CN219158232U - Upright post-free glass railing structure - Google Patents

Abstract

The utility model relates to a column-free glass railing structure, which comprises: the mounting seat is arranged on the construction surface along the design direction of the glass railing structure, and the top of the mounting seat is provided with a slot along the length direction of the mounting seat in a through-long manner; the bottom end is inserted and arranged in the slot and is provided with a glass panel which is vertically arranged; and pouring a concrete layer which is formed on the construction surface and is used for burying and fixing the mounting seat. According to the utility model, the mounting seat is fixed on the construction surface, and the mounting seat is further buried and fixed through the concrete layer, so that the effect of firmly fixing the mounting seat is ensured, and as the glass panel is mounted on the mounting seat, the load of the glass panel is transferred to the mounting seat and then transferred to the construction surface and the concrete layer, so that the structural stability of the whole glass railing structure is enhanced, the mounting and fixing of the glass panel can be realized without a stand column, the construction cost is saved, and the permeability of the whole glass railing is improved.

Description

Upright post-free glass railing structure

Technical Field

The utility model relates to the technical field of buildings, in particular to a column-free glass railing structure.

Background

Glass railing is a guardrail with glass as surface material and other material structures, such as metal, wood, etc. The glass railing is attractive and elegant, stable and wind-resistant, is widely popularized in the existing buildings, is a modern guardrail product with good decorative performance, and is suitable for places such as residential communities, villas, public parks, gymnasiums, libraries and the like.

Traditional glass railing includes a plurality of glass board that the concatenation is connected, installs the stand between two adjacent glass boards, and traditional glass railing is through a large amount of stands in order to support fixed glass board, and the stand can occupy certain space, and a large amount of stands also can lead to construction cost to increase, because two adjacent glass panels are separated by the stand, influence glass panel's continuity, and then can influence the permeability of the whole glass railing of glass board.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a column-free glass railing structure so as to solve the problems of high construction cost and poor permeability of the traditional glass railing.

To achieve the above object, the present utility model provides a pillar-less glass balustrade structure comprising:

the mounting seat is arranged on the construction surface along the design direction of the glass railing structure, and the top of the mounting seat is provided with a slot along the length direction of the mounting seat in a through-long manner;

the bottom end is inserted and arranged in the slot and is provided with a glass panel which is vertically arranged; and

and pouring a concrete layer which is formed on the construction surface and is used for burying and fixing the mounting seat.

According to the utility model, the mounting seat is fixed on the construction surface, and the mounting seat is further buried and fixed through the concrete layer, so that the effect of firmly fixing the mounting seat is ensured, and as the glass panel is mounted on the mounting seat, the load of the glass panel is transferred to the mounting seat and then transferred to the construction surface and the concrete layer, so that the structural stability of the whole glass railing structure is enhanced, the mounting and fixing of the glass panel can be realized without a stand column, the construction cost is saved, and the permeability of the whole glass railing is improved.

The utility model further improves the upright post-free glass railing structure, which also comprises a buffer piece fixedly arranged on the bottom wall of the slot along the length direction of the slot, wherein the buffer piece has elasticity;

the glass panel is fixedly arranged on the buffer piece.

The utility model further improves the upright post-free glass railing structure, wherein a gap is formed between two sides of the glass panel and the side wall of the slot;

the glass balustrade structure further includes a structural adhesive layer filling the gap.

The upright post-free glass railing structure is further improved in that the upright post-free glass railing structure further comprises a first fastening piece which is transversely arranged, and the first fastening piece penetrates through the mounting seat and the bottom end of the glass panel to enable the glass panel to be in fastening connection with the mounting seat.

The utility model further improves the upright post-free glass railing structure, which comprises a bottom plate arranged on the construction surface corresponding to the arrangement position of the mounting seat;

the mounting seat is fixedly arranged on the bottom plate.

The upright-free glass railing structure is further improved by further comprising a second fastening piece which is vertically arranged, penetrates through the bottom plate and is fixed on the construction surface, and the bottom plate is installed on the construction surface.

The upright-free glass railing structure is further improved by further comprising a top cover arranged at the top end of the glass panel.

The upright post-free glass railing structure is further improved in that the top cover is in an inverted U shape, a groove is formed in the bottom of the top cover, and the top end of the glass panel is inserted and fixed in the groove.

The utility model further improves the upright post-free glass railing structure, wherein a gap is formed between two sides of the glass panel and the side wall of the groove;

the glass balustrade structure further includes a glass cement structure filling the gap.

The utility model also provides a construction method of the upright post-free glass railing structure, which comprises the following steps:

installing the installation seat on a construction surface along the design direction of the glass railing structure;

inserting and installing the bottom end of the glass panel into the slot, and enabling the glass panel to be vertically arranged;

and pouring a concrete layer on the construction surface, and burying the concrete layer into the mounting seat.

Drawings

Fig. 1 is a side cross-sectional view of a non-pillar glass balustrade construction of the present utility model.

Fig. 2 is an enlarged partial schematic view of the mounting base and floor portion of the upright-less glass balustrade construction of the present utility model.

Fig. 3 is an enlarged partial schematic view of the roof portion of the upright-less glass balustrade construction of the present utility model.

Symbol description: the glass panel comprises a mounting seat 10, a slot 11, a glass panel 20, a concrete layer 30, a flame-retardant plywood layer 31, a floor layer 32, a buffer 40, a first fastening piece 50, a structural adhesive layer 60, a bottom plate 70, a second fastening piece 80, a top cover 90, a groove 91, a glass cement structure 92 and an elastic piece 93.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a column-free glass railing structure, wherein a mounting seat 10 is fixed on a construction surface and buried and fixed in a concrete layer 30, so that the stability of the column-free glass railing structure is enhanced. The glass panel 20 is buffered and damped through the rubber pad, so that the abrasion to the bottom surface of the glass panel 20 caused by the fact that the glass panel 20 is directly contacted with the bottom wall of the slot 11 is avoided.

The structure of the pillar-less glass balustrade according to the present utility model will be described with reference to the accompanying drawings.

Referring to fig. 1 and 2, in this embodiment, a pillar-less glass balustrade structure includes: the mounting seat 10 is mounted on the construction surface along the design direction of the glass railing structure, and the top of the mounting seat 10 is provided with a slot 11 along the length direction of the mounting seat 10; the bottom end is inserted with a glass panel 20 which is arranged in the slot 11 and is arranged vertically; a concrete layer 30 formed on the construction surface and burying the mount 10 is poured.

In this embodiment, the glass panel 20 is installed on the installation seat 10 in the glass railing structure, through fixing the installation seat 10 on the construction surface, and make the installation seat 10 bury and fix in the concrete layer 30, so as to realize firmly installing fixedly to the installation seat 10, thereby make glass panel 20 bottom firmly install in the concrete layer 30, the structural stability of whole glass railing structure has been strengthened, need not the stand and also can realize the installation fixedly to glass panel 20, construction cost has been practiced thrift, because there is not the shielding of stand and make the permeability of whole glass railing better.

Referring to fig. 2, in a specific embodiment, the glass balustrade structure further includes a buffer member 40 fixedly disposed on the bottom wall of the slot 11 along the length direction of the slot 11, where the buffer member 40 has elasticity; the glass panel 20 is fixedly arranged above the buffer member 40.

Preferably, the cushioning member 40 is a flexible rubber gasket. The glass panel 20 is buffered and damped through the rubber pad, acting force between the glass panel 20 and the mounting seat 10 is buffered, and abrasion to the bottom surface of the glass panel 20 caused by direct contact friction between the glass panel 20 and the bottom wall of the slot 11 is avoided.

Referring to fig. 2, a gap is further formed between two sides of the glass panel 20 and the side wall of the slot 11; the glass balustrade structure further comprises a structural adhesive layer 60 filling the gap formed therein. The structural adhesive layer 60 can fix the glass panel 20 in the mounting seat 10, and buffer the acting force between the glass panel 20 and the mounting seat 10, so as to avoid abrasion to the side surface of the glass panel 20 caused by direct contact friction between the glass panel 20 and the side wall of the slot 11.

Specifically, the structural adhesive layer 60 is a silicone structural adhesive layer 60.

Referring to fig. 2, in one embodiment, the glass balustrade structure further includes a first fastener 50 disposed in a transverse direction, the first fastener 50 passing through the mounting base 10 and the bottom end of the glass panel 20 to fasten the glass panel 20 to the mounting base 10.

Referring to fig. 2, further, the first fastener 50 is a screw, two ends of the screw are sleeved with nuts in threaded connection, the mounting base 10 is clamped and fixed between the nuts at two ends of the screw, the end of the screw extends out of the nuts to form an anchoring end, and the anchoring end is buried and fixed in the concrete layer 30 to enhance the anchoring force between the mounting base 10 and the concrete layer 30.

Further, the first fasteners 50 are provided in a plurality and spaced apart along the length of the mounting base 10.

Referring to fig. 2, the glass balustrade construction preferably further includes a washer that is sleeved on the screw and sandwiched between the nut and the mounting base 10.

Referring to fig. 2, in one embodiment, the glass balustrade structure further includes a bottom plate 70 mounted on the construction surface corresponding to the location of the mounting base 10; the mounting base 10 is fixedly arranged on the bottom plate 70.

Referring to fig. 2, further, the glass balustrade structure further includes a second fastener 80 disposed vertically, the second fastener 80 passing through the bottom plate 70 and being secured to the work surface to mount the bottom plate 70 on the work surface.

Referring to fig. 2, further, the second fastener 80 includes a first connection section that is driven under the construction surface, a second connection section that is fixedly connected to the first connection section and is penetrated at the bottom plate 70, and a third connection section that is fixedly connected to the second connection section; the work surface may be a floor surface or a ground surface and extends into the floor or the ground through the first connecting section to enhance the strength of the connection between the first fastener 50 and the floor or the ground surface. The third connecting section is buried in the concrete layer 30 to enhance the connection strength between the first fastening member 50 and the concrete layer 30.

Preferably, the second fastening members 80 are arranged in two rows, the two rows of second fastening members 80 are respectively located at two sides of the bottom plate 50, and each row of second fastening members 80 is arranged at intervals along the length direction of the bottom plate 50, and the second fastening members 80 are expansion bolts.

Referring to fig. 3, in one embodiment, the glass balustrade structure further includes a top cover 90 mounted to the top end of the glass panel 20.

Referring to fig. 3, further, the top cover 90 has an inverted U shape and a groove 91 is formed at the bottom, and the top end of the glass panel 20 is inserted and fixed in the groove 91. Protection of the top end of the glass panel 20 is provided by the top cover 90.

Referring to fig. 3, a gap is formed between both sides of the glass panel 20 and the side walls of the groove 91; the glass balustrade structure further comprises a glass glue structure 92 filling the gap formed therein. The expansion bolts can fix the top cover 90 on the glass panel 20 on one hand, and buffer the acting force between the side surface of the glass panel 20 and the top cover 90 on the other hand, so that the side surface of the glass panel 20 is prevented from being worn due to direct contact friction between the glass panel 20 and the side wall of the groove 91.

Preferably, the glass railing structure further comprises an elastic member 93 fixedly arranged on the bottom wall of the groove 91 along the length direction of the groove 91, the elastic member 93 has elasticity, the elastic member 93 can buffer acting force between the top surface of the glass panel 20 and the top cover 90, and abrasion to the top surface of the glass panel 20 caused by direct contact friction between the glass panel 20 and the bottom wall of the groove 91 is avoided.

The elastic piece is a flexible rubber gasket.

Specifically, the mounting base 10 is a galvanized U-shaped channel steel.

Specifically, the concrete layer 30 is crushed stone concrete.

In one embodiment, the glass balustrade structure further comprises a flame retardant plywood layer 31 laid and fixed on the concrete layer 30, which plays a good role in suppressing fire and isolating open fire in case of fire, reduces heat generation, provides more time for escaping from people, and ensures the safety of life and property. Preferably, the flame retardant plywood layer 31 is double-layered and has a thickness of 12mm.

Further, the glass balustrade structure further comprises a flooring layer 32 laid and fixed on the flame retardant plywood layer 31, and specifically, the flooring layer 32 is 18mm. The top surface of floor layer 32 is flush with the top surface of mount 10.

The construction flow of the upright post-free glass balustrade structure of the present utility model will be described below.

And installing the bottom plate 70 on the construction surface at the installation position corresponding to the installation seat 10, and installing the installation seat 10 on the installation seat 10 along the design direction of the glass railing structure. The second fastener 80 is passed transversely through the base plate 70 and secured to the work surface. The buffer member 40 is fixedly arranged on the bottom wall of the slot 11 along the length direction of the slot 11, and the bottom end of the glass panel 20 is inserted into the slot 11, so that the glass panel 20 is vertically arranged and fixedly arranged on the buffer member 40. The first fastener 50 is passed transversely through the mounting base 10 and the bottom end of the glass panel 20, so that the glass panel 20 is fastened to the mounting base 10. A gap is formed between the two sides of the glass panel 20 and the side wall of the slot 11; and filling the gap with structural adhesive to form a structural adhesive layer 60. And pouring a concrete layer 30 on the construction surface, and burying the mounting seat 10 by the concrete layer 30. A fixed flame retardant plywood layer 31 is laid over the concrete layer 30. A fixed floor layer 32 is laid on top of the flame retardant plywood layer 31. A top cover 90 is installed on the top end of the glass panel 20, so that the top end of the glass panel 20 is inserted and fixed in the groove 91, and a gap is formed between two sides of the glass panel 20 and the side wall of the groove 91; and filling glass cement in the gap to form a glass cement structure 92.

The utility model also provides a construction method of the upright post-free glass railing structure, which comprises the following steps:

installing the installation seat 10 on a construction surface along the design direction of the glass railing structure;

inserting and installing the bottom end of the glass panel 20 into the slot 11, and enabling the glass panel 20 to be vertically arranged;

and pouring a concrete layer 30 on the construction surface, and burying the mounting seat 10 by the concrete layer 30.

In one embodiment, when the bottom end of the glass panel 20 is inserted into the slot 11, the buffer member 40 is fixed on the bottom wall of the slot 11 along the length direction of the slot 11, and the glass panel 20 is fixed on the buffer member 40.

Further, after the glass panel 20 is fixed on the buffer member 40, the first fastening member 50 is transversely inserted through the mounting base 10 and the bottom end of the glass panel 20, so that the glass panel 20 is fastened to the mounting base 10.

Further, after the first fastening member 50 is fastened, a gap is formed between both sides of the glass panel 20 and the side walls of the slot 11; and filling the gap with structural adhesive to form a structural adhesive layer 60.

In a specific embodiment, when the mounting base 10 is mounted, the mounting base 10 is fixed on the mounting base 10 by mounting the base plate 70 on the construction surface at the position corresponding to the mounting base 10.

Further, when the base plate 70 is mounted on the construction surface, the second fastener 80 is passed transversely through the base plate 70 and fixed to the construction surface.

In one embodiment, after the glass panel 20 is installed, a top cover 90 is installed on top of the glass panel 20.

Further, when the top cover 90 is mounted, the top end of the glass panel 20 is inserted and fixed into the groove 91.

Further, a gap is formed between both sides of the glass panel 20 and the side walls of the groove 91 when the top cover 90 is mounted; and filling glass cement in the gap to form a glass cement structure 92.

Preferably, the glass panel 20 comprises a plurality of unit plates connected in a spliced manner, and two adjacent unit plates are fixedly connected through structural adhesive.

Preferably, the mount 10 includes several splice segments that are spliced together.

It should be noted that, the structures, proportions, sizes and the like shown in the drawings attached to the present specification are used for understanding and reading only in conjunction with the disclosure of the present specification, and are not intended to limit the applicable limitations of the present utility model, so that any modification of the structures, variation of proportions or adjustment of sizes of the structures, proportions and the like should not be construed as essential to the present utility model, and should still fall within the scope of the disclosure of the present utility model without affecting the efficacy and achievement of the present utility model. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Claims (9)

1. A post-less glass balustrade structure comprising:

the mounting seat is arranged on the construction surface along the design direction of the glass railing structure, and the top of the mounting seat is provided with a slot along the length direction of the mounting seat in a through-long manner;

the bottom end is inserted and arranged in the slot and is provided with a glass panel which is vertically arranged; and

and pouring a concrete layer which is formed on the construction surface and is used for burying and fixing the mounting seat.

2. The post-less glass balustrade structure of claim 1, further comprising a buffer member fixedly attached to a bottom wall of the slot along a length direction of the slot, the buffer member having elasticity;

the glass panel is fixedly arranged on the buffer piece.

3. The post-less glass balustrade structure of claim 2 further comprising a first fastener disposed transversely, said first fastener passing through said mounting base and a bottom end of said glass panel to securely connect said glass panel to said mounting base.

4. The post-less glass balustrade structure of claim 2, wherein a gap is formed between both sides of the glass panel and the side walls of the slot;

the glass balustrade structure further includes a structural adhesive layer filling the gap.

5. The upright-less glass balustrade structure of claim 1, further comprising a bottom plate mounted above a construction surface in correspondence to a location of the mounting base;

the mounting seat is fixedly arranged on the bottom plate.

6. The post-less glass balustrade structure of claim 5 further comprising a second fastener disposed vertically through the bottom plate and secured to the work surface to mount the bottom plate on the work surface.

7. The upright-less glass balustrade structure of claim 1 further comprising a roof mounted on top of said glass panel.

8. The post-less glass balustrade structure of claim 7 wherein the top cover has an inverted U shape and a groove is formed in the bottom, and the top end of the glass panel is inserted and fixed in the groove.

9. The post-less glass balustrade structure of claim 8, wherein a gap is formed between both sides of said glass panel and the side walls of said groove;

the glass balustrade structure further includes a glass cement structure filling the gap.

Images