CN117344898A - Glass installation protection fixing device - Google Patents

Abstract

The application relates to a glass installation protection fixing device, which relates to the technical field of glass installation protection equipment and comprises a first frame, a second frame, a glass curtain wall, an adjusting component and a supporting component; the two ends of the first frame are fixedly connected with the two second frames respectively; the glass curtain wall is connected with the first frame and the second frame, one side surface of the glass curtain wall, which is positioned outdoors, is an arc surface, and the thickness of the glass curtain wall is gradually increased along the direction of a symmetrical axis close to the two first frames; the adjusting component is arranged on the first frame and is used for adjusting the connection strength of the glass curtain wall and the first frame according to the wind pressure born by the glass curtain wall; the support assembly is connected with the first frame and used for supporting the glass curtain wall. The glass curtain wall can improve the typhoon resistance capability of the glass curtain wall.

Description

Glass installation protection fixing device

Technical Field

The application relates to the technical field of glass installation protection equipment, in particular to a glass installation protection fixing device.

Background

In modern buildings, curtain walls are widely used as outer wall shields of high-rise buildings for decoration and beauty, wherein glass becomes a main curtain wall material because of good light transmittance and decoration.

The glass curtain wall is easy to break in typhoons and other weather, and on one hand, threatens the life safety of personnel inside and outside the building and damages property; on the other hand, the replacement and maintenance cost of the high-rise glass curtain wall of the building is high.

The glass curtain wall is broken due to typhoon weather, and the glass curtain wall is broken due to the fact that the pressure applied to the glass curtain wall by typhoon is too large; the other is typhoon to cause the glass curtain wall to vibrate and break.

Disclosure of Invention

In order to improve the capability of the glass curtain wall for resisting typhoons, the application provides a glass installation protection fixing device.

The application provides a glass installation protection fixing device adopts following technical scheme:

a glass installation protection fixing device comprises a first frame, a second frame, a glass curtain wall, an adjusting component and a supporting component; the two first frames and the two second frames are arranged oppositely, the two first frames are arranged oppositely, and the two second frames are arranged oppositely, and the two ends of the first frames are respectively and fixedly connected with the two second frames; the glass curtain wall is connected with the first frame and the second frame, one side surface of the glass curtain wall, which is positioned outdoors, is an arc surface, and the thickness of the glass curtain wall is gradually increased along the direction of a symmetrical axis close to the two first frames; the adjusting component is arranged on the first frame and is used for adjusting the connection strength of the glass curtain wall and the first frame according to the wind pressure born by the glass curtain wall; the support assembly is connected with the first frame and used for supporting the glass curtain wall.

By adopting the technical scheme, when the air flow blows to the glass curtain wall in typhoon weather, the air flow is split and guided by the glass curtain wall with the cambered surface, so that the air flow flows to the two sides of the glass curtain wall, and the air flow is prevented from directly blowing to the glass curtain wall, thereby avoiding the breakage of the glass curtain wall caused by the excessive pressure applied to the glass curtain wall by typhoon, and improving the capability of the glass curtain wall for resisting typhoon; meanwhile, in the flowing process of the air flow blown to the two sides of the glass curtain wall, the flow direction of the air flow subsequently blown to the glass curtain wall can be changed, so that the pressure born by the glass curtain wall is further reduced, and the typhoon resistance of the glass curtain wall is further improved.

When the glass curtain wall supporting device is used, the glass curtain wall is supported through the supporting component, and the capability of bearing pressure of the glass curtain wall is directly increased, so that the capability of resisting typhoons of the glass curtain wall is improved. The connecting strength of the glass curtain wall and the first frame is adjusted according to the wind pressure born by the glass curtain wall through the adjusting component, so that the larger the wind pressure is, the higher the connecting strength of the glass curtain wall and the first frame is, the glass curtain wall vibration and breakage caused by typhoon weather are avoided, and the capability of the glass curtain wall for resisting typhoon is improved.

The thickness of the middle position of the glass curtain wall is larger, so that the bearing capacity of the glass curtain wall to pressure is directly improved, and the typhoon resistance capacity of the glass curtain wall is improved.

Optionally, a first fixing groove is formed in the first frame; the adjusting components are provided with two groups, the adjusting components are in one-to-one correspondence with the first side frames, and the adjusting components comprise elastic pieces and barrier strips; the elastic piece is arranged in the first fixing groove, is of a cavity structure and is filled with gas; a clamping groove is formed in the elastic piece, and one end of the glass curtain wall is positioned in the clamping groove; the barrier strip is arranged on one side of the glass curtain wall, which is close to the indoor space, and is positioned on one side of the elastic piece, which is far away from the bottom of the first fixed groove, and the barrier strip is fixedly connected with the first frame.

By adopting the technical scheme, on one hand, the elastic piece plays a role in buffering the glass curtain wall, and the glass curtain wall is prevented from being in direct rigid contact with the first frame, so that the contact position of the glass curtain wall and the first frame is prevented from being damaged when the glass curtain wall is impacted by common air flow; on the other hand, in typhoon weather, the air current that blows to glass curtain wall both sides makes the elastic component shrink, because the blend stop is fixed the other end of elastic component, then the inside volume of elastic component reduces, and then the inside gas of elastic component is compressed, and the face that contacts with glass curtain wall and first frame takes place to expand to the joint strength of glass curtain wall and first frame has been increased.

When the airflow velocity of typhoon is larger, the pressure born by the elastic piece is larger, the shrinkage of the elastic piece is larger, the compression of the air in the elastic piece is larger, the expansion of the air in the elastic piece to the surface contacted with the glass curtain wall and the first frame is larger, the fixing effect on the glass curtain wall is stronger, the fixing effect on the glass curtain wall by self-adaptive adjustment is realized, and the connection strength of the glass curtain wall and the first frame is improved on the premise of ensuring the service life of the glass curtain wall.

Optionally, the supporting component is provided with two sets of, and with the second frame one-to-one, the supporting component includes the bracing piece, the bracing piece is located glass curtain wall is close to indoor one side, the bracing piece with glass curtain wall butt, the bracing piece with first frame is connected.

Through adopting above-mentioned technical scheme, when using, carry out the butt through the brace rod that sets up in indoor to glass curtain wall and support to the direct bearing capacity of increase glass curtain wall to pressure improves glass curtain wall's ability of resisting typhoon.

Optionally, the support assembly further comprises a slider and a support spring; the two first frames are provided with sliding grooves; the two sliding blocks are respectively positioned in the two sliding grooves, are in sliding connection with the first frame and are fixedly connected with the supporting rods; the second frame is provided with an installation groove; one end of the supporting spring is positioned in the mounting groove, and two ends of the supporting spring are fixedly connected with the second frame and the supporting rod respectively; the first frame is provided with a clamping piece which is used for fixing the support rod; the first frame is provided with a control component, and the control component is used for controlling the working state of the clamping piece according to the wind pressure born by the glass curtain wall.

Through adopting above-mentioned technical scheme, under the initial state, bracing piece and second frame butt, supporting spring are in compression state, fix the bracing piece through the fastener for when there is not a wind, the bracing piece is located glass curtain wall edge, avoids influencing glass curtain wall's aesthetic property and light transmissivity.

When the glass curtain wall supporting device is used, the control assembly controls the working state of the clamping piece according to the wind pressure of the glass curtain wall, the clamping piece is fixed to the supporting rod in typhoon weather, the supporting rod drives the sliding block to slide along the sliding groove under the action of the supporting spring, and the sliding block moves to the middle section of the glass curtain wall to support the glass curtain wall. The glass curtain wall supporting device has the advantages that when typhoons come, the supporting rods are automatically moved to support the glass curtain wall, operators are not required to operate, damage to the glass curtain wall caused by the fact that the supporting rods cannot be moved in time is avoided, and accordingly typhoons resistance of the glass curtain wall is improved.

Optionally, the number of the fastening pieces is four, the fastening pieces are in one-to-one correspondence with the sliding blocks, the fastening pieces are fastening telescopic rods, the fastening telescopic rods are in one-to-one correspondence with the sliding blocks, the fixed ends of the fastening telescopic rods are fixedly connected with the first side frame, and the movable ends of the fastening telescopic rods are in butt joint with one side, away from the supporting springs, of the sliding blocks; the movable end of the buckle telescopic link will the stiff end internal partition of buckle telescopic link is first there is pole chamber and first no pole chamber, liquid has been preset in the first no pole intracavity.

Through adopting above-mentioned technical scheme, under the initial state, owing to have in advance liquid in the no pole intracavity for the buckle telescopic link is in extension state, and the expansion end of buckle telescopic link and slider keep away from support spring's one side butt, make the slider fixed, thereby realized the fixed to the bracing piece.

Optionally, the control assembly is provided with four groups and corresponds to the buckle telescopic rods one by one; the control assembly comprises a first spring, a control telescopic rod, a second spring and a first communication pipe; the first spring is fixedly arranged in the first rod cavity and is in a compressed state; the control telescopic rod is positioned on one side of the glass curtain wall, which is close to the outside, and is positioned between the two ends of the first frame, the fixed end of the control telescopic rod is fixedly connected with the first frame, and the movable end of the control telescopic rod is abutted with the elastic piece; the movable end of the control telescopic rod divides the inside of the fixed end of the control telescopic rod into a second rod cavity and a second rodless cavity; the second spring is fixedly arranged in the second rodless cavity; the two ends of the first communication pipe are respectively communicated with the first rodless cavity and the second rodless cavity, and liquid is preset in the second rodless cavity and the first communication pipe.

Through adopting above-mentioned technical scheme, in typhoon weather, when the wind pressure that glass curtain wall bore reaches the default, the air current compression elastic component that flows to glass curtain wall both sides, make the control telescopic link lose the butt force, under the effect of second spring, the control telescopic link extends, the volume that the control telescopic link extends and makes the second rodless intracavity increases, make the liquid in the first rodless intracavity can flow into the second rodless intracavity through first connecting pipe, at this moment because first spring is in compressed state, under the effect of first spring, buckle telescopic link shrink, the liquid in the first rodless intracavity flows into the second rodless intracavity through first connecting pipe, buckle telescopic link shrink makes the bracing piece lose fixedly, thereby realized controlling the operating condition of fastener according to the wind pressure size that glass curtain wall bore receives.

Optionally, the control assembly further includes a second communicating pipe, two ends of the second communicating pipe are respectively communicated with the first rod cavity and the second rod cavity, and the first rod cavity, the second rod cavity and the second communicating pipe are all provided with liquid in advance.

Through adopting above-mentioned technical scheme, after the typhoon, operating personnel accessible pulling two bracing pieces remove respectively and reset to two edges of glass curtain wall, then the expansion end of pulling bayonet socket telescopic link for the buckle telescopic link extends and resets, it is fixed with the bracing piece, the buckle telescopic link extends and makes the liquid in the first pole intracavity flow into the second pole intracavity through the second communicating pipe, make the control telescopic link shrink reset, the elastic component is because losing the control telescopic link and stopping also to carry out automatic recovery this moment, then the control telescopic link, the buckle telescopic link, the bracing piece, the elastic component all accomplishes and resets, can deal with future typhoon.

When resetting, operators only need to carry out in the room, high-altitude operation is not needed, and the convenience of use is greatly improved.

Optionally, a second fixing groove is formed in the second frame, and one end of the glass curtain wall is located in the second fixing groove; an elastic pad is arranged between the glass curtain wall and the second frame, and two sides of the elastic pad are respectively and fixedly connected with the glass curtain wall and the second frame.

Through adopting above-mentioned technical scheme, the elastic pad plays the cushioning effect to glass curtain wall, avoids glass curtain wall and second frame direct rigid contact to avoid when receiving ordinary air current impact, glass curtain wall and the contact position department of second frame take place to damage.

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

by arranging the special structure of the glass curtain wall, when the air flow blows to the glass curtain wall in typhoon weather, the air flow is split and guided by the glass curtain wall with the cambered surface, so that the air flow flows to the two sides of the glass curtain wall, the air flow is prevented from directly blowing to the glass curtain wall, the glass curtain wall is prevented from being broken due to the fact that excessive pressure is applied to the glass curtain wall by typhoon, and the capability of resisting typhoon of the glass curtain wall is improved; meanwhile, in the flowing process of the air flow blown to the two sides of the glass curtain wall, the flow direction of the air flow subsequently blown to the glass curtain wall can be changed, so that the pressure born by the glass curtain wall is further reduced, and the typhoon resistance of the glass curtain wall is further improved;

through setting up adjusting part, according to the wind pressure size self-adaptation that glass curtain wall bore adjusts glass curtain wall and the joint strength of first frame for the wind pressure is bigger, then the joint strength of glass curtain wall and first frame is higher, avoids the glass curtain wall vibration breakage that leads to in typhoon weather, thereby improves glass curtain wall's resistance to typhoon;

through setting up supporting component, control assembly and buckle subassembly, realized when the typhoon come temporarily, remove the bracing piece voluntarily, support glass curtain wall, need not operating personnel and operate, avoided because can not in time remove the damage of the glass curtain wall that causes to the bracing piece to glass curtain wall's ability of resisting the typhoon has been improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application for illustrating a snap-fit telescoping rod;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a cross-sectional view of an embodiment of the present application for illustrating the position of a control telescoping rod;

FIG. 5 is a cross-sectional view of an embodiment of the present application for showing a slider;

FIG. 6 is a partial enlarged view at B in FIG. 5;

FIG. 7 is a cross-sectional view of an embodiment of the present application for showing a second spring;

FIG. 8 is an enlarged view of a portion of FIG. 7 at C;

fig. 9 is a partial enlarged view at D in fig. 4.

Reference numerals illustrate:

1. a first frame; 11. a first fixing groove; 12. a chute;

2. a second frame; 21. a mounting groove; 22. a second fixing groove; 23. an elastic pad;

3. glass curtain wall;

4. an adjustment assembly; 41. an elastic member; 411. a clamping groove; 42. a barrier strip;

5. a support assembly; 51. a support rod; 52. a slide block; 53. a support spring;

6. a clip; 61. a telescopic rod is buckled; 611. a first rod-shaped cavity; 612. a first rodless cavity;

7. a control assembly; 71. a first spring; 72. controlling a telescopic rod; 721. a second lumen having a stem; 722. a second rodless cavity; 73. a second spring; 74. a first communication pipe; 75. and a second communicating pipe.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-9.

The embodiment of the application discloses a glass installation protection fixing device. Referring to fig. 1, a glass installation protection fixing device includes a first frame 1, a second frame 2, and a glass curtain wall 3. The first frames 1 are vertically arranged in two, and the two first frames 1 are symmetrically arranged. Two second frames 2 are horizontally arranged, and the two second frames 2 are symmetrically arranged. Two ends of the first frame 1 are fixedly connected with two second frames 2 respectively. The glass curtain wall 3 is connected with the first frame 1 and the second frame 2, one side surface of the glass curtain wall 3 outside is an arc surface, and the thickness of the glass curtain wall 3 is gradually increased along the direction of symmetry axes close to the two first frames 1.

When typhoon weather is encountered, the air flow is blown to the glass curtain wall 3, and due to the special structure that the glass curtain wall 3 is positioned on one side face outdoors, the glass curtain wall 3 can split and guide the air flow, so that the air flow flows to the two sides of the glass curtain wall 3, and on one hand, the air flow is prevented from being directly blown to the glass curtain wall 3; on the other hand, the air flow blown to the two sides changes the flow direction of the air flow subsequently blown to the two sides of the glass curtain wall 3, thereby reducing the wind pressure born by the glass curtain wall 3. Meanwhile, the thickness of the middle position of the glass curtain wall 3 is larger, and the bearing capacity of the glass curtain wall 3 to pressure is directly improved.

Referring to fig. 2 and 3, a first fixing groove 11 is formed in the first frame 1, and two side edges of the glass curtain wall 3 are located in the first fixing groove 11 and connected with the first frame 1.

Referring to fig. 2 and 4, a second fixing groove 22 is formed in the second frame 2, an elastic pad 23 is fixedly arranged in the second fixing groove 22, the other two sides of the glass curtain wall 3 are located in the second fixing groove 22, one end of the glass curtain wall 3 located in the second fixing groove 22 is wrapped by the elastic pad 23, and the elastic pad 23 is fixedly connected with the glass curtain wall 3. The elastic pad 23 plays a role in buffering the glass curtain wall 3, and prevents the glass curtain wall 3 from being in direct rigid contact with the second frame 2, so that the contact position of the glass curtain wall 3 and the second frame 2 is prevented from being damaged when the glass curtain wall is impacted by air flow.

Referring to fig. 2 and 3, an adjusting component 4 is disposed on the first frame 1, and the adjusting components 4 are disposed in two groups and are in one-to-one correspondence with the first frame 1. The adjusting component 4 comprises an elastic piece 41 and a blocking strip 42, the elastic piece 41 is arranged in the first fixing groove 11, the elastic piece 41 is of a cavity structure, and the elastic piece 41 is filled with gas. The elastic piece 41 is provided with a clamping slot 411, and the side edge of the glass curtain wall 3 positioned in the first fixing slot 11 is positioned in the clamping slot 411. The baffle strip 42 is vertically arranged, the baffle strip 42 is arranged on one side, close to the room, of the glass curtain wall 3 and is positioned at the notch of the first fixing groove 11, and the baffle strip 42 is fixedly connected with the first frame 1.

The elastic piece 41 plays a role in buffering the glass curtain wall 3, and prevents the glass curtain wall 3 from being in direct rigid contact with the first frame 1, so that damage to the contact position of the glass curtain wall 3 and the first frame 1 when the glass curtain wall is impacted by air flow is avoided.

When the typhoon weather is encountered, the air flow flowing to the two sides of the glass curtain wall 3 is contacted with the elastic piece 41 under the diversion and diversion effects of the glass curtain wall 3, and the air flow velocity is high and the pressure is high when the typhoon weather is encountered, when the air pressure borne on the glass curtain wall 3 reaches a preset value, the air flow makes the elastic piece 41 shrink towards the bottom of the first fixing groove 11, and the blocking strip 42 is abutted with the other end of the elastic piece 41, so that the volume inside the elastic piece 41 is reduced, and under the effect of the air inside the elastic piece 41, the elastic piece 41 expands between the glass curtain wall 3 and the first side frame 1, so that the fixing effect of the elastic piece 41 on the glass curtain wall 3 is increased.

When the airflow velocity on typhoon days is higher, the pressure on the elastic member 41 is higher, the amount of shrinkage of the elastic member 41 to the bottom of the first fixing groove 11 is larger, the amount of expansion of the elastic member 41 between the glass curtain wall 3 and the first frame 1 is larger, and the fixing effect of the elastic member 41 on the glass curtain wall 3 is stronger.

If the glass curtain wall 3 is excessively fixed in the absence of typhoons, the edges of the glass curtain wall 3 are easily damaged and cracked after long-term use, which is why the glass is fixed by a flexible gasket instead of a rigid material when the glass door and window is fixed.

Referring to fig. 5 and 6, the first frame 1 is provided with a support assembly 5, the support assembly 5 is provided with two groups, and corresponds to the second frame 2 one by one, and the support assembly 5 includes a slider 52, a support rod 51 and a support spring 53. The two first frames 1 are provided with sliding grooves 12, the opening directions of the two sliding grooves 12 are opposite to each other, and the sliding grooves 12 are positioned on one side, close to the indoor space, of the glass curtain wall 3. The two sliding blocks 52 are arranged, the two sliding blocks 52 are respectively positioned in the two sliding grooves 12, the sliding blocks 52 are in sliding connection with the first side frame 1, and the sliding axes are arranged vertically. The bracing piece 51 is located the glass curtain wall 3 and is close to indoor one side, and bracing piece 51 is located between two sliders 52, and both ends respectively with two sliders 52 fixed connection, the one side that the bracing piece 51 is close to glass curtain wall 3 and glass curtain wall 3 butt.

Referring to fig. 5 and 6, two mounting grooves 21 are formed in the second frame 2, and the two mounting grooves 21 are respectively located at two ends of the second frame 2. The support springs 53 are vertically arranged in two, the support springs 53 are in one-to-one correspondence with the mounting grooves 21, one end of each support spring 53 is located in each mounting groove 21, the bottom ends of the support springs 53 are fixedly connected with the second frame 2, and the top ends of the support springs 53 are fixedly connected with the support rods 51.

Referring to fig. 5 and 6, the first frame 1 is provided with fastening pieces 6, the fastening pieces 6 are fastening telescopic rods 61, the fastening telescopic rods 61 are four and are in one-to-one correspondence with the sliding blocks 52, the fastening telescopic rods 61 are horizontally arranged inside the first frame 1, fixed ends of the fastening telescopic rods 61 are fixedly connected with the first frame 1, and when the supporting rods 51 are abutted with the second frame 2, movable ends of the fastening telescopic rods 61 are located on one side, away from the second frame 2, of the sliding blocks 52 and are abutted with the supporting rods 51. The movable end of the buckle telescopic rod 61 divides the inside of the fixed end of the buckle telescopic rod 61 into a first rod cavity 611 and a first rod cavity 612, and the first rod cavity 611 is located between the first rod cavity 612 and the sliding block 52. The first rodless chamber 612 is pre-filled with a liquid.

In the initial state, the support rod 51 abuts against the second frame 2, the support spring 53 is in a compressed state, the movable end of the buckle telescopic rod 61 is located at one side of the sliding block 52 away from the second frame 2, and since the first rodless cavity 612 is preset with liquid, the buckle telescopic rod 61 is in an extended state, and the movable end of the buckle telescopic rod 61 abuts against the support rod 51 to fix the support rod 51.

Referring to fig. 7 and 8, the first frame 1 is provided with a control assembly 7, the control assembly 7 is provided with four groups, and corresponds to the snap telescopic links 61 one by one, and the control assembly 7 includes a first spring 71, a control telescopic link 72, a second spring 73, a first communication pipe 74 and a second communication pipe 75.

Referring to fig. 6, a first spring 71 is horizontally disposed in a first rod cavity 611, two ends of the first spring 71 are fixedly connected with a movable end of the buckle telescopic rod 61 and a fixed end of the buckle telescopic rod 61, respectively, and the first spring 71 is in a compressed state.

Referring to fig. 8, the control telescopic rod 72 is horizontally disposed inside the first frame 1 and is located on the side of the glass curtain wall 3 near the outside, and referring to fig. 4 and 9, the control telescopic rod 72 is located between the two ends of the first frame 1, the fixed end of the control telescopic rod 72 is fixedly connected to the first frame 1, and in the initial state, the movable end of the control telescopic rod 72 is in contact with the side of the elastic member 41 near the outside. The movable end of the control telescoping rod 72 divides the interior of the fixed end of the control telescoping rod 72 into a second rod chamber 721 and a second rodless chamber 722, the second rod chamber 721 being located between the second rodless chamber 722 and the elastic member 41. The second spring 73 is horizontally disposed in the second rodless cavity 722, and two ends of the second spring 73 are fixedly connected to the fixed end of the control telescopic rod 72 and the movable end of the control telescopic rod 72 respectively, and in an initial state, the second spring 73 is in a compressed state.

Referring to fig. 3 and 8, the two ends of the first communication pipe 74 are respectively communicated with the first rodless cavity 612 and the second rodless cavity 722, and liquid is preset in the second rodless cavity 722 and the first communication pipe 74. The second communicating pipe 75 communicates at both ends with the first rod chamber 611 and the second rod chamber 721, respectively, and liquids are preset in the first rod chamber 611, the second rod chamber 721, and the second communicating pipe 75.

When typhoon weather is encountered, the air flow flowing to the two sides of the glass curtain wall 3 causes the elastic piece 41 to contract towards the bottom of the first fixed groove 11, and the second spring 73 is in a compressed state, under the action of the elastic force of the second spring 73, the telescopic rod 72 is controlled to extend, so that the volume in the second rod cavity 721 is reduced, the liquid in the second rod cavity 721 is extruded to flow into the first rod cavity 611 through the second communicating pipe 75, the telescopic rod 72 is controlled to extend, the volume in the second rod-free cavity 722 is also increased, and the first spring 71 pushes the buckling telescopic rod 61 to contract under the action of the first spring 71, so that the liquid in the first rod-free cavity 612 flows into the second rod-free cavity 722 through the first communicating pipe 74.

The telescopic rod 61 of the buckle contracts and makes the bracing piece 51 lose fixedly, because the supporting spring 53 is in the compressed state, under the effect of the supporting spring 53, the bracing piece 51 drives the sliding block 52 to slide along the length direction of the sliding groove 12, and moves to the middle section position of the glass curtain wall 3, because the bracing piece 51 is abutted with the glass curtain wall 3 and is positioned on one side of the glass curtain wall 3 close to the room, the bracing piece 51 plays a supporting role on the glass curtain wall 3.

When typhoons are over, although the elastic member 41 loses the pressure of the air flow and is restored, the elastic member 41 cannot be fully restored because the control telescopic rod 72 is in an extended state and the contraction direction of the control telescopic rod 72 is perpendicular to the direction in which the elastic member 41 applies to the control telescopic rod 72. At this time, the operator pulls the two support rods 51 to slide toward the two second frames 2 respectively in the room, so that the two support rods 51 are respectively abutted against the two second frames 2, and then pulls the movable end of the buckle telescopic rod 61, so that the buckle telescopic rod 61 extends, the support rods 51 are fixed, the buckle telescopic rod 61 extends to enable the liquid in the first rod cavity 611 to flow into the second rod cavity 721 through the second communicating pipe 75, the volume in the first rod-free cavity 612 is increased, the liquid flowing into the second rod cavity 721 extrudes the movable end of the control telescopic rod 72, so that the control telescopic rod 72 is contracted, at this time, the elastic piece 41 is completely restored, the control telescopic rod 72 is contracted, the liquid in the second rod-free cavity 722 flows into the first rod-free cavity 612 through the first communicating pipe 74, and the control telescopic rod 72, the buckle telescopic rod 61, the support rods 51 and the elastic piece 41 are reset, so that future typhoons can be handled.

The implementation principle of the glass installation protection fixing device provided by the embodiment of the application is as follows:

when the typhoon weather is encountered, when the air flow blows to the glass curtain wall 3, the air flow is split and guided due to the special structure of the glass curtain wall 3, so that the air flow flows to the two sides of the glass curtain wall 3, the air flow is prevented from directly blowing to the glass curtain wall 3, and meanwhile, the air flow blown to the two sides changes the flow direction of the air flow which is subsequently blown to the two sides of the glass curtain wall 3, so that the air pressure born by the glass curtain wall 3 is reduced.

When typhoon weather is encountered, the air flow blown to the two sides of the glass curtain wall 3 causes the elastic piece 41 to shrink towards the bottom of the first fixing groove 11, so that the volume inside the elastic piece 41 is reduced, and under the action of the air inside the elastic piece 41, the elastic piece 41 expands between the glass curtain wall 3 and the first frame 1, so that the fixing effect of the elastic piece 41 on the glass curtain wall 3 is increased. And the larger the airflow velocity on typhoon days is, the larger the pressure applied to the elastic member 41 is, the more the elastic member 41 is contracted towards the bottom of the first fixing groove 11, and the stronger the fixing effect of the elastic member 41 on the glass curtain wall 3 is.

In the initial state, the snap telescopic rod 61 is in the extended state, and the support rod 51 is fixed at a position abutting against the second frame 2. When the air flow flowing to the two sides of the glass curtain wall 3 causes the elastic piece 41 to shrink, the elastic piece 41 is not supported, and under the action of the second spring 73, the telescopic rod 72 is controlled to extend, so that the buckle telescopic rod 61 shrinks, and the supporting rod 51 is not fixed, and under the action of the supporting spring 53, the supporting rod 51 moves to the middle section position of the glass curtain wall 3, and the glass curtain wall 3 is supported.

When typhoons disappear, an operator pulls the two support rods 51 to slide towards the two second frames 2 respectively indoors, so that the two support rods 51 are respectively abutted against the two second frames 2, then pulls the movable ends of the buckling telescopic rods 61, so that the buckling telescopic rods 61 extend, the support rods 51 are fixed, meanwhile, the buckling telescopic rods 61 extend to enable the control telescopic rods 72 to shrink, the elastic pieces 41 are completely restored, and restoration of the control telescopic rods 72, the buckling telescopic rods 61, the support rods 51 and the elastic pieces 41 is completed, so that future typhoons can be handled.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a glass installation protection fixing device which characterized in that: comprises a first frame (1), a second frame (2), a glass curtain wall (3), an adjusting component (4) and a supporting component (5); the two first frames (1) and the two second frames (2) are arranged oppositely, and two ends of the first frames (1) are fixedly connected with the two second frames (2) respectively; the glass curtain wall (3) is connected with the first frames (1) and the second frames (2), one side surface of the glass curtain wall (3) positioned outdoors is an arc surface, and the thickness of the glass curtain wall (3) is gradually increased along the direction close to the symmetrical axis of the two first frames (1); the adjusting component (4) is arranged on the first frame (1) and is used for adjusting the connection strength of the glass curtain wall (3) and the first frame (1) according to the wind pressure born by the glass curtain wall (3); the support component (5) is connected with the first side frame (1), and the support component (5) is used for supporting the glass curtain wall (3).

2. A glass mounting protective fixture according to claim 1, wherein: a first fixing groove (11) is formed in the first side frame (1); the adjusting assemblies (4) are provided with two groups, the adjusting assemblies (4) are in one-to-one correspondence with the first side frames (1), and the adjusting assemblies (4) comprise elastic pieces (41) and barrier strips (42); the elastic piece (41) is arranged in the first fixing groove (11), the elastic piece (41) is of a cavity structure, and gas is filled in the elastic piece (41); a clamping groove (411) is formed in the elastic piece (41), and one end of the glass curtain wall (3) is positioned in the clamping groove (411); the barrier strip (42) is arranged on one side, close to a room, of the glass curtain wall (3) and is positioned on one side, far away from the groove bottom of the first fixing groove (11), of the elastic piece (41), and the barrier strip (42) is fixedly connected with the first side frame (1).

3. A glass mounting protective fixture according to claim 2, wherein: the support assembly (5) is provided with two groups and corresponds to the second frames (2) one by one, the support assembly (5) comprises support rods (51), the support rods (51) are located on one side, close to an indoor space, of the glass curtain wall (3), the support rods (51) are in butt joint with the glass curtain wall (3), and the support rods (51) are connected with the first frames (1).

4. A glass mounting protective fixture according to claim 3, wherein: the support assembly (5) further comprises a sliding block (52) and a support spring (53); a chute (12) is formed in each of the two first frames (1); the two sliding blocks (52) are arranged, the two sliding blocks (52) are respectively positioned in the two sliding grooves (12), the sliding blocks (52) are in sliding connection with the first side frame (1), and the sliding blocks (52) are fixedly connected with the supporting rods (51); the second frame (2) is provided with a mounting groove (21); one end of the supporting spring (53) is positioned in the mounting groove (21), and two ends of the supporting spring (53) are fixedly connected with the second frame (2) and the supporting rod (51) respectively; a clamping piece (6) is arranged on the first side frame (1), and the clamping piece (6) is used for fixing the supporting rod (51); the glass curtain wall is characterized in that a control assembly (7) is arranged on the first frame (1), and the control assembly (7) is used for controlling the working state of the clamping piece (6) according to the wind pressure borne by the glass curtain wall (3).

5. A glass mounting fixture according to claim 4, wherein: the four clamping pieces (6) are arranged and correspond to the sliding blocks (52) one by one, the clamping pieces (6) are clamping telescopic rods (61), the clamping telescopic rods (61) correspond to the sliding blocks (52) one by one, the fixed ends of the clamping telescopic rods (61) are fixedly connected with the first side frame (1), and the movable ends of the clamping telescopic rods (61) are abutted to one side, away from the supporting springs (53), of the sliding blocks (52); the movable end of the buckle telescopic rod (61) divides the inside of the fixed end of the buckle telescopic rod (61) into a first rod cavity (611) and a first rod-free cavity (612), and liquid is preset in the first rod-free cavity (612).

6. A glass mounting fixture according to claim 5, wherein: the control assembly (7) is provided with four groups and corresponds to the buckling telescopic rods (61) one by one; the control assembly (7) comprises a first spring (71), a control telescopic rod (72), a second spring (73) and a first communication pipe (74); the first spring (71) is fixedly arranged in the first rod cavity (611), and the first spring (71) is in a compressed state; the control telescopic rod (72) is positioned on one side, close to the outside, of the glass curtain wall (3) and between two ends of the first side frame (1), the fixed end of the control telescopic rod (72) is fixedly connected with the first side frame (1), and the movable end of the control telescopic rod (72) is abutted to the elastic piece (41); the movable end of the control telescopic rod (72) divides the inside of the fixed end of the control telescopic rod (72) into a second rod cavity (721) and a second rodless cavity (722); the second spring (73) is fixedly arranged in the second rodless cavity (722); the two ends of the first communication pipe (74) are respectively communicated with the first rodless cavity (612) and the second rodless cavity (722), and liquid is preset in the second rodless cavity (722) and the first communication pipe (74).

7. A glass mounting protective fixture according to claim 6, wherein: the control assembly (7) further comprises a second communicating pipe (75), two ends of the second communicating pipe (75) are respectively communicated with the first rod cavity (611) and the second rod cavity (721), and liquid is preset in the first rod cavity (611), the second rod cavity (721) and the second communicating pipe (75).

8. A glass mounting protective fixture according to claim 1, wherein: a second fixing groove (22) is formed in the second frame (2), and one end of the glass curtain wall (3) is positioned in the second fixing groove (22); an elastic pad (23) is arranged between the glass curtain wall (3) and the second frame (2), and two sides of the elastic pad (23) are fixedly connected with the glass curtain wall (3) and the second frame (2) respectively.