CN214575235U - Pre-buried formula glass guardrail erector - Google Patents

Abstract

The utility model discloses a pre-buried glass guardrail mounting device, which comprises a U-shaped groove base, an adjusting block, a pre-buried frame and a top shell, wherein the adjusting block, the pre-buried frame and the top shell are arranged outside the U-shaped groove base; after the U-shaped groove base is arranged in the pre-buried frame, the bottom of the U-shaped groove base and the bottom edge of the pre-buried frame are installed on a fixed object in a pre-buried installation mode through the fixing bolt, and the adjusting block is arranged in the groove cavity of the U-shaped groove base and used for fastening and adjusting glass arranged in the groove cavity. The embedded glass guardrail installer adopts an integrated embedded mode after embedding the U-shaped groove bottom into an embedded frame, arranges large glass at the bottom of a groove cavity of a U-shaped groove base, and then fastens and clamps the glass into the groove cavity of the U-shaped groove base through an adjusting block capable of adjusting the installation position of the glass in real time; the product design is simple, and the operation is convenient in the glass installation process.

Description

Pre-buried formula glass guardrail erector

Technical Field

The utility model relates to a glass guardrail installation device especially relates to a pre-buried formula glass guardrail erector.

Background

In order to improve the indoor lighting effect, most of buildings such as a family room, a business office building or a factory and the like, including outdoor guardrails and the like, are used for lighting by mounting large glass so as to provide indoor lighting effect or protect the outdoor guardrails and the like.

In the existing installation of the large glass, the glass is fixed on a fixed installation support of a building wall or a protective guard through a hole formed in the glass and then a screw or a screw is used for punching the hole formed in the glass. The installation mode is time-consuming and labor-consuming, the installation or disassembly process is complex, the matching position of the fixing hole on the glass and the installation support needs to be accurately positioned, otherwise, the installation cannot be carried out, and the excessive installation supports greatly shield the sight line to influence the lighting; in addition, the glass is perforated, which easily causes the glass to be broken.

SUMMERY OF THE UTILITY MODEL

Based on the above problem, the utility model aims to solve the problem that a pre-buried formula glass guardrail erector that can adjust large-scale glass mounted position in real time in simple to operate, the installation is provided

The technical scheme of the utility model as follows:

a pre-buried glass guardrail installer comprises a U-shaped groove base, an adjusting block and a top outer shell, wherein a groove edge of the U-shaped groove base is provided with a plurality of adjusting through holes, the inner side wall of the groove edge is in an inclined plane shape, and the top end surface of the groove edge is provided with a buckle groove for fixedly buckling the top outer shell; the axes of the adjusting through hole and the buckling groove are respectively vertical to the longitudinal section of the U-shaped groove base; the adjusting block is provided with a first inclined plane and a vertical plane; one bottom edge of glass to be installed is arranged in a groove cavity of the U-shaped groove base, the adjusting block is arranged in the groove cavity of the U-shaped groove base, the first inclined surface of the adjusting block is in contact with the inclined surface of the U-shaped groove base in an attaching mode, and the vertical plane of the adjusting block is in contact with the surface of the glass in an attaching mode; the adjusting block is used for tightly and vertically installing the glass in a groove cavity of the U-shaped groove base; a plurality of fixing holes are formed in one groove edge of the U-shaped groove base, and the fixing holes and the adjusting through holes are located on the same groove edge; and the U-shaped groove base is arranged on a fixed object in an outer suspension manner after the plurality of fixing bolts pass through the plurality of fixing holes respectively.

In one embodiment, in the pre-buried glass guardrail installer, the adjusting block is provided with a buffer space vertical to the surface of the glass.

In one embodiment, in the pre-buried glass guardrail installer, the longitudinal section of the adjusting block is an E-shaped, O-shaped, C-shaped or square frame shape.

In one embodiment, the pre-buried glass guardrail installer further comprises a protection pad for balancing the glass and the groove edge of the U-shaped groove base, wherein the protection pad is arranged between the adjusting block and the surface of the glass.

In one embodiment, the pre-buried glass guardrail installer further comprises an L-shaped support block for supporting the glass, the transverse bottom edge of the L-shaped support block is arranged at the bottom of the groove cavity of the U-shaped groove base, and the vertical side edge of the L-shaped support block is in fit contact with the inner side of the groove edge of the U-shaped groove base; when the glass support is installed, one bottom edge of the glass is arranged on the transverse bottom edge of the L-shaped support block.

In one embodiment, in the pre-buried glass guardrail installer, a gap cavity is arranged between the bottom edge of the U-shaped groove base and the bottom edge of the glass, and a lamp strip can be placed in the gap cavity.

In one embodiment, in the pre-buried glass guardrail installer, a separator is horizontally and transversely arranged in the gap belt and divides the gap belt into a lamp belt gap and an installation gap; the light strip gap is located above the separator and the light strip is received in the light strip gap.

In one embodiment, in the pre-buried glass guardrail installer, a plurality of fixing holes are formed in the bottom edge of the U-shaped groove base and are positioned at the installation gap; and fixing the U-shaped groove base on a fixture by using a fixing bolt to penetrate through the fixing hole.

In one embodiment, in the pre-buried glass guardrail installer, each side edge of the U-shaped groove base is respectively provided with a top outer shell for decoration and/or protection.

In one embodiment, the pre-buried glass guardrail installer further comprises two edge sealing blocks, wherein the two edge sealing blocks are respectively arranged at the opening end of the U-shaped groove base, and gaps formed between two groove edges of the U-shaped groove base and two surfaces of the glass are respectively sealed by the edge sealing blocks.

The utility model provides a pre-buried formula glass guardrail erector adopts the U-shaped groove base to install large-scale glass in the vallecular cavity of U-shaped groove base, then through the regulating block that can carry out real-time adjustment to the glass mounted position with glass fastening card go into the vallecular cavity of U-shaped groove base, in the glass installation process, can adjust the installation of large-scale glass in real time through the position and the elasticity of regulating block, in order to ask the installation accurate target in place; the product design is simple, the operation is convenient in the glass installation process, and the glass does not need to be opened and installed, so that the risk of glass fragmentation is avoided; when the glass of the guardrail is installed, the installation support is not needed, the lighting effect of the glass is greatly improved, the glass is high in quality and low in price, and the installation cost of the glass guardrail is greatly saved.

Drawings

FIG. 1 is a schematic view of the external configuration of a pre-buried glass guardrail mounting device (after use) according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of an embedded glass guardrail installer;

FIG. 3 is a schematic view of the internal structure of the pre-buried glass guardrail mounting device (after use) according to the present invention;

FIG. 4 is a schematic structural diagram of a pre-buried frame in a pre-buried glass guardrail installer;

FIG. 5 is an exploded view of an embedded glass guardrail installer (after use);

FIG. 6 is a schematic diagram of a U-shaped groove base in the pre-buried glass guardrail mounting device;

FIG. 7 is an enlarged view of portion A of FIG. 6;

FIG. 8 is a schematic structural diagram of a side top enclosure in an embedded glass guardrail installer;

FIG. 9 is a schematic structural diagram of a top enclosure for a pre-buried glass guardrail installer;

FIG. 10 is a schematic view of the structure of an adjusting block in the pre-buried glass guardrail mounting device;

FIG. 11 is a schematic diagram illustrating a process of pre-embedding a U-shaped groove base in a pre-embedded glass guardrail installer;

FIG. 12 is a schematic view of a protection pad in the pre-buried glass guardrail mounting device.

Detailed Description

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

As shown in fig. 1 to 6, the present invention provides a pre-buried glass guardrail mounting device 200, which comprises a U-shaped groove base 220, an adjusting block 230, a pre-buried frame 270, and two top outer shells 210210. When large-sized glass 100 needs to be installed in buildings such as guardrails, partition walls or floor curtain walls in an outside suspension manner, and one side edge or bottom edge of the glass 100 needs to extend into the groove cavity 224 of the U-shaped groove base 220 and be installed in the groove cavity 224 of the U-shaped groove base 220, the adjusting block 230 is adapted to be clamped into a gap formed between the glass 100 and one or two groove edges (221 and/or 222) of the U-shaped groove base 220 so as to accurately and fixedly install the glass 100 in the groove cavity 224 of the U-shaped groove base 220, and the installation process can achieve real-time and accurate installation of the large-sized glass 100 in place by adjusting the position of the adjusting block 220 according to needs. The glass 100 may be a single-layer glass, i.e., one glass 100, or two glasses 100 attached to each other. In this embodiment, two pieces of glass 100 are attached to each other.

During the installation, pre-buried frame 270 preferentially adopts pre-buried or embedded installation at the solid object, like in the building wall, go into pre-buried frame 270 with U-shaped groove base 220 adaptation card afterwards, arrange glass 100 in pre-buried frame, two top shells 210 are located glass 100 both sides respectively and install in the notch both sides of arranging U-shaped groove base 220 in, top shell 210 plays the effect of decorating and protection U-shaped groove base 220.

As shown in fig. 2 to 4 and 10, the pre-buried frame 270 includes two vertical sides (271,272) and a bottom side 273; the longitudinal section of the embedded frame 270 formed by the two vertical edges (271,272) and the bottom edge 273 is of a concave structure, namely the longitudinal section of the embedded frame 270 along the longitudinal Z-axis direction is of a concave structure or a channel structure; or the longitudinal section of the pre-buried frame 270 is in a U shape. The width and depth dimensions of the pre-buried cavity 274 formed by the two vertical edges (271,272) and the bottom edge 273 of the pre-buried frame 270 are matched with the width and height dimensions of the U-shaped groove base 220. Preferably, in order to enable the pre-buried frame 270 to be better fixed in the building wall, two vertical edges (271,272) of the pre-buried frame 270 are respectively provided with a fixing plate 240; the fixing plate 240 includes a clamping edge 241 and a fixing edge 242, and the clamping edge 241 is fixedly connected to one side of the fixing edge 242; the two fixing plates 240 are respectively clamped into clamping grooves (2711,2721) on the outer walls of the two vertical edges (271,272) of the embedded frame 270 through the corresponding clamping edges 241, and meanwhile, the fixing edges 242 of the two fixing plates 240 are respectively embedded or embedded in the building wall, so that the embedded frame 270 is restrained or fixed. A plurality of mutually arranged clamping columns 2712 are arranged on the outer side of the vertical edge 271 of the embedded frame 270, and clamping grooves 2711 are formed between the adjacent clamping columns 2712; similarly, a plurality of mutually arranged clamping columns 2722 are arranged on the outer side of the vertical edge 272 of the embedded frame 270, and clamping grooves 2721 are formed between adjacent clamping columns 2722. In this embodiment, four mutually parallel clamping posts (2712, 2722) are respectively disposed on two vertical (271,272) outer sides of the pre-buried frame 270, so as to respectively form at least three clamping grooves (2711,2721). The two fixing plates 240 can be adaptively installed in the clamping grooves (2711,2721) at different height positions according to the embedded depth. In other embodiments, the fixing plate 240 may also be fixed to the outer wall of the pre-buried frame 270 by fastening with screws or riveting or welding.

As shown in fig. 2, 3, 5, 6 and 7, the U-shaped groove base 220 has a U-shaped cross section along the longitudinal Z-axis direction and is planar along the direction perpendicular to the Y-axis. The U-shaped channel base 220 is generally made of a material with certain elasticity and strength, such as engineering plastic, polycarbonate or other high polymer materials. In the embodiment, the engineering plastics are selected, so that the material is cheap and beautiful, and the preparation process is mature. The U-shaped groove base 220 is formed by injection molding, in order to improve the elasticity of the U-shaped groove base 220, a plurality of adjusting through holes 2221 are respectively arranged on two groove edges (221,222) of the U-shaped groove base 220 and one groove edge 222 along the direction vertical to the Y axis, so as to form a hollow structure, that is, the axis of the adjusting through hole 2221 (i.e. the direction vertical to the Y axis) is vertical to the longitudinal section (the section in the Z axis direction) of the U-shaped groove base 220; the other slot edge 221 of the U-shaped slot base 220 is of solid construction. When the glass 100 to be installed is placed in the cavity 224 of the U-shaped groove base 220 at one bottom edge and the glass 100 is fixed by the adjusting block 230, the adjusting through holes 2221 can be extended and retracted along the horizontal X-axis direction, i.e. the direction vertical to the surface of the glass 100, so as to adjust the extrusion space between the glass 100 and the groove edge 222, and the glass 100 is fittingly fixed in the cavity 224 formed by the two groove edges (221,222) of the U-shaped groove base 220. In this embodiment, only one adjusting block 230 is used, so that one surface of the adjusting block 230 is in abutting contact with the surface of the glass 100, the other surface of the adjusting block 230 is in contact with one groove edge 222 of the U-shaped groove base 220, that is, the inner side wall of the groove edge 222 provided with the adjusting hole, and the adjusting block 230 is used for tightly and vertically installing the glass 100 in the groove cavity 224 of the U-shaped groove base 220.

Two groove edges (221,222) of the U-shaped groove base 220 are arranged along the longitudinal Z-axis, wherein the inner side wall of one groove edge 222 is arranged to be an inclined surface or an inclined surface 2225, and the inner side wall of the other groove edge 221 is arranged to be a vertical plane 2213. The vertical plane 2213 is used for supporting the surface of the glass 100, and the inclined plane 2225 is used for fitting the adjusting block 230.

As shown in fig. 2, 3, 5 and 9, the two top outer cases 210 serve as a decoration and/or protection for the U-shaped groove base 220, and are sealed and installed on the upper side of the U-shaped groove base 220, i.e., on the left and right sides of the opening of the U-shaped groove base 220.

Specifically, on the top end face of one slot edge 222 of the U-shaped slot base 220, one catching slot 2220 is recessed downwards along the longitudinal Z-axis direction, and the axes of the catching slots 2220 are parallel to the Y-axis. Opposite directed nibs 2210b are provided inside the two open edges 2220a of slot 2220, respectively, to function as a snap top outer housing 210.

Accordingly, as shown in fig. 9, the bottom surface of the top outer casing 210 is respectively provided with two spaced ribs 2111 pointing along the longitudinal Z-axis direction, and a convex mouth (not shown) pointing away from each other along the horizontal X-axis direction is respectively provided at the lower end edge of each rib 2111, and the convex mouth configuration is substantially identical to that of the above-mentioned convex mouth configuration on the slot 2220, and will not be described again. When the top shell 210 is installed, the ribs 2111 of the top shell 210 are respectively matched and clamped with the slots 2220 on the top end surface of the slot edge 222 of the U-shaped slot base 220, and the protrusions on the ribs 2111 and the protrusions 2210b on the slots 2220 are mutually clamped or in-engaged connection.

As shown in fig. 4 and 6, a plurality of fixing holes 2231 are formed in the bottom 223 of the cavity 224 of the U-shaped slot base 220, and a fixing hole 2731 is also formed in the bottom 273 of the pre-buried frame 270, so as to facilitate the identification number distinction, the fixing hole in the bottom 223 of the U-shaped slot base 220 is set as a first fixing hole 2231, and the fixing hole in the bottom 272 of the pre-buried frame 270 is set as a second fixing hole 2731; the number and arrangement positions of the first fixing holes 2231 and the second fixing holes 2731 are identical. Thus, the U-shaped channel base 220 and the pre-embedded frame 270 are installed on a fixed object, such as an outer surface of a building wall, in a pre-embedded or embedded fixing manner after the plurality of fixing bolts 300 pass through the first and second fixing holes (2231,2731), respectively.

As shown in fig. 11, the pre-embedding process of the pre-embedding frame 270 is as follows:

firstly, when a building construction wall is constructed, firstly, placing the pre-embedded frame 270 on a brick wall or a cement wall needing to be provided with guardrail glass;

then, the base cover 275 is covered on the opening at the upper end of the embedded frame 270 in a matching manner, so that building cement, broken bricks or other impurities are prevented from falling into the embedded cavity 274 of the embedded frame 270, and the flatness of the subsequent guardrail glass 100 during installation is prevented from being influenced;

then, building brick walls or cement walls on two sides of two vertical edges (271,272) of the embedded frame 270, so that the embedded frame 270 is embedded in the wall body in an embedded mode;

then, when the brick wall or the cement wall of the two vertical edges (271,272) of the embedded frame 270 is flush with the two vertical edges (271,272) of the embedded frame 270, taking the lower base cover 275, putting the U-shaped groove base 220 into the embedded cavity 274 of the embedded frame 270 in a matching manner, and fixedly installing the guardrail glass 100 in the U-shaped groove base 220;

finally, the protective top outer shell 210 is installed on both sides of the glass 100, which is beneficial to leveling when a brick wall or a cement wall is built, so that the guardrail glass 100 is installed in the wall in an embedded manner.

As shown in fig. 3, 5 and 8, the adjusting block 230 is also made of a material with certain elasticity and strength, such as engineering plastic, polycarbonate or other high polymer material. And the width of the adjusting block 230 along the direction perpendicular to the Y axis is the same as the width of the U-shaped groove base 220, or slightly smaller than the width of the U-shaped groove base 220, for example, 0.8 to 0.9 times the width of the U-shaped groove base 220. Thus, the side plate 201 can be securely mounted after the adjustment block 230 is mounted. In addition, the height of the adjusting block 230 along the longitudinal Z-axis direction is about 0.6-08 times of the depth of the U-shaped groove base 220, so that the contact surface of the adjusting block 230 and the glass 100, namely the section along the direction vertical to the Y-axis, is approximately planar or plate-shaped in external configuration; due to the large-area fit contact, the adjusting block 230 is in surface contact with the surface of the glass 100, so that the impact force between the adjusting block 230 and the glass 100 along the horizontal X axis can be effectively buffered, and the effects of fastening and vibration resistance are achieved.

Preferably, in an embodiment, a certain buffering space is disposed on the adjusting block 230, and the buffering space is disposed along a direction perpendicular to the surface of the glass 100, that is, along the horizontal X-axis direction, and the elastic buffering space is disposed between the adjusting block 230 and the surface of the glass 100, so that the elastic buffering space can further weaken or offset the impact force between the adjusting block 230 and the glass 100 along the horizontal X-axis direction, and prevent the glass from being damaged. The buffering space of the adjusting block 230 may be determined according to the profile configuration of the section of the adjusting block 230 in the longitudinal Z-axis direction; if the longitudinal section of the adjusting block 230 is in the shape of the letter "E", and the short transverse edge 233 in the middle of the letter "E" is shorter than the long transverse edges 231 on the upper and lower sides, the long transverse edges 231 on the upper and lower sides of the letter "E" and the vertical plane 232, that is, the corresponding area space formed between the contact surfaces 232 is a buffer space; if the longitudinal section of the adjusting block 230 is in an O-letter or square structure, the space in the middle area of the O-letter or square structure is a buffer space; for example, the adjusting block 230 has a "C" shape in longitudinal section, and the space in the middle of the corresponding portion of the "C" letter opening is a buffer space.

As shown in fig. 2, 3, 5 and 8, in the present embodiment, the adjusting block 230 is an adjusting block 230 with a longitudinal section similar to an "E" letter, and the longitudinal section of the adjusting block is configured to be a right trapezoid. The adjusting block 230 includes a first inclined plane 231, a plurality of spaced transverse edges 232 are arranged on the first inclined plane 231 in the same direction, a telescopic gap 233 with a convex cross section for buffering the extrusion deformation is arranged on the adjacent transverse edges, and the tail ends of all the transverse edges 232 are located to form a plane (not shown in the figure) which is called a vertical plane and is arranged opposite to the first inclined plane 231. When the adjusting block is installed, the first inclined surface 231 of the adjusting block 230 is attached to the inclined surface 2225 of the inner side wall of the groove edge 221 of the U-shaped groove base 220, and the vertical plane (perpendicular to the horizontal X-axis, i.e., parallel to the surface of the glass 100) formed by the transverse edge 232 is attached to the surface of the glass 100. In the adjusting block 230 with such a configuration, because the telescopic gap 233 is arranged between the adjacent transverse edges 233, when the adjusting block 230 is extruded by external force, the transverse edge 232 of the adjusting block 230 deforms, and the buffer space formed by the telescopic gap 233 is reduced, so that the first inclined surface 231 of the adjusting block 230 reduces the gap distance between the glass 100 and the groove edge (221 and/or 222) of the U-shaped groove base 220 to form mutual attachment and abutting, thereby tightly locking the glass 100 in the groove cavity 224 of the U-shaped groove base 220.

When installed, the first inclined surface 231 of the adjustment block 230 rests on the inclined surface 2225 of the slot edge 222 of the U-shaped slot base 220. The groove edge 222 of the U-shaped groove base 220 is provided with a plurality of fixing holes 2230, and a plurality of fixing bolts 300 respectively pass through the fixing holes 2230 to fix the U-shaped groove base 220 to a fixed building in a hanging installation manner at an outer side, such as a wall, a ground, a top surface, etc.

As shown in fig. 2, 3, 6 and 7, the tightness of the adjusting block 230 is adjusted at any time in order to make the installation of the glass more firm and avoid shaking after loosening. An adjusting hole 2221 is arranged at the bottom edge of a buckling groove 2220 at the top end of a groove edge 222 of the U-shaped groove base 220, a groove 2224 is arranged on the inner side wall of the groove edge 222 of the U-shaped groove base 220 and is concavely arranged along the horizontal X-axis, the groove 2224 is arranged below the adjusting hole 2221 and is arranged at the upper end of an inclined surface 2225, an adjusting screw 310 is arranged in each adjusting hole, the adjusting screw 310 moves downwards or upwards along the longitudinal Z-axis in a screwing or unscrewing mode, the relative position of the adjusting block 230 in the groove cavity 224 is pressed or pulled upwards, and therefore the adjusting block 230 and the glass 100 are pressed or loosened.

Preferably, as shown in fig. 2, 3 and 5, a protection pad 204 is further disposed between the adjusting block 230 and the glass 100, and the protection pad 204 is planar and made of a material with certain elasticity, such as asbestos, glass fiber, plastic, silica gel, etc., and is used for isolating and buffering the vibration impact force to protect the glass 100, so as to prevent the glass 100 from being damaged or scratched and prevent the glass from sliding.

As shown in fig. 2, 3 and 2, to facilitate loading of the glass 100 into the channel cavity 224 of the U-channel base 220, or removal from the channel cavity 224 of the U-channel base 220. Preferably, the L-shaped supporting block 200 is pre-installed in the groove cavity 224, the transverse bottom edge of the L-shaped supporting block 202, namely the bottom edge arranged along the horizontal X-axis direction, is arranged at the bottom of the groove cavity 224 of the U-shaped groove base 220, and the vertical side edge of the L-shaped supporting block 202, namely the side edge along the longitudinal Z-axis direction, is in contact with the inner side of the groove edge (221 and/or 220) of the U-shaped groove base 220; during installation, one bottom edge of the glass 100 is placed on the transverse bottom edge of the L-shaped supporting block 202, then the L-shaped supporting block 202 is slowly and downwards moved to be placed at the bottom of the groove cavity 224 of the U-shaped groove base 220, and the vertical side edge of the L-shaped supporting block 202 is in contact with the inner side of the groove edge (221 and/or 220) of the U-shaped groove base 220 in an attaching mode, so that the effect of stabilizing the glass 100 is achieved. When the glass is taken out, the vertical side edge of the L-shaped supporting block 202 is pulled, and the glass 100 is slowly pulled out from the bottom of the groove cavity 224 of the U-shaped groove base 220.

As shown in fig. 2, 3 and 5, in order to enhance the decorative effect of the guardrail glass, a lamp strip 260 is installed at the bottom of the groove cavity 224 of the U-shaped groove base 220. At night, after the lamp strip 260 is lighted, the light irradiates the glass 100, and then shines gorgeous light through refraction or reflection of the glass 100. Preferably, the light strip 260 is disposed in a clearance cavity 2241 formed between the lateral bottom edge of the L-shaped bracket 202 and the bottom 223 of the slot cavity 224 of the U-shaped slot base 220.

As shown in fig. 2, 3, 5 and 12, the pre-buried glass guardrail mounter 200 further includes two edge sealing blocks 250, the two edge sealing blocks 250 are respectively disposed at the open ends of the U-shaped groove bases 220, and gaps between two groove edges (221,222) of the U-shaped groove bases 220 and two surfaces of the glass 100 are respectively sealed by the edge sealing blocks 250. The edge sealing block 250 has an i-shaped cross section and a trapezoidal outer shape, and includes an anti-slip pad surface 251, a connecting column 252, and a clamping column 253.

Specifically, an extending edge 2113 pointing along the longitudinal Z-axis direction is formed on the end surface of the upper shell edge 211 of the two protective top outer shells 210, a fixing groove 2114 is formed on the extending edge 2113 and along the horizontal X-axis direction, a locking column 253 of the sealing block 250 is adapted to be locked into the fixing groove 2114, and the pad surface 251 is sealed and sealed with the surface of the glass 100 to prevent rainwater and dust from infiltrating.

It should be understood that the above description is illustrative of the preferred embodiment of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A pre-buried glass guardrail installer is characterized by comprising a U-shaped groove base, an adjusting block, a pre-buried frame and a top outer shell; the longitudinal section of the embedded frame is of a concave structure, and the U-shaped groove base is clamped in the embedded frame in an adaptive manner; a plurality of adjusting through holes are formed in one groove edge of the U-shaped groove base, the inner side wall of the groove edge is in an inclined plane shape, and a fastening groove for fixedly fastening the top outer shell is formed in the top end face of the groove edge; the axes of the adjusting through hole and the buckling groove are respectively vertical to the longitudinal section of the U-shaped groove base; the adjusting block is provided with a first inclined plane and a vertical plane; one bottom edge of glass to be installed is arranged in a groove cavity of the U-shaped groove base, the adjusting block is arranged in the groove cavity of the U-shaped groove base, the first inclined surface of the adjusting block is in contact with the inclined surface of the U-shaped groove base in an attaching mode, and the vertical plane of the adjusting block is in contact with the surface of the glass in an attaching mode; the adjusting block is used for tightly and vertically installing the glass in a groove cavity of the U-shaped groove base; the bottom of the U-shaped groove base and the bottom of the embedded frame are provided with a plurality of fixing holes respectively, and a plurality of fixing bolts respectively pass through the plurality of fixing holes and then install the U-shaped groove base on a fixed object in an embedded manner.

2. The pre-buried glass guardrail installer of claim 1, wherein the adjusting block is provided with a buffering space along a direction perpendicular to the glass surface.

3. The pre-buried glass guardrail installer of claim 2, wherein the adjusting block has a longitudinal section of E-shaped, O-shaped, C-shaped or square frame shape.

4. The pre-buried glass guardrail installer of claim 1, further comprising a protective pad for balancing the glass with the slot edge of the U-shaped slot base, the protective pad being interposed between the adjusting block and the surface of the glass.

5. The pre-buried glass guardrail installer as claimed in claim 1, further comprising an L-shaped support block for supporting the glass, wherein the transverse bottom edge of the L-shaped support block is disposed at the bottom of the cavity of the U-shaped groove base, and the vertical side edge of the L-shaped support block is in contact with the inner side of the groove edge of the U-shaped groove base; when the glass support is installed, one bottom edge of the glass is arranged on the transverse bottom edge of the L-shaped support block.

6. The pre-buried glass guardrail installer as claimed in claim 5, wherein a clearance cavity is provided between the bottom edge of the U-shaped groove base and the bottom edge of the glass, and a lamp strip can be placed in the clearance cavity.

7. The pre-buried glass guardrail mounter according to claim 1, wherein a protection block is provided at each side end of said adjustment block, and a longitudinal section of said protection block is identical to a longitudinal section of said adjustment block.

8. The pre-buried glass guardrail installer as claimed in claim 1, wherein a plurality of adjusting holes are formed at the bottom edge of the catching groove, an adjusting screw is disposed in each adjusting hole, and the adjusting block is adjusted by the adjusting screw to move up and down relative to the groove cavity.

9. The pre-buried glass guardrail installer of claim 1, further comprising a protective pad disposed between the adjusting block and the glass.

10. The pre-buried glass guardrail installer as claimed in claim 1, further comprising two edge sealing blocks, wherein the two edge sealing blocks are respectively disposed at the opening end of the U-shaped groove base, and gaps formed between the two groove edges of the U-shaped groove base and the two surfaces of the glass are respectively sealed by the edge sealing blocks.

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