CN219569295U - Glass curtain wall mounting structure - Google Patents

Abstract

The utility model discloses a glass curtain wall mounting structure, wherein the glass curtain wall mounting structure is used for mounting a glass plate and comprises an upper end bracket and a lower end bracket, the upper end bracket comprises a positioning bracket, a clamping bracket and a fastener, the clamping bracket can be detachably connected to the positioning bracket through the fastener, the positioning bracket and the top wall of a building are mounted, the positioning bracket and the clamping bracket jointly define a clamping groove with a downward opening, the upper end of the glass plate is inserted into the clamping groove, the clamping bracket is arranged on one side, close to a room, of the glass plate, and a yielding gap is formed between the upper end surface of the glass plate and the bottom surface of the clamping groove; the lower end support is provided with a supporting groove with an upward opening, the bottom wall of the supporting groove is abutted against and supports the lower end face of the glass, and the groove depth of the supporting groove is smaller than the height of the abdicating gap. According to the technical scheme, the glass curtain wall can be replaced without damaging the outdoor decoration panel.

Description

Glass curtain wall mounting structure

Technical Field

The utility model relates to the technical field of curtain wall installation, in particular to a glass curtain wall installation structure.

Background

With the continued rise in glass processing technology, the size of individual glass panels is no longer a limiter for architects to imagine wings. More and more oversized glass panels are being used in construction. However, with use, the oversized glass panel needs to be replaced due to self-explosion of glass or other factors, but when the oversized glass is replaced in the market at present, the outdoor decoration panel and the installation structure part are usually removed in a destructive manner, and a new decoration panel and installation structure are replaced after the oversized glass panel is installed.

Because the outdoor decoration panel is affected by the weather condition after the outdoor decoration panel is installed, the outdoor decoration panel is moderately discolored after being used for a period of time, and the removed decoration panel cannot be used and needs to be re-ordered, the colors of the new decoration panel and the old decoration panel cannot be kept consistent, and the discomfort caused by the color of the new decoration panel and the old decoration panel and the trace after re-construction seriously affect the attractiveness of the building.

Disclosure of Invention

The utility model mainly aims to provide a glass curtain wall mounting structure which aims at replacing a glass curtain wall without damaging an outdoor decoration panel.

In order to achieve the above object, the glass curtain wall mounting structure provided by the present utility model is used for mounting a glass plate, and includes:

the upper end bracket comprises a positioning bracket, a clamping bracket and a fastening piece, wherein the clamping bracket can be detachably connected to the positioning bracket through the fastening piece, the positioning bracket is installed on the top wall of a building, the positioning bracket and the clamping bracket jointly define a clamping groove with a downward opening, the upper end of the glass plate is inserted into the clamping groove, the clamping bracket is arranged on one side, close to the room, of the glass plate, and a yielding gap is formed between the upper end face of the glass plate and the bottom surface of the clamping groove;

the lower end support is provided with a supporting groove with an upward opening, the bottom wall of the supporting groove is abutted to and supports the lower end face of the glass, and the groove depth of the supporting groove is smaller than the height of the abdicating gap.

Optionally, at least two the support piece group is followed the extending direction interval of bearing groove is laid, the support piece group includes two support pieces, two the support piece divide to locate the opposite sides of bearing groove in the groove width direction, the one end of support piece is connected the bearing groove, and the other end is connected ground, in order to with the bearing groove props off ground.

Optionally, the lower end support further comprises an embedded support, the embedded support is embedded on the ground and at least the upper end face is exposed outside, the support piece comprises a first plate section and a second plate section which are intersected, the first plate section is connected with the upper end face of the embedded support, and the second plate section is connected with the groove side wall of the bearing groove.

Optionally, the lower end support further comprises an adjusting component, the adjusting component comprises at least two indoor adjusting parts arranged in the bearing groove, the at least two indoor adjusting parts are arranged at intervals along the extending direction of the bearing groove, and the indoor adjusting parts can adjust the distance between the glass plate and the groove side wall of the bearing groove so as to adjust the inclination angle of the glass plate relative to the ground.

Optionally, the indoor adjusting piece is configured as a bolt, a threaded hole is formed in the groove side wall of the bearing groove, and a threaded end of the bolt penetrates through the threaded hole and stretches into the bearing groove and is used for being abutted with the glass plate.

Optionally, the adjusting assembly further includes an outdoor adjusting member corresponding to the indoor adjusting member, the outdoor adjusting member is capable of adjusting a distance between the glass plate and a groove side wall of the supporting groove, and the outdoor adjusting member and the indoor adjusting member are respectively disposed on two opposite sides of the supporting groove.

Optionally, the glass board includes glass body, cover and locates the sheath of the lower extreme of glass body, the sheath is inserted and is located the bearing groove, the lower extreme support still includes two protection casings, two the protection casing is located respectively the opposite sides of bearing groove, the upper end of protection casing connect in the sheath of glass board, and the lower extreme is connected in ground.

Optionally, the glass curtain wall mounting structure further comprises a lower elastic gasket, and the lower elastic gasket is clamped between the bearing groove and the sheath.

Optionally, the up end of sheath protrusion in the bearing groove sets up, and is equipped with the draw-in groove, the upper end of protection casing corresponds the draw-in groove is equipped with the trip, the trip hook is located in the draw-in groove.

Optionally, the glass curtain wall mounting structure further comprises a ground separation plate arranged indoors, and the ground separation plate is connected with the edge of the protective cover and the edges of the indoor ground.

Optionally, the glass curtain wall mounting structure further comprises a ceiling partition plate arranged indoors, and the ceiling partition plate is connected with the upper end of the glass and the edge of the indoor ceiling.

Optionally, one of the positioning bracket and the clamping bracket is provided with a strip-shaped hole, the other one of the positioning bracket and the clamping bracket is provided with a mounting hole corresponding to the strip-shaped hole, the strip-shaped hole extends along the groove width direction of the clamping groove, and the fastener is connected with the mounting hole and the strip-shaped hole.

Optionally, the locating support includes crossing first board portion and second board portion, the centre gripping support includes crossing third board portion and fourth board portion, the second board portion with building roof installation, first board portion with fourth board portion is relative and the interval sets up, rectangular shape hole with one of mounting hole is located the second board portion, and the other is located the third board portion, the third board portion is located the fourth board portion keep away from one side of first board portion, second board portion and fourth board portion jointly define the centre gripping groove.

Optionally, the upper end bracket further comprises a transverse keel arranged on the top wall of the building, the positioning bracket further comprises an installation pipe column arranged on the upper side of the second plate part, and the installation pipe column is connected to the lower side of the transverse keel.

Optionally, the third plate portion is disposed on a side of the second plate portion, which is close to the first plate portion, the elongated hole is disposed on the third plate portion, and the mounting hole is disposed on the second plate portion.

Optionally, the second plate portion has a first side edge, the first side edge protrudes from a side surface of the first plate portion, which is far away from the fourth plate portion, and the positioning bracket further includes a first reinforcing rib, and the first reinforcing rib connects the first side edge and the first plate portion.

Optionally, the clamping bracket further includes a second reinforcing rib, and the second reinforcing rib connects the third plate portion and the fourth plate portion.

According to the technical scheme, the clamping support and the positioning support close to the indoor side are detachably designed, so that the glass plate can be replaced under the condition that an outdoor decoration panel is not damaged. In the disassembly process, a constructor firstly removes the fastener and the clamping bracket which are positioned on one side of the room, then lifts the glass plate up through the glass suction handle, so that the lower end face of the glass plate is separated from the bearing groove, and in the process, the upper end face of the glass plate is gradually close to the groove bottom wall of the clamping groove, but because the groove depth of the bearing groove is smaller than the height of the yielding gap, after the glass plate is completely removed from the bearing groove, the upper end face of the glass plate is still a distance away from the groove bottom wall of the clamping groove, and at the moment, the glass plate is moved out of the glass curtain wall mounting structure to one side of the room, so that the disassembly of the glass plate is completed; when installing new glass board, move glass board from indoor one side and move glass curtain wall mounting structure, with the glass board again and descend to the bearing groove, make the upper end of glass board be located the centre gripping inslot simultaneously, it is fixed with the centre gripping support to reuse the fastener with locating support to the upper end of centre gripping glass board, accomplish the reinstallation of glass board. In the whole process, the outdoor decoration panel does not need to be disassembled in a destructive way, so that the aesthetic property of the outdoor decoration is maintained.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of a glass curtain wall mounting structure according to the present utility model;

FIG. 2 is an exploded view of a partial structure of the embodiment shown in FIG. 1;

FIG. 3 is a front view of the embodiment shown in FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 2 at A;

FIG. 5 is a partial enlarged view at B in FIG. 2;

fig. 6 is a cross-sectional view at C-C in fig. 3.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments 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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" as it appears throughout includes three parallel schemes, for example "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The utility model provides a glass curtain wall mounting structure.

In an embodiment of the present utility model, as shown in fig. 1 to 6, the glass curtain wall mounting structure for mounting a glass panel 30 includes:

the upper end bracket 10 comprises a positioning bracket 11, a clamping bracket 12 and a fastening piece 15, wherein the clamping bracket 12 can be detachably connected to the positioning bracket 11 through the fastening piece 15, the positioning bracket 11 is installed on the top wall of a building, the positioning bracket 11 and the clamping bracket 12 jointly define a clamping groove 13 with a downward opening, the upper end of the glass plate 30 is inserted into the clamping groove 13, the clamping bracket 12 is arranged on one side, close to the indoor space, of the glass plate 30, and a yielding gap 14 is formed between the upper end surface of the glass plate 30 and the bottom surface of the clamping groove 13;

the lower end bracket 20 is provided with a supporting groove 21 with an upward opening, the bottom wall of the supporting groove 21 is abutted against and supports the lower end face of glass, and the groove depth of the supporting groove 21 is smaller than the height of the abdicating gap 14.

According to the technical scheme, the clamping support 12 and the positioning support 11 close to the indoor side are detachably designed, so that the glass plate 30 can be replaced under the condition that an outdoor decoration panel is not damaged. In the disassembly process, a constructor firstly removes the fastener 15 and the clamping bracket 12 which are positioned on one side of the room, then lifts up the glass plate 30 through the glass suction handle, so that the lower end face of the glass plate 30 is separated from the bearing groove 21, in the process, the upper end face of the glass plate 30 is gradually close to the groove bottom wall of the clamping groove 13, but the groove depth of the bearing groove 21 is smaller than the height of the abdicating gap 14, so that after the glass plate 30 is completely separated from the bearing groove 21, the upper end face of the glass plate 30 is still a distance from the groove bottom wall of the clamping groove 13, and at the moment, the glass plate 30 is moved out of the glass curtain wall mounting structure to one side of the room, and the disassembly of the glass plate 30 is completed; when a new glass plate 30 is installed, the glass plate 30 is moved from one side in the room to the glass curtain wall installation structure, the glass plate 30 is lowered to the bearing groove 21, the upper end of the glass plate 30 is positioned in the clamping groove 13, the positioning bracket 11 and the clamping bracket 12 are fixed by the fastener 15, so that the upper end of the glass plate 30 is clamped, and the glass plate 30 is reinstalled. In the whole process, the outdoor decoration panel does not need to be disassembled in a destructive way, so that the aesthetic property of the outdoor decoration is maintained.

Optionally, at least two supporting element groups 22 are arranged at intervals along the extending direction of the supporting groove 21, the supporting element groups 22 comprise two supporting elements 221, the two supporting elements 221 are respectively arranged on two opposite sides of the supporting groove 21 in the groove width direction, one end of each supporting element 221 is connected with the supporting groove 21, and the other end of each supporting element 221 is connected with the ground, so that the supporting groove 21 is supported away from the ground, and accumulated water is prevented from seeping into the supporting groove 21 when accumulated water on the ground, so that the supporting groove 21 is corroded. Meanwhile, since the best stress point of the glass plate 30 is the quarter of the glass plate 30, the two supporting member sets 22 are respectively arranged at the quarter and the three quarters of the glass plate 30, so that the glass plate 30 can be stably supported in the half space. In other embodiments, the support member sets 22 may also be provided in three, one quarter, one half, and three quarters of the glass sheets 30, respectively.

Optionally, the lower end bracket 20 further includes an embedded bracket 24, the embedded bracket 24 is embedded in the ground, at least the upper end surface is exposed outside, the supporting member 221 includes a first plate segment 221a and a second plate segment 221b, which are intersected, the first plate segment 221a is connected with the upper end surface of the embedded bracket 24, and the second plate segment 221b is connected with the groove sidewall of the bearing groove 21. Because the supporting member 221 has a supporting function on the glass plate 30, and the glass plate 30 in the embodiment is an oversized glass plate 30, the weight of the oversized glass plate 30 is large, and therefore, the supporting member 221 needs to have a stable connection relationship with the ground, so that after the glass plate 30 is mounted in the supporting groove 21, the supporting member 221 cannot be loosened due to loose connection with the ground, and further the glass plate 30 is rocked. The ground structure of the junction with support 221 can be reinforceed to pre-buried support 24, makes the intensity of bearing of ground strengthen, and the up end of pre-buried support 24 replaces the surface on ground to be fixed with support 221 simultaneously, makes the fixed connection of support 221 and ground more firm, can avoid the ground to receive great pressure and fracture simultaneously, the emergence of the waterproof class of destruction floor etc..

It can be understood that the ground embedded by the embedded bracket is the ground surface in the pit, and the height of the ground is lower than that of the upper ground (including indoor ground and outdoor ground), so that the lower end bracket can be accommodated in the pit, and the flatness and the attractiveness of the upper ground are improved.

Further alternatively, the first plate segment 221a is welded and fixed with the pre-buried bracket 24, and the second plate segment 221b is welded and fixed with the groove sidewall of the supporting groove 21, so that the supporting piece 221 is firmly fixed to both the pre-buried bracket 24 and the supporting groove 21. In other embodiments, the lower end bracket 20 may not include the pre-buried bracket 24, and the first plate segment 221a is fixed to the ground by an expansion screw.

Optionally, the lower end bracket 20 further includes an adjusting assembly 23, where the adjusting assembly 23 includes at least two indoor adjusting members 231 disposed in the supporting groove 21, and the at least two indoor adjusting members 231 are disposed at intervals along the extending direction of the supporting groove 21, and the indoor adjusting members 231 can adjust the distance between the glass plate 30 and the groove sidewall of the supporting groove 21, so as to adjust the inclination angle of the glass plate 30 relative to the ground. After the upper and lower ends of the glass plate 30 are inserted into the clamping groove 13 and the supporting groove 21, respectively, in order to make the glass plate 30 flush with the adjacent wall, the overall appearance is more harmonious, and the inclination angle between the glass plate 30 and the ground can be adjusted by the indoor adjusting member 231.

Further alternatively, since the glass plate 30 has a large area, a plurality of indoor adjusting members 231 are provided to apply force to the glass plate 30, so that the stress on the glass plate 30 is uniform, and since the best stress point of the glass plate 30 is a quarter of the glass plate 30, two indoor adjusting members 231 are provided on the glass plate 30 in the present embodiment, which are respectively provided at a quarter and three quarters of the glass plate 30. It should be noted that, at this time, the positions of the supporting member 221 and the indoor adjusting member 231 coincide, so that the two sides do not interfere with each other, and the second plate section 221b is provided with an avoidance opening 221c corresponding to the indoor adjusting member 231. In other embodiments, three indoor adjusting members 231 may be provided, which are respectively provided at one quarter, one half and three quarters of the glass plate 30.

Alternatively, the indoor adjusting member 231 is configured as a bolt, the groove side wall of the supporting groove 21 is provided with a threaded hole 211, and the threaded end of the bolt passes through the threaded hole 211 and extends into the supporting groove 21 and is used for abutting against the glass plate 30. The screwing of the bolt controls the length of the bolt extending into the holding groove 21, thereby controlling the inclination angle between the glass plate 30 and the ground. The threaded hole 211 is located in the central area of the relief opening 221c, and serves to position the support member 221 for attachment to the support groove 21. In other embodiments, the indoor adjusting member 231 may also be an electric push rod.

Further optionally. The screw hole 211 is configured as a nut provided on the groove side wall of the support groove 21, and the nut is welded to the outer wall surface of the groove side wall. This method makes the processing of the holding groove 21 simple. In other embodiments, the threaded holes 211 may be formed directly in the side walls of the support channel 21.

Optionally, the adjusting assembly 23 further includes an outdoor adjusting member 232 corresponding to the indoor adjusting member 231, the outdoor adjusting member 232 is capable of adjusting a distance between the glass plate 30 and the side wall of the supporting groove 21, the outdoor adjusting member 232 and the indoor adjusting member 231 are respectively disposed on two opposite sides of the supporting groove 21, and the outdoor adjusting member 232 and the indoor adjusting member 231 are disposed in one-to-one correspondence. The outdoor adjusting member 232 and the indoor adjusting member 231 together adjust the distance between the glass plate 30 and the tank sidewall of the supporting tank 21, and the outdoor adjusting member 232 and the indoor adjusting member 231 can jointly adjust the inclination angle between the glass plate 30 and the ground when the glass plate 30 is first installed. When the glass plate 30 is replaced, the indoor adjusting member 231 is screwed out from the supporting groove 21, and then the glass plate 30 is taken out from the supporting groove 21, and the length of the outdoor adjusting member 232 extending into the supporting groove 21 is not required to be changed in the process. In other embodiments, the conditioning assembly 23 may also be provided without the outdoor conditioning element 232.

Further alternatively, the outdoor adjusting member 232 is also configured as a bolt, and the length of the bolt extending into the supporting groove 21 is adjusted by screwing a nut welded to the outer wall surface of the other groove side wall of the supporting groove 21, to adjust the inclination angle between the glass plate 30 and the ground.

Optionally, the glass plate 30 includes a glass body 31, a sheath 32 sleeved at the lower end of the glass body 31, the sheath 32 is inserted in the supporting groove 21, the lower end bracket 20 further includes two protecting covers 25, the two protecting covers 25 are respectively covered at two opposite sides of the supporting groove 21, the upper end of the protecting cover 25 is connected to the sheath 32 of the glass plate 30, and the lower end is connected to the ground. The sheath 32 protects the glass plate 30 from being impacted by the supporting groove 21 or cracked due to the abutting of the indoor adjusting member 231 and the outdoor adjusting member 232 when the glass plate 30 is mounted with the supporting groove 21. When the glass plate 30 is installed with the supporting groove 21, and the adjusting component 23 is used for adjusting the inclination angle between the glass plate 30 and the ground, the protective cover 25 is installed on two opposite sides of the supporting groove 21, and meanwhile the supporting groove 21, the supporting component and the adjusting component 23 are covered and enclosed, so that when water accumulation occurs on the upper indoor ground, the water accumulation can be effectively prevented from contacting the supporting groove 21, the supporting component and the adjusting component 23, and the important installation components are prevented from rusting and corroding, so that the glass plate 30 cannot be stably installed. In other embodiments, the sheath 32 sleeved on the lower end of the glass body 31 may not be provided.

Further alternatively, the sheath 32 includes an aluminum U-shaped plate, and a sandwich spacer 322 interposed between the aluminum U-shaped plate and the glass body 31, the sandwich spacer 322 serving to cushion the impact received by the glass plate 30. In other embodiments, the sheath 32 may also include only aluminum U-shaped plates.

Further alternatively, the pre-buried bracket 24 is only arranged relative to the supporting piece 221, that is, the pre-buried bracket 24 is only connected with the supporting piece 221, the lower end of the protective cover 25 is turned over corresponding to the ground to form a mounting flange 252, the mounting flange 252 is provided with a mounting hole 113, and an expansion screw penetrates through the mounting hole 113 to fixedly connect the lower end of the protective cover 25 with the ground. Since the protection cover 25 is not used to bear the weight of the glass plate 30, the lower end of the protection cover 25 can be directly fixed to the ground without worrying about the occurrence of cracking of the ground due to excessive stress, and at the same time, the connection manner of the expansion screw facilitates the removal of the protection cover 25 from the ground. In other embodiments, the pre-buried bracket 24 may be provided with a threaded hole 211 corresponding to the mounting hole 113, and a screw is fixed through the mounting hole 113 and the threaded hole 211 in a matching manner, so that the lower end of the protective cover 25 is fixedly connected with the pre-buried bracket 24.

Optionally, the glass curtain wall mounting structure further includes a lower elastic spacer 212, and the lower elastic spacer 212 is sandwiched between the bearing groove 21 and the sheath 32. Both the lower resilient pad 212 and the interlayer pad 322 can be used to cushion the impact of the glass body 31, particularly the impact between the glass body 31 and the bottom wall of the supporting groove 21. In other embodiments, the lower resilient pad 212 may not be provided.

Optionally, the upper end surface of the sheath 32 protrudes from the supporting groove 21 and is provided with a clamping groove 323, the upper end of the protective cover 25 is provided with a clamping hook 251 corresponding to the clamping groove 323, and the clamping hook 251 is hooked in the clamping groove 323. Specifically, the upper end surface of the aluminum U-shaped plate protrudes from the support groove 21, and forms a locking groove 323 with the upper end surface of the interlayer gasket 322 and the side wall of the glass body 31. In the installation process, the hook 251 is inserted into the clamping groove 323 from the top end of the protective sleeve 32 and moves to be abutted against the inner side of the aluminum U-shaped plate, and then constructors fill sealant between the hook 251 and the side wall of the glass body 31 to prevent the protective sleeve 32 from water inflow, so that the installation of the lower end bracket 20 is completed. In other embodiments, the hooks 251 may be engaged with the side walls of the supporting groove 21, and the upper end of the sheath 32 is completely covered by the sealant.

Optionally, the glass curtain wall mounting structure further comprises a ground separation plate 40 disposed in the room, and the ground separation plate 40 connects the protective cover 25 with the edge of the indoor ground. The lower end bracket 20 is disposed between the floor separation plate 40 and the floor, that is, the fixing structure of the glass plate 30 at the lower end is not exposed outside the floor separation plate 40, so that the lower end bracket 20 is not exposed outside the indoor floor. Wherein, the ground separation plate 40 and the protective cover 25 realize the packaging measures of fire prevention and water prevention through sealant and foam strips.

Optionally, the glass curtain wall mounting structure further includes a ceiling partition plate 50 disposed in the room, and the ceiling partition plate 50 connects an upper end of the glass plate 30 with an edge of the indoor ceiling. That is, the fixing structure of the upper end of the glass plate 30 is not exposed to the outside of the ceiling partition plate 50, and thus, the upper end bracket 10 is not exposed to the outside of the indoor ceiling. Wherein, the sealing glue and foam strips are used for realizing the fireproof and waterproof packaging measures between the ceiling partition plate 50 and the upper end of the glass plate 30.

Further alternatively, the glass curtain wall mounting structure further comprises an indoor keel 60 for fixedly mounting the indoor suspended ceiling, and fireproof and waterproof packaging measures are realized between one end of the indoor keel 60 and the upper end of the glass plate 30 through sealant and foam strips, namely, two layers of packaging measures are arranged in the mounting structure at the upper end of the glass plate 30, so that water and gas can be well prevented from entering the upper end bracket 10, and the upper end bracket 10 is corroded.

After the fixing of the upper end bracket 10 and the lower end bracket 20 with the glass plate 30 is completed, the packaging measure is the last step of completing the installation of the glass curtain wall, so when the glass plate 30 needs to be replaced, the packaging measure is removed as the first step of construction, and after a new glass curtain wall is reinstalled, a new packaging measure needs to be performed to keep the packaging to have good fireproof and waterproof performances.

Alternatively, one of the positioning bracket 11 and the holding bracket 12 is provided with an elongated hole 123, the other is provided with a mounting hole 113 corresponding to the elongated hole 123, the elongated hole 123 extends in the groove width direction of the holding groove 13, and the fastener 15 connects the mounting hole 113 and the elongated hole 123. So that the width of the clamping groove 13 can be adjusted by the movement of the mounting hole 113 on the elongated hole 123, i.e., the clamping bracket 12 is moved closer to or farther from the positioning bracket 11 in the groove width direction of the clamping groove 13 for the glass plates 30 of different thickness to fit the glass plates 30 of different specifications, so that the clamping groove 13 can firmly clamp the upper ends of the glass plates 30. In other embodiments, the positioning bracket 11 and the clamping bracket 12 are not provided with the elongated hole 123, and the clamping and fixing of the upper end of the glass plate 30 can be realized by arranging the indoor adjusting piece 231 and/or the outdoor adjusting piece 232 on the clamping groove 13.

Optionally, the positioning bracket 11 includes a first plate portion 111 and a second plate portion 112 that intersect, the clamping bracket 12 includes a third plate portion 121 and a fourth plate portion 122 that intersect, the second plate portion 112 is mounted on the top wall of the building, the first plate portion 111 is opposite to the fourth plate portion 122 and is spaced apart, one of the elongated hole 123 and the mounting hole 113 is disposed on the second plate portion 112, and the other is disposed on the third plate portion 121, the third plate portion 121 is disposed on a side of the fourth plate portion 122 away from the first plate portion 111, the second plate portion 112 and the fourth plate portion 122 together define the clamping groove 13, and the first plate portion 111 and the fourth plate portion 122 together clamp opposite sides of the glass plate 30. In particular, when the third plate portion 121 is disposed on the side of the fourth plate portion 122 away from the first plate portion 111, when the constructor adjusts the third plate portion 121 and the second plate portion 112 to the position where the clamping groove 13 can stably clamp, the fastener 15 can be directly and sequentially passed through the mounting hole 113 and the elongated hole 123, so that the fastener 15 can be conveniently mounted. In other embodiments, the third plate portion 121 may be disposed on a side of the fourth plate portion 122 near the first plate portion 111, where the first plate portion 111, the third plate portion 121 and the fourth plate portion 122 together define the clamping groove 13, and when the constructor moves the third plate portion 121 and the second plate portion 112 to a position where the clamping groove 13 can stably clamp, the constructor needs to stretch an operation tool into the clamping groove 13 to complete the installation of the fastener 15, which is complicated in operation.

Alternatively, the third plate portion 121 is provided on a side of the second plate portion 112 near the first plate portion 111, the elongated hole 123 is provided on the third plate portion 121, and the mounting hole 113 is provided on the second plate portion 112. At this time, the positioning bracket 11 and the clamping bracket 12 have simple structures and are easy to manufacture. In other embodiments, the elongated hole 123 may be provided in the second plate portion 112, and the mounting hole 113 may be provided in the third plate portion 121.

Optionally, the upper end bracket 10 further comprises a transverse keel 70 provided on the top wall of the building, and the positioning bracket 11 further comprises a mounting post 114 provided on the upper side of the second plate portion 112, the mounting post 114 being connected to the lower side of the transverse keel 70. The positioning bracket 11 is connected with the transverse keel 70 by a mounting pipe. In other embodiments, the second plate portion 112 may also be welded to the transverse keel 70.

Further alternatively, at least two upper end brackets 10 are arranged at intervals along the extending direction of the holding groove 21, and at the same time, since the best stress point of the glass plate 30 is one-fourth of the glass plate 30, in the present embodiment, the two upper end brackets 10 are respectively provided at one-fourth and three-fourths of the glass plate 30, so that the glass plate 30 can be stably supported in the half space. In other embodiments, the upper end bracket 10 may be provided with three, one quarter, one half, and three quarters of the glass plate 30, respectively.

Further alternatively, the upper end bracket 10 further includes two upper elastic gaskets 16 interposed between the glass clamping groove 13 and the glass plate 30, the two upper elastic gaskets 16 are separately disposed at two sides of the glass plate 30, and the upper elastic gaskets 16 can be used to cushion the pressure applied to the upper end of the glass plate 30, particularly the pressure applied to the glass plate 30 from the fourth plate portion 122 and the first plate portion 111 during the process of fixing the upper end bracket 10 to the glass plate 30. In other embodiments, the upper resilient pad 16 may not be provided.

Further alternatively, the upper elastic pad 16, the lower elastic pad 212, and the interlayer pad 322 may be made of elastic material such as rubber or silica gel, or may be made of sponge.

Optionally, the second plate portion 112 has a first side edge 115, the first side edge 115 protrudes from a side surface of the first plate portion 111 away from the fourth plate portion 122, and the positioning bracket 11 further includes a first reinforcing rib 116, where the first reinforcing rib 116 connects the first side edge 115 and the first plate portion 111. As can be seen from fig. 6, in the present embodiment, since the height of the relief gap 14 is greater than the height of the supporting groove 21, and the clamping groove 13 needs to have a stable clamping on the upper end of the glass plate 30, the height of the groove sidewall of the clamping groove 13 is greater than the width of the groove bottom wall of the clamping groove 13, that is, the lengths of the first plate portion 111 and the fourth plate portion 122 are longer than the lengths of the second plate portion 112 and the third plate portion 121. Because the first plate portion 111 and the fourth plate portion 122 need to apply a larger clamping force to the upper end of the glass plate 30, the positioning bracket 11 needs to be provided with the first reinforcing rib 116, and the first reinforcing rib 116, the first side edge 115 and the first plate portion 111 enclose to form a triangular bracket, and the triangular bracket can effectively strengthen the stress structure of the first plate portion 111, so that the first plate portion 111 is prevented from bending, deforming or breaking due to overlarge stress. In other embodiments, the positioning bracket 11 may not be provided with the first reinforcing rib 116.

Optionally, the clamping bracket 12 further includes a second stiffener 124, the second stiffener 124 connecting the third plate portion 121 and the fourth plate portion 122. The second reinforcing rib 124, the third plate portion 121 and the fourth plate portion 122 enclose a triangular support, and the triangular support can effectively strengthen the stress structure of the fourth plate portion 122, so as to avoid bending deformation or fracture of the fourth plate portion 122 due to overlarge stress. In other embodiments, the clamping bracket 12 may not have the second reinforcing rib 124.

In the first installation process of the glass plate 30, a constructor firstly places the lower end of the glass plate 30 in the bearing groove 21, then the upper end of the glass plate 30 is abutted against the first plate part 111, after the installation hole 113 is aligned with the strip-shaped hole 123, the clamping bracket 12 is pushed to be close to the glass plate 30 until the first plate part 111 and the fourth plate part 122 jointly clamp the upper end of the glass plate 30, the positioning bracket 11 and the clamping bracket 12 are used for fixing the upper end of the glass plate 30 through the fastening piece 15, the first plate part 111 and the fourth plate part 122 maintain the clamping state of the glass plate 30, then the inclination angle of the glass plate 30 and the ground is finely adjusted through the indoor adjusting piece 231 and the outdoor adjusting piece 232 arranged in the bearing groove 21, then the protection plates are installed on two sides of the bearing groove 21, the upper end of the protection plate is spliced with the upper end sheath 32 of the glass plate 30, sealant is filled between the glass body 31 and the upper end of the protection plate, the lower end of the protection cover 25 is fixed with the ground through nailing, after the installation of the protection cover 25 is completed, the detachable ground separation plate 40 is installed, fireproof and waterproof packaging measures are realized between the ground separation plate 40 and the edge of the protection cover 25 through sealant and foam strips, at the moment, the installation of the lower end support 20 is completed, then, the sealing glue and the foam strips are respectively filled between the upper end of the glass plate 30 and the indoor keel 60 and between the upper end of the glass plate 30 and the ceiling separation plate 50 to realize fireproof and waterproof packaging, and the sealing glue and the foam strips are filled to realize fireproof and waterproof packaging, so that the first installation of the glass plate 30 is completed.

In the process of replacing the glass plate 30, a constructor scrapes all sealant and foam strips which are in contact with the glass plate 30, scrapes off the sealant between the ground partition plate 40 and the ceiling partition plate 50, sequentially removes the ground partition plate 40 and the ceiling partition plate 50, removes the protection plate on one side of the room, unscrews the expansion screw on the lower end of the protection plate, moves up the protection plate, removes the connection between the protection plate and the sheath 32, exposes the indoor adjusting piece 231 and the supporting groove 21, screws the indoor adjusting piece 231 out of the threaded hole 211 of the supporting groove 21, and pries the upper end of the protection plate on one side of the room out of the sheath 32, at the moment, removes the fastener 15 and the clamping bracket 12 on one side of the room, lifts up the glass plate 30 through the glass suction handle, and enables the lower end face of the glass plate 30 to be separated from the supporting groove 21, and the upper end face of the glass plate 30 is gradually close to the groove bottom wall of the clamping groove 13 in the process, but the groove depth of the curtain wall 21 is smaller than the height of the clearance 14, so that when the glass plate 30 is completely separated from the supporting groove 21, the upper end face of the glass plate 30 is removed from the supporting groove 32, namely the glass plate 30 is removed from the groove bottom wall of the glass plate 30, and the glass plate is removed from the glass plate 30, namely, and the glass plate is completely removed from the glass plate is installed to one side of the groove structure; when installing a new glass plate 30, moving the new glass plate 30 from one side in a room to a glass curtain wall installation structure, then lowering the new glass plate 30 to the bearing groove 21, simultaneously enabling the upper end of the new glass plate 30 to be positioned in the clamping groove 13, fixing the positioning support 11 and the clamping support 12 by using the fastener 15 so as to clamp the upper end of the new glass plate 30, screwing the taken indoor adjusting piece 231 into the bearing groove 21 again, finely adjusting the angle between the new glass plate 30 and the ground, re-tilting the upper end of the protection plate with the pried outdoor side into the sheath 32, re-installing the protection plate on the indoor side, and re-completing the encapsulation of the lower end support 20 and the upper end support 10, thereby completing the installation of the new glass plate 30.

In the process of replacing the glass plate 30, since the various mounting structures and the adjusting assemblies 23 are already in the working state and the relative positional relationship is already clear when the glass plate 30 is first mounted, the various mounting structures on the outdoor side and the outdoor adjusting members 232 do not need to be adjusted, only the indoor side mounting structures and the indoor adjusting members 231 need to be mounted and adjusted, and meanwhile, the outdoor decoration panel does not need to be disassembled in a destructive manner, so that the aesthetic property of the outdoor decoration is maintained.

The foregoing description is only of the optional embodiments of the present utility model, and is not intended to limit the scope of the utility model, and all the equivalent structural changes made by the description of the present utility model and the accompanying drawings or the direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. A glass curtain wall mounting structure for mounting a glass panel, the glass curtain wall mounting structure comprising:

the upper end bracket comprises a positioning bracket, a clamping bracket and a fastening piece, wherein the clamping bracket can be detachably connected to the positioning bracket through the fastening piece, the positioning bracket is installed on the top wall of a building, the positioning bracket and the clamping bracket jointly define a clamping groove with a downward opening, the upper end of the glass plate is inserted into the clamping groove, the clamping bracket is arranged on one side, close to the room, of the glass plate, and a yielding gap is formed between the upper end face of the glass plate and the bottom surface of the clamping groove;

the lower end support is provided with a supporting groove with an upward opening, the bottom wall of the supporting groove is abutted to and supports the lower end face of the glass, and the groove depth of the supporting groove is smaller than the height of the abdicating gap.

2. The glass curtain wall mounting structure according to claim 1, wherein one of the positioning bracket and the clamping bracket is provided with an elongated hole, the other one is provided with a mounting hole corresponding to the elongated hole, the elongated hole extends in a groove width direction of the clamping groove, and the fastener connects the mounting hole and the elongated hole.

3. The glass curtain wall mounting structure of claim 2, wherein the positioning bracket comprises a first plate portion and a second plate portion which are intersected, the clamping bracket comprises a third plate portion and a fourth plate portion which are intersected, the second plate portion is mounted on the building top wall, the first plate portion is opposite to the fourth plate portion and is arranged at intervals, one of the strip-shaped hole and the mounting hole is formed in the second plate portion, the other of the strip-shaped hole and the mounting hole is formed in the third plate portion, the third plate portion is formed in one side, far away from the first plate portion, of the fourth plate portion, and the first plate portion, the second plate portion and the fourth plate portion jointly define the clamping groove.

4. The glass curtain wall mounting structure of claim 3, wherein said upper bracket further comprises a transverse keel provided to said building top wall, said positioning bracket further comprises a mounting post provided to an upper side of said second panel portion, said mounting post being connected to a lower side of said transverse keel;

and/or the third plate part is arranged on one side of the second plate part, which is close to the first plate part, the strip-shaped hole is arranged on the third plate part, and the mounting hole is arranged on the second plate part;

and/or the second plate part is provided with a first side edge, the first side edge protrudes out of the side surface of the first plate part far away from the fourth plate part, and the positioning bracket further comprises a first reinforcing rib which is connected with the first side edge and the first plate part;

and/or, the clamping bracket further comprises a second reinforcing rib, and the second reinforcing rib is connected with the third plate part and the fourth plate part.

5. The glass curtain wall mounting structure according to claim 1, wherein the lower bracket includes at least two supporting member groups, at least two of the supporting member groups are arranged at intervals along the extending direction of the bearing groove, the supporting member groups include two supporting members, the two supporting members are respectively arranged at opposite sides of the bearing groove in the groove width direction, one end of the supporting member is connected with the bearing groove, and the other end is connected with the ground so as to support the bearing groove away from the ground.

6. The glass curtain wall mounting structure of claim 5, wherein the lower end bracket further comprises an embedded bracket embedded in the ground and having at least an upper end surface exposed outside, the support member comprises a first plate section and a second plate section intersecting with each other, the first plate section is connected with the upper end surface of the embedded bracket, and the second plate section is connected with the groove side wall of the bearing groove.

7. The glass curtain wall mounting structure of claim 5, wherein the lower bracket further comprises an adjusting assembly, the adjusting assembly comprises at least two indoor adjusting members arranged in the bearing groove, the at least two indoor adjusting members are arranged at intervals along the extending direction of the bearing groove, and the indoor adjusting members can adjust the distance between the glass plate and the groove side wall of the bearing groove so as to adjust the inclination angle of the glass plate relative to the ground.

8. The glass curtain wall mounting structure according to claim 7, wherein the indoor adjusting member is configured as a bolt, a threaded hole is formed in a groove side wall of the bearing groove, and a threaded end of the bolt passes through the threaded hole and extends into the bearing groove and is used for abutting against the glass plate;

and/or, the adjusting assembly further comprises an outdoor adjusting piece corresponding to the indoor adjusting piece, the outdoor adjusting piece can adjust the distance between the glass plate and the groove side wall of the bearing groove, and the outdoor adjusting piece and the indoor adjusting piece are respectively arranged on two opposite sides of the bearing groove.

9. The glass curtain wall mounting structure according to claim 5, wherein the glass plate comprises a glass body and a sheath sleeved at the lower end of the glass body, the sheath is inserted into the bearing groove, the lower end bracket further comprises two protective covers, the two protective covers are respectively covered at two opposite sides of the bearing groove, the upper end of the protective cover is connected with the sheath of the glass plate, and the lower end of the protective cover is connected with the ground.

10. The glass curtain wall mounting structure of claim 9, further comprising a lower resilient gasket sandwiched between the bearing channel and the jacket;

and/or the upper end face of the sheath protrudes out of the bearing groove and is provided with a clamping groove, the upper end of the protective cover is provided with a clamping hook corresponding to the clamping groove, and the clamping hook is hooked in the clamping groove;

and/or the glass curtain wall mounting structure further comprises a ground separation plate arranged indoors, and the ground separation plate is connected with the edge of the protective cover and the indoor ground;

and/or, the glass curtain wall mounting structure further comprises a ceiling partition plate arranged indoors, and the ceiling partition plate is connected with the upper end of the glass and the edge of the indoor ceiling.