembly; when the glass component falls, the traction rope component moves along with the glass component, and then the traction rope component is tightened, so that traction and limitation on the glass component are formed. Based on the measures, the falling prevention space formed by the openings of the falling prevention frame and the grid blocking net is utilized to form the storage of broken glass due to unexpected factors, so that the glass is prevented from falling from the high altitude to hurt people; in addition, utilize haulage rope subassembly and opening and check to keep off the anti-falling space that the net formed, form two-layer safeguard against glass subassembly, prevent that glass subassembly from falling from the high altitude, cause the injury to the pedestrian.

2. Setting a splash-proof net, triggering an internal switch of the splash-proof assembly when glass is broken, switching the splash-proof net from a storage state to an unfolding state, and covering the glass assembly on the indoor side surface, thereby reducing the number of glass sputtering when the glass is broken; and further splashing of the broken glass is avoided.

Drawings

FIG. 1 is a schematic diagram of a construction of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a provided embodiment of the present utility model;

FIG. 3 is a schematic view of the structure of a glass assembly according to an embodiment of the present utility model;

FIG. 4 is a schematic view of the structure of a monolithic glass assembly according to an embodiment of the present utility model;

FIG. 5 is a schematic view of the structure of a sputtering prevention assembly in a single glass assembly according to an embodiment of the present utility model;

in the figure, a sliding window mounting frame is shown as 2; 3. an anti-falling rack; 4. a glass assembly; 4-1, glass; 4-2, a glass mounting rack; 4-31, a splash-proof net; 4-32, rotating shaft; 4-33, pulling the block; 4-34, sliding blocks; 4-35, detecting a driving component; 4-351, fixing blocks; 4-352, a sliding rod; 4-353, a tension spring; 4-36, torsion springs; 4-37, magnet; 5. a sliding space; 6. a grid barrier net; 7. a slide box; 7-1, sliding cavity; 8. a channel; 8-1, a first transition space; 8-2, a second transition space; 8-3, connecting grooves; 9. a hauling rope assembly; 9-1, a traction rope; 9-2, a sliding block.

Detailed Description

The utility model will now be described in detail with reference to the drawings and examples.

Referring to fig. 1 to 5, the utility model provides a high-rise glass frame installation anti-falling device.

Example 1

The sliding window comprises a sliding window mounting frame 2 embedded in an outer wall and an anti-falling frame 3 fixed on the outer side surface of the sliding window mounting frame, wherein the sliding window mounting frame and the anti-falling frame both adopt frame structures; two glass components 4 and a sliding space 5 matched with the glass components are arranged on the sliding window mounting frame, an opening matched with the area of the glass components is arranged in the middle of the anti-falling frame, one side of the opening is communicated with the sliding window mounting frame, and a grid blocking net 6 is arranged on the other side of the opening; the upper wall surface and the lower wall surface of the anti-falling frame are fixedly provided with sliding boxes 7, the anti-falling frame is embedded into the outer wall through the sliding boxes, sliding cavities 7-1 which are parallel to the sliding space and have the same length are arranged in the sliding boxes, a communicating channel 8 is arranged between the sliding cavities and the sliding space, and the channels are parallel to the sliding space and have the same length; and traction rope assemblies 9 are arranged in the upper sliding cavity and the lower sliding cavity, one ends of the upper traction rope assembly and the lower traction rope assembly are fixed in the sliding cavity, and the other ends of the upper traction rope assembly and the lower traction rope assembly penetrate through the channels and are respectively connected with one glass assembly.

In the embodiment, an anti-falling frame is arranged on the outer side of a sliding window mounting frame, and the anti-falling frame is stably and reliably fixed in an outer wall by embedding sliding boxes at the upper end and the lower end of the anti-falling frame into the outer wall; and set up opening and check and keep off the net in preventing weighing down the frame, utilize opening and check to keep off the net and constitute an anti-weighing down space, when glass is broken because of unexpected factor, broken glass all sputters in preventing weighing down the space, avoids glass to drop from the window high altitude and causes the incident. In addition, traction rope assemblies are arranged in the sliding boxes at the upper part and the lower part of the anti-falling frame, two ends of each traction rope assembly are respectively fixed in the sliding space of the sliding box and the glass assembly, and when the glass assembly does not fall, the traction rope assemblies move in the sliding space and the channel along with the sliding of the glass assembly; when the glass component falls, the traction rope component moves along with the glass component, and then the traction rope component is tightened, so that traction and limitation on the glass component are formed. Based on the measures, the falling prevention space formed by the openings of the falling prevention frame and the grid blocking net is utilized to form the storage of broken glass due to unexpected factors, so that the glass is prevented from falling from the high altitude to hurt people; in addition, utilize haulage rope subassembly and opening and check to keep off the anti-falling space that the net formed, form two-layer safeguard against glass subassembly, prevent that glass subassembly from falling from the high altitude, cause the injury to the pedestrian.

Example 2

The structure and principle of embodiment 2 are similar to those of embodiment 1, except that: the haulage rope subassembly includes haulage rope 9-1 and slider 9-2, and the slider adopts T type structure, and the shape in the slip space in the slip case and the horizontal section of T type structure and the shape phase-match of the department that links to each other of vertical section and horizontal section, the end that keeps away from horizontal section at the vertical section of T type piece is fixed to one end of haulage rope, and the other end of haulage rope passes the passageway and links to each other with window body subassembly.

In the embodiment, a T-shaped block is arranged, a transverse section of the T-shaped block is arranged in a sliding space, and the height of the T-shaped block in the vertical direction is limited by utilizing the sliding space; when the glass component does not fall, the T-shaped block is pulled by the traction rope to slide in the sliding space in the sliding process of the glass component (the channel and the sliding space are consistent with the sliding direction of the glass component so as to ensure the normal sliding of the traction rope component along with the glass component). When the glass component falls, the vertical height of the T-shaped block cannot be changed because the transverse section of the T-shaped block is embedded into the sliding space, and the glass component is tensioned in the falling-preventing space through the traction rope.

Example 3

The structure and principle of embodiment 3 are similar to those of embodiment 1, except that: a preferred form of construction of the channel is given; the passageway is including setting up the first transition space 8-1 in preventing weighing down the frame and setting up the second transition space 8-2 in the austral window, sliding sash mounting bracket, and first transition space is located the slip case below or top, all is equipped with spread groove 8-3 between first transition space and slip space, second transition space and first transition space and between second transition space and the austral window, sliding sash mounting bracket, and first transition space, second transition space and spread groove all parallel arrangement and length are unanimous.

In this embodiment, set up first transition space, second transition space and spread groove for haulage rope and T type piece slide along with the slip of glass subassembly, avoid haulage rope subassembly and other parts to take place to interfere in the normal use of glass subassembly.

Example 4

The structure and principle of embodiment 4 is similar to those of embodiments 1-3, except that: the glass assembly comprises glass 4-1 and glass mounting frames 4-2 matched with the glass, and sliding blocks matched with the sliding space are arranged at the top and the bottom of the glass mounting frames.

Example 5

The structure and principle of embodiment 5 are similar to those of embodiment 4, except that: when the glass is broken, in order to reduce the risk of sputtering glass fragments into a room as much as possible, a sputtering prevention assembly is arranged in the glass assembly, sputtering prevention nets 4-31 are arranged in the sputtering prevention assembly, and the sputtering prevention nets are in two states of unfolding and storing; when the glass is broken, the anti-sputtering net is switched from the storage state to the unfolding state, and covers the side face of the glass assembly.

In the embodiment, the anti-sputtering net is arranged, when the glass is broken, the anti-sputtering net triggers the switch inside the anti-sputtering component, the anti-sputtering net is switched from the storage state to the unfolding state, and the cover glass component is positioned on the indoor side surface, so that the number of glass sputtering when the glass is broken is reduced; and further splashing of the broken glass is avoided.

Example 6

The structure and principle of embodiment 6 are similar to those of embodiment 5, except that: the anti-sputtering assembly further comprises a rotating shaft 4-32 which is arranged on the glass mounting frame in a rotating connection mode, a pulling block 4-33 which is fixedly connected to the bottom of the anti-sputtering net, a sliding block 4-34 which is fixed at the end head of the pulling block, and a detection driving assembly 4-35 which detects the state of glass and drives the sliding block to move downwards according to the monitoring state; the top of the anti-sputtering net is fixed on the rotating shaft, and the anti-sputtering net is wound on the rotating shaft; the detection driving assembly detects the state of glass in real time, and when the glass is broken in a large area, the detection driving assembly pulls the sliding block to move downwards, so that the anti-sputtering net covers the glass mounting frame.

In the embodiment, the state of the glass is detected in real time through the detection driving assembly, and when the glass is broken on a large surface, the state switching of the anti-sputtering net is completed through the sliding block immediately. The corresponding detection driving component, such as the image detection and motor driving mode, can be selected through protection requirements and cost. Low cost mechanical forms can also be used.

Example 7

The structure and principle of embodiment 7 are similar to those of embodiment 6, except that: a mechanical form of the detection drive assembly is given on the basis of example 6. Specifically, the detection driving assembly comprises a fixed block 4-351 fixedly connected with the bottom of the glass mounting frame, a sliding rod 4-352 vertically and fixedly arranged on the upper surface of the fixed block, and a tension spring 4-353 sleeved on the sliding rod; the sliding rod is arranged on the inner side of the glass mounting frame and is positioned between the side surface of the glass and the side surface of the glass mounting frame; the sliding block is provided with a sliding hole matched with the sliding rod, the sliding block is sleeved on the sliding rod, and two ends of the tension spring are respectively fixed at the bottom of the sliding block and the top of the fixed block; the bottom of the slider rests against the top of the glass near the edges of the sides.

In the embodiment, when the glass is not broken, the bottom end of the sliding block abuts against the glass, so that the glass plays a limiting role on the sliding block, and the sliding block cannot move downwards under the action of the tension spring; when glass is broken in a large area, the sliding block loses limit support, and moves downwards under the action of the tension spring, so that the pulling block and the anti-sputtering net are driven to move downwards, partial blocking of broken glass is realized, and the influence of indoor splashing of the broken glass is reduced.

Example 8

The structure and principle of embodiment 8 are similar to those of embodiment 7, except that: in order to facilitate the rapid storage of the anti-sputtering net after the later glass replacement; the end part of the rotating shaft is sleeved with torsion springs 4-36, one end of each torsion spring is fixed on the glass mounting frame, and the other end of each torsion spring is fixedly hung on the rotating shaft; the acting force of the tension spring is larger than the acting force of the torsion spring. When changing glass, stir the sliding block to the top of slide bar, the axis of rotation accomplishes the effective accomodating of anti-sputtering net under the effect of torsional spring this moment.

Example 9

The structure and principle of embodiment 9 are similar to those of embodiment 7, except that: in order to ensure that the anti-sputtering net can completely cover the area where the glass is positioned, magnets 4-37 are arranged at the bottom of the glass mounting frame and the bottom of the pulling block. When glass is broken in a large area, the magnet adsorbs the sliding block at the bottom of the glass mounting frame, so that the anti-sputtering net is effectively fixed.

The foregoing is merely illustrative of the present utility model and is not intended to limit the scope of the utility model, which is defined by the claims and their equivalents.

Claims (9)

1. The utility model provides a high-rise glass frame installation anti-falling device which characterized in that: the sliding window comprises a sliding window mounting frame embedded in an outer wall and an anti-falling frame fixed on the outer side surface of the sliding window mounting frame, wherein the sliding window mounting frame and the anti-falling frame both adopt frame structures; two glass components and a sliding space matched with the glass components are arranged on the sliding window mounting frame, an opening matched with the area of the glass components is arranged in the middle of the anti-falling frame, one side of the opening is communicated with the sliding window mounting frame, and a grid blocking net is arranged on the other side of the opening; the anti-falling frame is embedded into the outer wall through the sliding box, a sliding cavity which is parallel to the sliding space and has the same length is arranged in the sliding box, a communicating channel is arranged between the sliding cavity and the sliding space, and the channel is parallel to the sliding space and has the same length; and traction rope assemblies are arranged in the upper sliding cavity and the lower sliding cavity, one ends of the upper traction rope assembly and the lower traction rope assembly are fixed in the sliding cavity, and the other ends of the upper traction rope assembly and the lower traction rope assembly penetrate through the channels and are respectively connected with one glass assembly.

2. The high-rise bezel-mounted fall arrest device of claim 1, wherein: the traction rope assembly comprises a traction rope and a sliding block, the sliding block adopts a T-shaped structure, the shape of a sliding space in a sliding box is matched with the shape of a transverse section of the T-shaped structure, the shape of a connecting part of a vertical section and the transverse section is matched with the shape of the connecting part of the vertical section, one end of the traction rope is fixed at the end, far away from the transverse section, of the vertical section of the T-shaped block, and the other end of the traction rope penetrates through a channel to be connected with the window assembly.

3. The high-rise bezel-mounted fall arrest device of claim 1, wherein: the passageway is including establishing the first transition space in preventing weighing down the frame and establishing the second transition space in the austral window, sliding sash mounting bracket, and first transition space is located the slip case below or top, all is equipped with the spread groove between first transition space and slip space, second transition space and first transition space and between second transition space and the austral window, sliding sash mounting bracket, and first transition space, second transition space and spread groove all parallel arrangement and length are unanimous.

4. A high-rise glass frame installation fall protection device according to any one of claims 1-3, wherein: the glass assembly comprises glass and a glass mounting frame matched with the glass, and sliding blocks matched with the sliding space are arranged at the top and the bottom of the glass mounting frame.

5. The high-rise bezel mounting fall arrest device of claim 4, wherein: a sputtering prevention assembly is arranged in the glass assembly, a sputtering prevention net is arranged in the sputtering prevention assembly, and the sputtering prevention net is in an unfolding state and a storage state; when the glass is broken, the anti-sputtering net is switched from the storage state to the unfolding state, and covers the side face of the glass assembly.

6. The high-rise bezel mounting fall arrest device of claim 5, wherein: the anti-sputtering assembly further comprises a rotating shaft which is arranged on the glass mounting frame in a rotating connection mode, a pulling block which is fixedly connected to the bottom of the anti-sputtering net, a sliding block which is fixed at the end head of the pulling block, and a detection driving assembly which detects the state of glass and drives the sliding block to move downwards according to the monitoring state; the top of the anti-sputtering net is fixed on the rotating shaft, and the anti-sputtering net is wound on the rotating shaft; the detection driving assembly detects the state of glass in real time, and when the glass is broken in a large area, the detection driving assembly pulls the sliding block to move downwards, so that the anti-sputtering net covers the glass mounting frame.

7. The high-rise bezel mounting fall arrest device of claim 6, wherein: the detection driving assembly comprises a fixed block fixedly connected with the bottom of the glass mounting frame, a sliding rod vertically and fixedly arranged on the upper surface of the fixed block, and a tension spring sleeved on the sliding rod; the sliding rod is arranged on the inner side of the glass mounting frame and is positioned between the side surface of the glass and the side surface of the glass mounting frame; the sliding block is provided with a sliding hole matched with the sliding rod, the sliding block is sleeved on the sliding rod, and two ends of the tension spring are respectively fixed at the bottom of the sliding block and the top of the fixed block; the bottom of the slider rests against the top of the glass near the edges of the sides.

8. The high-rise bezel mounting fall arrest device of claim 7, wherein: a torsion spring is sleeved on the end part of the rotating shaft, one end of the torsion spring is fixed on the glass mounting frame, and the other end of the torsion spring is fixedly hung on the rotating shaft; the acting force of the tension spring is larger than the acting force of the torsion spring.

9. The high-rise bezel mounting fall arrest device of claim 7, wherein: magnets are arranged at the bottom of the glass mounting frame and the bottom of the pulling block.