CN111946212A

CN111946212A - Glass hanging sliding door

Info

Publication number: CN111946212A
Application number: CN202010977825.4A
Authority: CN
Inventors: 柯嘉豪
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2020-11-17

Abstract

The invention discloses a glass hanging sliding door which comprises a guide rail arranged on an indoor ceiling and a hanging sliding door hung at the bottom of the guide rail and moving left and right along the guide rail, wherein a clearance cavity is formed between the bottom of the hanging sliding door and the ground, the hanging sliding door comprises a glass layer and a frame wrapped outside the glass layer, a frame cross bar is formed at the bottom of the frame, the frame cross bar is hollowed out to form a hollowed cavity with an opening at the top, a glue layer is filled in the bottom surface of the hollowed cavity, the bottom of the glass is inserted into the glue layer to fix the glass, emergency protection components are respectively arranged on two sides of the upper end of the glue layer, the emergency protection components are arranged on two sides of the glass, the bottom of the emergency protection components is inserted into the glue layer to be fixed, an inserting rod is further arranged at the bottom of the emergency protection components, and. According to the hanging sliding door, after the top is loosened, the protective layer is formed immediately to cover glass wool, personal injury is reduced, and the safety of the hanging sliding door is improved.

Description

Glass hanging sliding door

Technical Field

The invention relates to a glass sliding door, in particular to a glass hanging sliding door.

Background

The glass sliding door is commonly used by people at present, the top and the bottom of the traditional glass sliding door are respectively provided with a guide rail, the defects of the traditional glass sliding door are that the friction is large when the door is pulled and pulled due to the fact that the guide rails are arranged at the upper end and the lower end, the required thrust is large, the guide rails at the bottom are easy to trip, and dust and garbage are accumulated in the guide rails at will. Therefore, in order to solve the problems, people design the hanging sliding door, the sliding door only has one guide rail at the top, and the guide rail on the ground is cancelled, so that the sliding door cannot trip feet, dust cannot be accumulated, and the sliding door is more convenient to pull. But hang the safety problem that sliding door exists and also can be bigger, because only rely on the top guide rail to suspend whole sliding door completely, the bottom does not have a support, like this when external force striking on moving the door, the bottom is fixed owing to do not have the support, so glass moves a top and can take place serious deformation, and whole glass moves a skew in the position of door appearance, if the top pine takes off this moment, whole glass moves a door and just can drop, smashes to the people of both sides, is very dangerous.

Disclosure of Invention

The invention aims to solve the technical problem of providing a glass hanging sliding door, and aims to overcome the defects in the prior art and design a safer structure to improve the safety.

The invention is realized by the following technical scheme: a glass hanging sliding door comprises a guide rail installed on an indoor ceiling and a hanging sliding door hung at the bottom of the guide rail and moving left and right along the guide rail, wherein a clearance cavity is formed between the bottom of the hanging sliding door and the ground, the hanging sliding door comprises a glass layer and a frame wrapped outside the glass layer, a frame cross bar is formed at the bottom of the frame, a hollow cavity with an opening at the top is formed in the frame cross bar, a glue layer is filled in the bottom surface of the hollow cavity, glass is fixed by inserting the bottom of the glass into the glue layer, emergency protection components are respectively arranged at two sides of the upper end of the glue layer, the bottom of the emergency protection components is fixed by inserting the bottom of the emergency protection components into the glue layer, inserting rods are further arranged at the bottom of the emergency protection components, the inserting rods are partially arranged in the glue layer, and partially penetrate through the frame cross bar and extend into the clearance cavity between the hanging sliding door, the emergency protection component is opened by jacking the inserted rod, and the opened emergency protection component covers two sides of the glass and serves as a protection piece of the glass.

As preferred technical scheme, the emergency protection subassembly includes the elastic compression gasbag of a sealing strip, high resilience, more than one pre-buried pole and a bottom sprag board, the one end of elastic compression gasbag is packed into in the first intracavity that holds that the sealing strip bottom was seted up, and the second that the bottom sprag board up end was seted up is packed into to the other end of elastic compression gasbag and is held the intracavity, and more than one pre-buried pole is buried underground in the glue layer, and more than one pre-buried pole is connected fixedly with the bottom sprag board, all sets up a first air guide channel in the pre-buried pole, and first air guide channel switches on with the inside gas storage chamber of elastic compression gasbag is connected, and the inserted bar top stretches into in the first air guide channel of pre-buried.

According to the preferable technical scheme, a hollow contact pin is arranged at the top of the inserted rod, an air outlet is formed in one side face of the hollow contact pin, a second air guide channel is formed in the inserted rod, the hollow contact pin is communicated with the second air guide channel, a rubber sealing layer is further arranged in the first air guide channel, the first air guide channel is separated from the outside through the rubber sealing layer, the top of the hollow contact pin faces the rubber sealing layer, the rubber sealing layer is punctured through the hollow contact pin to conduct the first air guide channel and the second air guide channel, and the extending end of the outside of the inserted rod is an air inlet.

As an optimized technical scheme, a limiting convex part is further arranged on the inner wall of the first air guide channel, close to one side of the hollow contact pin, of the rubber sealing layer, each insert rod is opposite to one embedded rod, the distance between the air inlet of each insert rod and the ground is 1-2mm, more than one air inlet groove with an opening at the bottom is formed in the outer wall surface of the bottom of each insert rod, and external air enters the insert rods from the air inlet grooves in the side surfaces.

As the preferred technical scheme, the sealing strip is made of soft plastics, a first magnetic strip is arranged at the bottom of the sealing strip in an embedded mode, a second magnetic strip is arranged at the top of the frame cross strip in an embedded mode, the sealing strip is arranged in the hollow cavity, one side of the sealing strip is in compression contact with the inner wall of the hollow cavity, the other side of the sealing strip is in compression contact with the side face of the glass, the first magnetic strip and the second magnetic strip attract each other, and the first magnetic strip and the second magnetic strip are both strong magnets.

As the preferred technical scheme, the embedded rods and the inserted rods are in close fit contact with the glue layer.

As the preferred technical scheme, the high-resilience elastic compression air bag is made of elastic rubber materials, the elastic compression air bag is compressed and filled in the hollow cavity, and the elastic compression air bag rapidly recovers deformation after air is sucked and covers two side faces of the glass.

The invention has the beneficial effects that: according to the structure, after the hanging sliding door is dropped and loosened, the protective layers are covered on the two sides of the glass of the hanging sliding door, so that the glass can be effectively prevented from damaging a human body, and the protective effect of the glass is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an assembled side view of the interior of the glass and frame rail of the present invention;

FIG. 3 is a schematic view of the plunger and emergency protection assembly of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 2 at B;

FIG. 6 is an enlarged partial schematic view of the plunger;

fig. 7 is a usage state diagram of the application protection component of the present invention after being opened.

Detailed Description

As shown in fig. 1 and 2, the glass hanging sliding door comprises a guide rail 1 installed on an indoor ceiling, and a hanging sliding door 2 hung at the bottom of the guide rail 1 and moving left and right along the guide rail 1, wherein a clearance cavity 5 is formed between the bottom of the hanging sliding door 2 and the ground, the hanging sliding door 2 comprises a glass layer and a frame wrapped outside the glass layer, a frame cross bar 6 is formed at the bottom of the frame, the frame cross bar 6 is hollowed out to form a hollowed-out cavity with an open top, a glue layer 33 is filled at the bottom of the hollowed-out cavity, glue can be glass glue, the bottom of the glass 21 is inserted into the glue layer 33 to fix the glass 21, an emergency protection component 3 is respectively arranged at two sides of the upper end of the glue layer 33, the emergency protection components 3 are arranged at two sides of the glass 21, the bottom of the emergency protection component 3 is inserted into the glue layer 33 to be fixed, an insertion rod 4 is, the inserted bar 4 is partially arranged in the glue layer 33, partially penetrates through the frame cross bar 6 and extends into a clearance cavity 5 between the hanging sliding door 2 and the ground, the emergency protection component 3 is opened by the upward jacking of the inserted bar 4, and the opened emergency protection component 3 covers the two sides of the glass 21 and is used as a protection piece for the glass 21.

In this embodiment, as shown in fig. 3, the emergency protection component 3 includes a sealing strip 31, a high-resilience elastic compression airbag 32, more than one embedded rod 34 and a bottom support plate 35, one end of the elastic compression airbag 32 is installed in a first accommodating cavity formed in the bottom of the sealing strip 31, the other end of the elastic compression airbag 32 is installed in a second accommodating cavity formed in the upper end face of the bottom support plate 35, the more than one embedded rod 34 is embedded in the glue layer 33, the more than one embedded rod 34 is connected and fixed with the bottom support plate 35, a first air guide channel 341 is arranged in each embedded rod 34, the first air guide channel 341 is connected and conducted with an air storage cavity inside the elastic compression airbag 32, and the top of the insert rod 4 extends into the first air guide channel 341 of the embedded rod 34.

As shown in fig. 4, a hollow pin 43 is disposed at the top of the plunger 4, an air outlet 44 is disposed at one side surface of the hollow pin 43, a second air guide channel 41 is disposed inside the plunger 4, the hollow pin 43 is communicated with the second air guide channel 41, a rubber sealing layer 45 is further disposed in the first air guide channel 341, the rubber sealing layer 45 separates the first air guide channel 341 from the outside, the top of the hollow pin 43 faces the rubber sealing layer 45, the hollow pin 43 pierces the rubber sealing layer 45 to conduct the first air guide channel 341 and the second air guide channel 41, and the outer extending end of the plunger 4 is an air inlet 101.

The inner wall of the first air guide channel 341 on one side of the rubber sealing layer 45 close to the hollow contact pin 43 is also provided with a limiting convex part 342, each insert rod 4 is over against one embedded rod 34, the air inlet of the insert rod 4 is 1-2mm away from the ground, the outer wall surface of the bottom of the insert rod is provided with more than one air inlet groove 102 with an opening at the bottom, and as shown in fig. 6, external air enters the insert rod from the air inlet groove 102 on the side surface.

Sealing strip 31 adopts soft plastics to make, and the bottom embedding of sealing strip 31 is provided with first magnetic force strip 103, and the top embedding of frame horizontal bar is provided with second magnetic force strip 104, and sealing strip 31 is packed into in the fretwork intracavity, and its one side compresses tightly the contact with fretwork intracavity wall, and the opposite side compresses tightly the contact with the glass side, and first magnetic force strip 103 and second magnetic force strip 104 actuation each other, and first magnetic force strip 103 and second magnetic force strip 104 are strong magnetism.

The embedded rod 34 and the inserted rod 4 are in close fit contact with the glue layer, the inserted rod 4 can be extruded and moved in the glue layer 33, the inserted rod 4 is inserted into the embedded rod 34 after being pushed up, and the hollow contact pin 43 at the top of the inserted rod 4 is utilized to puncture the rubber sealing layer 45, so that the first air guide channel and the second air guide channel are communicated.

The high resilience elastic compression air bag 32 is made of elastic rubber material, and is compressed and filled in the hollow cavity, and the elastic compression air bag rapidly recovers deformation after absorbing air and covers two side surfaces of the glass.

When the invention is used normally, the glass sliding door utilizes the top guide rail to realize transverse movement, the bottom and the ground form a clearance cavity all the time and are not contacted, the bottom of the inserted rod is positioned in the clearance cavity, when the invention is used, once the top of the glass sliding door is loosened, the inserted rod at the bottom is contacted with the ground, because the inserted rod is protruded, once the glass sliding door falls to the ground, the inserted rod is rapidly pushed by gravity, and the hollow inserted pin at the top of the inserted rod is utilized to puncture the rubber sealing layer, at the moment, the first air guide channel is communicated with the second air guide channel, the inserted rod continuously upwards along with the contact of the inserted rod, the end surface of the inserted rod at the top is contacted with the limit convex part, at the moment, the inserted rod is continuously upwards pushed, the inserted rod can push the embedded rod upwards, so that the bottom supporting plate at the upper end surface of the embedded rod upwards moves, because the bottom of the, make first magnetic force strip have the separation of second magnetic force strip at last, because the top loses the restriction this moment, the deformation is resumeed fast after the elasticity compression gasbag inhales gas, as shown in figure 7 to this covers in glass both sides fast, forms the protective layer, even glass door falls down like this, also be unlikely to appear very serious condition, greatly increased the security.

In addition, it needs to be noted that, after the inserted link is pressed down by the glass sliding door, the position of the bottom extending end of the inserted link close to the air inlet needs to be larger, so that the inserted link is prevented from completely entering the frame cross bar, and otherwise, the air inlet and the air inlet groove can be blocked.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. A glass hanging sliding door is characterized in that: the emergency protection device comprises a guide rail arranged on an indoor ceiling and a hanging sliding door hung at the bottom of the guide rail and moving left and right along the guide rail, wherein a clearance cavity is formed between the bottom of the hanging sliding door and the ground, the hanging sliding door comprises a glass layer and a frame wrapped outside the glass layer, a frame cross bar is formed at the bottom of the frame, the frame cross bar is hollowed inside and forms a hollowed cavity with an opening at the top, a glue layer is filled in the bottom of the hollowed cavity, the bottom of the glass is inserted into the glue layer to fix the glass, emergency protection components are respectively arranged at two sides of the upper end of the glue layer and are arranged at two sides of the glass, the bottom of the emergency protection component is inserted into the glue layer to be fixed, an inserting rod is further arranged at the bottom of the emergency protection component, the inserting rod is partially arranged in the glue layer, and partially penetrates through the frame cross bar and extends into the clearance cavity between the hanging sliding, the opened emergency protection components cover two sides of the glass and are used as protection pieces of the glass.

2. The glass hanging sliding door according to claim 1, wherein: emergent protection component includes the elastic compression gasbag of a sealing strip, high resilience, more than one pre-buried pole and a bottom sprag board, the one end of elastic compression gasbag is packed into in the first intracavity that holds that sets up in the sealing strip bottom, and the other end of elastic compression gasbag is packed into and holds the intracavity in the second that the bottom sprag board up end was seted up, and more than one pre-buried pole is buried underground in the glue in situ, and more than one pre-buried pole is connected fixedly with the bottom sprag board, all sets up a first air guide channel in the pre-buried pole, and first air guide channel is connected with the inside gas storage chamber of elastic compression gasbag and is switched on, and the inserted bar top stretches into in the first air guide channel of pre.

3. The glass hanging sliding door according to claim 2, wherein: the top of the inserted bar is provided with a hollow contact pin, one side face of the hollow contact pin is provided with an air outlet hole, a second air guide channel is arranged in the inserted bar, the hollow contact pin is communicated with the second air guide channel, a rubber sealing layer is further arranged in the first air guide channel and used for separating the first air guide channel from the outside, the top of the hollow contact pin faces the rubber sealing layer, the rubber sealing layer is punctured through the hollow contact pin to conduct the first air guide channel and the second air guide channel, and the extending end of the outside of the inserted bar is an air inlet.

4. The glass hanging sliding door according to claim 3, wherein: the inner wall of the first air guide channel on one side, close to the hollow contact pin, of the rubber sealing layer is further provided with a limiting convex part, each insert rod is right opposite to one embedded rod, the distance between the air inlet of each insert rod and the ground is 1-2mm, more than one air inlet groove with an opening at the bottom is formed in the outer wall surface of the bottom of each insert rod, and external air enters the insert rods from the air inlet grooves in the side surfaces.

5. The glass hanging sliding door according to claim 2, wherein: the sealing strip is made of soft plastics, a first magnetic strip is arranged at the bottom of the sealing strip in an embedded mode, a second magnetic strip is arranged at the top of the frame cross strip in an embedded mode, the sealing strip is arranged in the hollow cavity, one side of the sealing strip is in compression contact with the inner wall of the hollow cavity, the other side of the sealing strip is in compression contact with the side face of glass, the first magnetic strip and the second magnetic strip attract each other, and the first magnetic strip and the second magnetic strip are strong magnets.

6. The glass hanging sliding door according to claim 2, wherein: and the embedded rod and the inserted rod are in close fit contact with the glue layer.

7. The glass hanging sliding door according to claim 1, wherein: the elastic compression air bag with high resilience is made of elastic rubber materials, is compressed and filled in the hollow cavity, and quickly recovers deformation after air is sucked into the elastic compression air bag and covers two side faces of the glass.