CN219011762U - Vertical all-glass guardrail fixing device - Google Patents

Abstract

The utility model discloses a vertical all-glass guardrail fixing device, which comprises a base formed by a base substrate and two fixing plates, wherein the two fixing plates are arranged on one surface of the base substrate in parallel and vertically at intervals; a supporting plate with an L-shaped section is arranged in a spacing area formed by the two fixing plates; the supporting plate supports the glass adapting clamping sleeve to be installed and is fixed at the interval area between the two fixing plates. In the fixing device, glass is very conveniently and simply arranged between two fixing plates of the base through the L-shaped supporting plate; the base is firmly fixed on the building floor by the fastening bolts. Therefore, the fixing device realizes the fixation of the protective glass, enhances the lighting property and is simple and convenient to install.

Description

Vertical all-glass guardrail fixing device

Technical Field

The utility model relates to a glass guardrail mounting device, in particular to a vertical mounting type all-glass guardrail fixing device.

Background

In order to improve indoor lighting effect, most balconies of buildings such as home, business office building or factory are protected by installing large glass as outdoor guardrail to strengthen safety precautions and lighting.

The prior large glass is installed by fixing the glass on a fixed installation bracket of a protective fence through fastening bolts passing through openings in the glass. The installation mode is time-consuming, laborious and complex in installation or disassembly process, and lighting is greatly shielded due to the existence of too many installation brackets, so that the lighting effect is affected.

Disclosure of Invention

Based on the problems, the utility model aims to provide the vertical all-glass guardrail fixing device which has good fixity and light-emitting property and is convenient to install.

The technical scheme of the utility model is as follows:

a vertical all-glass guardrail fixing device comprises a base formed by a base substrate and two fixing plates, wherein the longitudinal section of the base is

The two fixing plates are arranged on one surface of the base substrate in parallel and vertically at intervals; a supporting plate with an L-shaped section is arranged in a spacing area formed by the two fixing plates; during installation, the base passes through the fixed orifices that sets up on the base plate through fastening bolt and fixes on building ground, the transverse plate of layer board holds the glass adaptation cutting ferrule that waits to install and fixes the interval between two the fixed plate.

In one embodiment, in the vertical full glass guardrail fixing device, the inner surfaces of the two fixing plates are respectively arranged to be vertical planes.

In an embodiment, in the vertical full glass guardrail fixing device, a fastening block is arranged in the interval region, the fastening block and the vertical fastening plate of the supporting plate are respectively arranged on two sides of the glass, and two vertical surfaces of the fastening block are respectively in propping arrangement with the inner surface of the fixing plate and the glass.

In one embodiment, in the vertical full glass guardrail fixing device, one vertical surface of the fastening block is provided with a first serrated surface; correspondingly, a second serrated surface is also arranged on the inner surface of the fixed plate; the two first and second serrated surfaces are arranged in mutually serrated engagement contact.

In one embodiment, the vertical all-glass guardrail fixing device further comprises two top outer shells; the two top outer shells are respectively and fixedly arranged between the two fixing plates and the outer edge of the bottom substrate, and two fixing cavities are formed; the fastening bolt is used for fixedly mounting the base on the building ground through the fixing hole in the fixing cavity.

In one embodiment, in the vertical full glass guardrail fixing device, a plug block is arranged in the fixing cavity.

In one embodiment, in the vertical full glass guardrail fixing device, a first sealing strip and a second sealing strip are respectively arranged at the upper ends of the two fixing plates and at a gap between the two fixing plates and the glass surface.

In one embodiment, in the vertical full glass guardrail fixing device, two ends formed by the top outer shell and the base are respectively and adaptively and fixedly provided with a sealing end plate; the appearance structure of the end sealing plate is isosceles trapezoid.

According to the vertical all-glass guardrail fixing device provided by the utility model, guardrail protective glass is very conveniently and simply arranged between two fixing plates of the base through the L-shaped supporting plate; the base is firmly fixed on the building floor by the fastening bolts. Therefore, the fixing device realizes the fixation of the protective glass, enhances the lighting property and is simple and convenient to install.

Drawings

FIG. 1 is a schematic view of the outline structure of a vertically installed all-glass guardrail fixing device after glass installation;

FIG. 2 is a partial schematic view of the internal structure of the vertically installed all-glass guardrail fixing device after installation of glass;

FIGS. 3a and 3b are schematic views of a base structure;

FIG. 4 is a pallet of L-shaped configuration;

FIG. 5 is a schematic view of a fastening block structure;

FIG. 6 is a schematic illustration of a stopper structure;

FIG. 7 is a schematic view of the top outer housing structure;

FIG. 8 is a schematic view of the configuration of the first seal strip;

FIG. 9 is a schematic view of the second seal strip profile configuration;

FIG. 10 is a schematic diagram of a endcapping plate structure.

Detailed Description

The preferred embodiments of the present utility model will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, 2, 3a, 3b and 4, the utility model provides a vertical full glass guardrail fixing device 200, wherein a base 210 is composed of a base substrate 211 and two fixing plates, and the longitudinal section of the base 210 is

And (5) a font structure. The two fixing plates are a first fixing plate 212 and a second fixing plate 213, respectively, and the first fixing plate 212 and the second fixing plate 213 are arranged on the same surface of the bottom substrate 211 at intervals in parallel, perpendicular and in the same direction. The inner surfaces of the first fixing plate 212 and the second fixing plate 213 are provided as inner surfaces of a vertically extending-like configuration, that is, both inner surfaces are of a flat-like configuration. A U-shaped spacer 214 is formed among the base substrate 211, the first fixing plate 212 and the second fixing plate 213. A plurality of fixing holes 211a are provided in the outer regions of the base substrate 211, which are located at the first and second fixing plates 212 and 213, respectively, and the fastening bolts 300 fix the base to a fixed object such as a building floor through the fixing holes 211 a.

The bottom substrate 211, the first fixed substrate 212 and the second fixed substrate 213 of the base 210 are integrally formed by injection molding of engineering plastic materials; of course, stainless steel may be fixed and molded by welding or riveting.

A pallet 230 having an "L" shaped cross section is disposed in the vertical direction in the space 214; the pallet 230 includes a vertical fastening plate 232 and a lateral plate 231, the vertical fastening plate 232 and the lateral plate 231 are integrally injection molded from engineering plastic, and the vertical fastening plate 232 and the lateral plate 231 are connected in a 90 ° configuration. The overall pallet 230 transverse width dimension corresponds to the width dimension of the spacer 214. The pallet 230 is integrally injection molded from a transparent plastic material.

When the protective glass is installed, the bottom end of the large protective glass 100 is vertically placed on the transverse plate 231 of the supporting plate 230, and the supporting plate 230 and the glass 100 adapting clamping sleeve are slowly fixed in the interval zone 214 between the first fixing plate 212 and the second fixing plate 213; wherein, two surfaces of the vertical fastening plate 232 of the supporting plate 230 are in abutting contact with one surface of the glass 100 and the inner surface of the second fixing plate 213, respectively.

In one embodiment, as shown in fig. 2, 3a, 3b and 5, a fastening block 240 is disposed in the spacer 214, and the fastening block 240 has a square body structure and is made of a material having a buffering effect, such as resin, diatomaceous earth, silica gel, PVC, etc. The fastening block 240 can play a role in buffering the glass 100 after being vibrated by external force, so as to prevent the glass 100 from shattering or shocking. The two vertical surfaces of the fastening block 240, i.e., the first vertical surface 241 and the second vertical surface 242, are in abutting contact with the other surface of the glass 100 and the inner surface of the first fixing plate 212, respectively.

Preferably, as shown in fig. 3b and 5, one vertical surface of the fastening block 240, i.e. the first vertical surface 241, is a first serrated surface; accordingly, the inner surface of one fixing plate, i.e., the first fixing plate 212, of the base 210 is the second serrated surface 212b; the two first saw tooth surfaces are arranged in a mutually saw tooth meshing mode; in this way, friction resistance can be increased, the fastening block 240 is prevented from sliding down under the action of external force or self gravity, the glass 100 is prevented from loosening and swinging, and the glass stability is improved.

As shown in fig. 1, 2 and 7, for decorative and aesthetic reasons. The vertical full glass guardrail fixing device 200 further comprises two top outer shells 220; the two top outer cases 220 are respectively installed and fixed between the top ends of the two fixing plates (i.e., the first fixing plate 212 and the second fixing plate 213) of the base 210 and the outer edge of the bottom substrate 211, and form two fixing cavities 203; the fastening bolt 300 fixedly mounts the base 210 on the building floor through the fixing hole 211a on the base substrate 211 located in the fixing chamber 203.

In order to firmly mount the two top shells 220 on the base 210, the following specific structural design is made:

as shown in fig. 3a, 3b and 7; the top outer shell 220 is an engineering plastic sheet and comprises a main shell 221 and a top edge 222, and the top edge 222 is formed by inwards bending the upper end part of the main shell 221; a "C" shaped retaining groove 222a is provided inside the edge of top edge 222 with an opening directed toward glass 100; a fixing clip column 223 is provided inside the lower end of the main casing 221; the fixing groove 222a and the fixing clip column 223 are respectively disposed laterally and horizontally in parallel. Correspondingly, clamping grooves 211c are respectively and transversely arranged on two side edges of the bottom substrate 211 of the base 210; the fixing clamping columns 223 at the bottom ends of the two top outer shells 220 are respectively matched and clamped into the clamping grooves 211c at the two sides of the bottom substrate 211.

As shown in fig. 8 and 9, in order to further stabilize the glass 100 and prevent dust and/or rainwater from penetrating into the base 210 along the surface of the glass 100, a first sealing strip 250 and a second sealing strip 260 are provided at upper ends of two fixing plates (i.e., a first fixing plate 212 and a second fixing plate 213) of the base 200 and at a gap with the surface of the glass 100, respectively.

The first sealing strip 250 and the second sealing strip 260 are both columnar sealing strips made of a material having a certain elasticity, such as a silica gel strip. The external cross section of the first sealing strip 250 is in a 1/4 circular cross section structure or comma structure, and comprises an upper end face 251 at the position of a diameter plane and an outer side face 252 of an arc surface; a chute 252a is transversely arranged at the joint of the upper end face 251 and the outer side face 252; the inner surface of the upper end face 251 forms an arc inner side face 251a and extends to be connected with the inner measuring surface of the outer side face 252; buffer through holes 251b are provided between the upper end face 251, the inner side face 251a and the outer side face 252. When the sealing strip is installed, the inner side face 251a of the first sealing strip 250 is in abutting sealing contact with one surface of the glass 100, the outer side face 252 is in abutting contact with the inner surface of the upper end of the first fixing plate 212 of the base 210, the upper edge of the opening of the fixing groove 222a of the top outer shell 220 is matched and clamped into the sliding groove 252a, and the sealing strip also plays a role in fixing the upper end of the top outer shell 220 together with the first fixing plate 212 of the base 210.

As shown in fig. 8, the second sealing strip 260 has a square tubular column structure, and includes a tube 261 and a limiting fixing clip 262 with a T-shaped cross section provided on one outer surface of the tube 261. When the sealing device is installed, the limiting fixing clamping columns 262 of the second sealing strip 260 are matched and clamped into the fixing grooves 222a of the top edge 222 of the top outer shell 220, the outer sides of the opposite limiting fixing clamping columns 262 of the second sealing strip 260 are in sealing and propping contact with the other surface of the glass 100, and the sealing device and the second fixing plate 213 of the base 210 together play a role in fixing the upper end of the top outer shell 220.

As shown in fig. 2 and 6, in order to prevent the top outer case 220 from being concaved under the external force, a stopper 270 is preferably inserted into two fixing cavities 203 formed in the top outer case 220 with the first and second fixing plates 212 and 213 and the bottom substrate 211, respectively; since the cross section of the fixing cavity 203 is in a right triangle or right trapezoid structure, the cross section of the stopper block 270 is also in a right triangle or right trapezoid structure, and the specification and the size of the fixing cavity 203 are consistent with those of the stopper block 270.

As shown in fig. 3a, 3b and 6, in order to prevent the stopper block 270 from shaking in the fixing chamber 203, in the present embodiment, a triangular-shaped opening chute 271a is laterally provided on the vertical surface 271 of the stopper block 270; accordingly, positioning fixing posts (212 a,213 a) are laterally provided at outer surfaces of the two fixing plates (i.e., the first fixing plate 212 and the second fixing plate 213) of the base 210, respectively. When in installation, the opening chute 271a of one plug block 270 close to the first fixed plate 212 is fit and clamped into the fixed column 212a of the first fixed plate 212; the opening groove 271a of one of the stopper blocks 270 adjacent to the second fixing plate 213 is adapted to be caught in the fixing column 213a of the second fixing plate 213.

As shown in fig. 1 and 10, for cosmetic aesthetics and to prevent dust and/or rain from entering the base 210; two ends formed by the two top outer shells 220 and the base 210 are respectively and adaptively and fixedly provided with a sealing plate 201; the outer shape of the end plate 201 is isosceles trapezoid.

In the present embodiment, the number of cover glass 100 is two. An LED strip may be disposed at the bottom of the spacer 214, and light emitted from the strip is refracted out through the glass 100 to form various gorgeous colors.

It is to be understood that the foregoing description of the preferred embodiments of the utility model is not to be considered as limiting the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. The vertical all-glass guardrail fixing device is characterized by comprising a base formed by a base substrate and two fixing plates, wherein the two fixing plates are arranged on one surface of the base substrate in parallel and vertically at intervals; a supporting plate with an L-shaped section is arranged in a spacing area formed by the two fixing plates; during installation, the base passes through the fixed orifices that sets up on the base plate through fastening bolt and fixes on building ground, the transverse plate of layer board holds the glass adaptation cutting ferrule that waits to install and fixes the interval between two the fixed plate.

2. The vertical full glass guardrail fixing device of claim 1, wherein the inner surfaces of the two fixing plates are respectively provided as vertical surfaces.

3. The vertical full glass guardrail fixing device of claim 1, wherein a fastening block is arranged in the interval region, the fastening block and the vertical fastening plate of the supporting plate are respectively arranged on two sides of the glass, and two vertical surfaces of the fastening block are respectively in abutting arrangement with the inner surface of the fixing plate and the glass.

4. The vertical full glass guardrail fixing device of claim 3 wherein one vertical surface of the fastening block is provided as a first serrated surface; correspondingly, an inner surface of the fixed plate is provided with a second serrated surface; the two first and second serrated surfaces are arranged in mutually serrated engagement contact.

5. The upright full glass guardrail fixing device of claim 1 further comprising two top outer shells; the two top outer shells are respectively and fixedly arranged between the two fixing plates and the outer edge of the bottom substrate, and two fixing cavities are formed; the fastening bolt is used for fixedly mounting the base on the building ground through the fixing hole in the fixing cavity.

6. The mounting all-glass guardrail fixing device of claim 5, wherein a plug is disposed within the fixation cavity.

7. The vertical full glass guardrail fixing device of claim 5, wherein a first sealing strip and a second sealing strip are respectively arranged at the upper ends of the two fixing plates and at a gap between the fixing plates and the glass surface.

8. The vertical full glass guardrail fixing apparatus of any one of claims 5 to 7, wherein two sealing plates are respectively and fixedly arranged at two ends of the top casing and the base.

Images