CN218060753U - Connecting structure of glass house and outer building surface - Google Patents

Abstract

The utility model relates to a connection structure of glass room and outer building face, including support element, a plurality of bracing unit, waterproof unit, a plurality of linkage unit and sealed unit. Wherein, the vertical end of the supporting unit is arranged inside the outer building surface, and the vertical end is arranged outside the outer building surface; the inclined strut units are arranged on the outer building surface along the length direction of the support units, and the top ends of the inclined strut units are fixedly connected with the transverse ends of the support units; the first end of the waterproof unit is connected with the top of the transverse end of the supporting unit in a matched mode, and the second end of the waterproof unit is used for installing the steel structure frame and the glass; the connecting units are arranged at the first end of the waterproof unit at intervals and are respectively connected with the second end of the supporting unit; the sealing unit is arranged at the second end of the waterproof unit and is tightly abutted to the glass. The utility model has the advantages of simple structure, simple to operate, waterproof ability is strong, has solved among the prior art structure glue between steel structure frame and the outer building wall and has exposed the problem that outdoor easy ageing leads to the rainwater to indoor seepage for a long time.

Description

Connecting structure of glass house and outer building surface

Technical Field

The utility model relates to a building decoration technical field especially relates to a connection structure of glass room and outer building surface.

Background

In the case of installing a glass house outside a building, a steel structure frame is generally installed on the side wall of an external building wall, and then glass is installed on the steel structure frame, so that the glass cooperates with an external steel structure frame to form the glass house. Under the condition of construction between the sunlight room and the outer building wall, the structural adhesive is usually used for sealing the steel structure frame and the outer building wall, and rainwater is prevented from leaking into the glass room from the space between the steel structure frame and the outer building wall.

Among the prior art, use the structural adhesive to seal between steel structure frame and the outer building wall, because the structural adhesive exposes in the open air throughout the year, receives factors such as sleet or sunshine direct injection to influence, can lead to the structural adhesive to take place ageing, leads to the rainwater to take place the seepage to the glass house in then. In addition, the filling position that the structure was glued sets up in outdoor usually, and non-professional can't mend by oneself and glue, so in case the glass room takes place the seepage, just need professional maintenance personal to mend and glue, this work load and the work degree of difficulty that has not only increased the staff, the rainwater also easily causes the damage to the inside utensil in glass room.

At present, no effective solution is provided for the problem that in the prior art, structural adhesive between a steel structural frame and an outer building wall is exposed outdoors for a long time and is easy to age so as to cause rainwater to leak indoors.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a connection structure of glass room and outer building face to not enough among the prior art to solve among the prior art at least that the structure between steel structure frame and the outer building wall is glued and is exposed in outdoor easy ageing problem that leads to the rainwater to indoor seepage for a long time.

In order to achieve the above object, the utility model provides a connection structure of glass room and outer building face, include:

the supporting unit is of an L-shaped structure, the vertical end of the supporting unit is embedded in the outer building surface, and the transverse end of the supporting unit is arranged outside the outer building surface;

the inclined strut units are arranged on the outer side wall of the outer building surface along the length direction of the support unit, and the top ends of the inclined strut units are fixedly connected with the transverse ends of the support unit;

the waterproof unit is integrally of a U-shaped structure, the first end of the waterproof unit is connected with the top of the transverse end of the supporting unit in a matched mode, and the second end of the waterproof unit is used for installing a steel structure frame and glass;

the connecting units are arranged at the first ends of the waterproof units at intervals along the length direction of the waterproof units, are connected with the second ends of the supporting units and are used for fixing the waterproof units on the supporting units;

and the sealing unit is arranged at the second end of the waterproof unit, tightly abuts against the glass and is used for sealing a gap between the glass and the second end of the waterproof unit.

Further, the supporting unit includes:

the vertical end of the supporting element is embedded in the outer building surface, and the transverse end of the supporting element is arranged outside the outer building surface;

the first perforation elements are arranged at the vertical ends of the supporting elements at intervals;

the first connecting elements penetrate through the corresponding first perforation elements and are connected with the outer building surface;

the second perforation elements are arranged at the transverse ends of the supporting elements at intervals and are connected with the corresponding connecting units in a matched manner;

and the threaded hole elements are arranged at the transverse ends of the supporting elements at intervals and correspond to and are matched and connected with the corresponding inclined strut units.

Further, the supporting unit further includes:

the first waterproof element is arranged at the transverse end of the supporting element along the length direction of the supporting element and is connected with the bottom end of the waterproof unit in a matched mode.

Further, the sprag unit includes:

the diagonal bracing element is arranged in a triangular prism shape, a first end of the diagonal bracing element is connected with the outer side wall of the outer building surface, and a second end of the diagonal bracing element is connected with the lower part of the transverse end of the supporting unit;

and the two second connecting elements are correspondingly arranged at the first end and the second end of the inclined strut element, one second connecting element is connected with the outer building surface, and the other second connecting element is connected with the transverse end of the supporting unit.

Further, the second connecting element comprises:

the two connecting lugs are arranged on two sides of the first end of the inclined strut element or two sides of the second end of the inclined strut element;

and the two connecting bolts are correspondingly arranged on the two connecting lugs and are used for being connected with the outer building surface or the threaded hole element of the supporting unit.

Further, the waterproof unit includes:

the second waterproof element is of a U-shaped structure, one side of the open end of the second waterproof element is connected with the transverse end of the supporting unit, the top of the other side of the open end of the second waterproof element is provided with an inclined plane, and the second waterproof element is used for installing the steel structure frame and the glass;

the first sealing element is arranged on the outer side wall of the closed end of the second waterproof element, is tightly abutted against the outer building surface and is used for sealing a gap between the waterproof unit and the outer side wall of the outer building surface;

and the mounting elements are arranged on one side of the opening end of the second waterproof element along the length direction of the second waterproof element and used for mounting the connecting unit.

Further, the waterproof unit further includes:

and the third water prevention element is arranged at the bottom end of the second water prevention element and is used for being matched and connected with the first water prevention element of the supporting unit.

Further, the waterproof unit further includes:

and the second sealing element is arranged on the side wall of the outer building surface, which faces the third water-proofing element, and is used for sealing a gap between the third water-proofing element and the first waterproof element.

Further, the connection unit includes:

the screw element penetrates through the mounting element of the waterproof unit and is positioned in the second perforated element of the supporting unit;

and the nut element is sleeved on the screw element and matched with the screw element to install the waterproof unit on the supporting unit.

Further, the sealing unit includes:

and the third sealing element is arranged on the other side of the opening end of the first waterproof element of the waterproof unit and is tightly abutted with the glass.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

(1) The utility model discloses a connection structure, through embedding the first end of support element in the interior of outer building face, thereby can make support element and outer building face form an entirety, and support waterproof unit and steel structure frame, avoid the rainwater to flow to the inside of glass room from the gap between the first end of support element and the outer building face, avoid the rainwater to corrode the wall body in the glass room then;

(2) The gap between the waterproof element and the wall body is sealed through the first sealing element of the waterproof unit, so that the waterproof capability of the connecting structure is enhanced, rainwater is prevented from leaking into the glass house, and the problem that the rainwater can enter the glass house from the gap between the steel structure frame and the wall body due to aging of the existing structural adhesive is solved;

(3) The top ends of the glass and the waterproof unit are sealed through the sealing unit, so that the problem that after water is accumulated on the glass, the accumulated water enters the room from a gap between the glass and the top end of the waterproof unit can be avoided, and the waterproof capability of the connecting structure of the utility model is further enhanced;

(4) The utility model has the advantages of simple structure, simple to operate, waterproof ability is strong, has solved among the prior art structure glue between steel structure frame and the outer building wall and has exposed the problem that outdoor easy ageing leads to the rainwater to indoor seepage for a long time.

Drawings

Fig. 1 is an installation schematic view of the connection structure of the present invention;

fig. 2 is a schematic structural view of the connection structure of the present invention;

fig. 3 is a schematic structural diagram (one) of the supporting unit of the present invention;

fig. 4 is a schematic structural diagram (ii) of the supporting unit of the present invention;

fig. 5 is a schematic structural view of the bracing unit of the present invention;

fig. 6 is a schematic structural view of the waterproof unit of the present invention;

fig. 7 is a schematic structural view of the connection unit of the present invention;

wherein the reference symbols are:

100. a support unit; 110. a support element; 120. a first perforated element; 130. a first connecting element; 140. a second perforated element; 150. a threaded bore element; 160. a first waterproof member;

200. a diagonal bracing unit; 210. a bracing element; 220. a second connecting element; 221. connecting lugs; 222. a connecting bolt;

300. a waterproof unit; 310. a second waterproof member; 320. a first sealing element; 330. mounting a component; 340. a third water prevention element; 350. a second sealing element;

400. a connection unit; 410. a screw element; 420. a nut member;

500. a sealing unit; 510. a third sealing element;

600. an exterior building surface;

700. a steel structural frame;

800. and (3) glass.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "upper", "lower", "inner", "outer", "vertical", "horizontal", and the like as used herein are used in the description to indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

As shown in fig. 1-2, the present invention relates to a connection structure of a glass house and an external building surface, which comprises a supporting unit 100, a plurality of bracing units 200, a waterproof unit 300, a plurality of connecting units 400 and a sealing unit 500. The supporting unit 100 is of an L-shaped structure, the vertical end of the supporting unit 100 is embedded in the outer building surface 600, the horizontal end of the supporting unit 100 is arranged outside the outer building surface 600, and the supporting unit 100 is used for installing and supporting the waterproof unit 300; the plurality of inclined strut units 200 are arranged on the outer building surface 600 along the length direction of the support unit 100, and the top ends of the inclined strut units 200 are fixedly connected with the transverse ends of the support unit 100, so as to support the transverse ends of the support unit 100 and prevent one end of the support unit 100 from sinking downwards or tilting; the whole waterproof unit 300 is of a U-shaped structure, a first end of the waterproof unit 300 is connected with the transverse end of the supporting unit 100 in a matched manner, and a second end of the waterproof unit 300 is used for installing the steel structure frame 700 and the glass 800; the plurality of connection units 400 are arranged at intervals at a first end of the waterproof unit 300 along the length direction of the waterproof unit 300, the plurality of connection units 400 are all connected with a second end of the supporting unit 100, and the connection units 400 are used for fixing the waterproof unit 300 to the supporting unit 100; the sealing unit 500 is disposed at the second end of the waterproof unit 300, and is in close contact with the glass 800 for sealing a gap between the glass 800 and the second end of the waterproof unit 300.

Wherein, under the condition of installation supporting unit 100, the staff first shovels the decorative layer and the dope layer of the installation position of exterior architectural surface 600 except that exposing the wall structure layer, then the staff is connected the perpendicular end and the wall structure layer of supporting unit 100, and the staff is constructed again at last in order to form wall decorative layer and dope layer to cover the perpendicular end of supporting unit 100, thereby make supporting unit 100 and exterior architectural surface 600 form wholly, avoid producing the gap between supporting unit 100 and the exterior architectural surface 600.

The supporting unit 100 may be horizontally installed on the external building surface 600, or may be obliquely installed on the wall of the external building surface 600.

One end of the inclined strut unit 200 is fixedly connected to the wall of the outer building surface 600, and the other end is fixedly connected to the bottom of the lateral end of the support unit 100, so as to support the support unit 100.

Wherein, the staff sets up the steel structure frame 700 that glass room and outer building face are connected in the inside of waterproof unit 300 to through the bolt fastening, and place the one end of glass 800 in the inside of waterproof unit 300, and be located the top of steel structure frame 700.

Specifically, in the case of installing the connection structure of this embodiment, the worker firstly shovels the wall decoration layer and the paint layer of the outer building surface 600, leaks out the wall structure layer of the outer building surface 600, then fixedly connects the vertical end of the support unit 100 with the wall structure layer of the outer building surface 600, and applies the wall decoration layer and the paint layer at the vertical end of the support unit 100 again, so that the support unit 100 and the outer building surface 600 form an integral body; the staff connects one end of the waterproof unit 300 to the lateral end of the supporting unit 100 in a fitting manner, and installs the bracing unit 200 at the bottom of the lateral end of the supporting unit 100, and finally the staff sets the sealing unit 500 at the second end of the waterproof unit 300, installs the steel structure frame 700 inside the waterproof unit 300, and installs one end of the glass 800 inside the waterproof unit 300 and above the steel structure frame 700.

As shown in fig. 3 to 4, the supporting unit 100 includes a supporting member 110, a first perforated member 120, a plurality of first connecting members 130, a plurality of second perforated members 140, and a plurality of threaded hole members 150. Wherein, the vertical end of the supporting element 110 is embedded inside the outer building surface 600, and the horizontal end of the supporting element 110 is arranged outside the outer building surface 600 for installing and supporting the waterproof unit 300; a plurality of first perforated elements 120 are spaced apart from the vertical ends of the support elements 110 for fixing the vertical ends of the support elements 110 to the wall structure layer of the outer building surface 600; the plurality of first connecting elements 130 are inserted into the corresponding first perforated elements 120 and embedded inside the outer building surface 600, so as to fix the vertical ends of the supporting elements 110 to the wall structure layer of the outer building surface 600; the plurality of second perforated elements 140 are spaced apart from the lateral ends of the support elements 110, and are connected with the corresponding connection units 400 in a matching manner, so as to be connected with the connection units 400 in a matching manner; the plurality of threaded hole elements 150 are spaced apart from the lateral ends of the support elements 110, and are corresponding to and connected with the corresponding inclined strut units 200 in a matching manner, for being connected with the corresponding inclined strut units 200 in a matching manner.

Wherein, the supporting member 110 is an L-shaped plate structure, and the vertical end of the supporting member 110 is fixed on the wall structure layer of the outer building surface 600 through the second connecting member 220.

Wherein after the vertical ends of the supporting members 110 are coupled with the wall structure layer of the outer construction surface 600, the worker re-constructs the wall decoration layer and the paint layer at the vertical ends of the supporting members 110.

Wherein the first perforated element 120 is a circular hole for facilitating the first connecting element 130 to pass through for fixedly connecting with the wall structure layer of the external building surface 600.

Wherein the first connecting member 130 is an expansion bolt.

Wherein the second perforated member 140 is a circular hole for facilitating the connection unit 400 to pass therethrough to fix the waterproof unit 300 to the lateral end of the support member 110.

Wherein the screw hole member 150 is a groove hole with an internal thread for screw-coupling with the top end of the sprag unit 200.

As shown in fig. 5, the sprag unit 200 includes a sprag element 210 and two second connection elements 220. Wherein the inclined strut element 210 is provided in a triangular prism shape, a first end of the inclined strut element 210 is connected to an outer sidewall of the outer building surface 600, and a second end of the inclined strut element 210 is connected to a lower portion of a lateral end of the support unit 100, for supporting the lateral end of the support element 110; the two second connection elements 220 are correspondingly disposed at the first end and the second end of the inclined strut element 210, wherein one second connection element 220 is fixedly connected to the outer building surface 600, and the other second connection element 220 is fixedly connected to the lateral end of the support unit 100, so as to fix the inclined strut element 210 to the wall and connect the inclined strut element 210 to the lateral end of the support element 110.

Specifically, the second end of the sprag member 210 is disposed at a lower portion of the lateral end of the support member 110; another second connecting member 220 is cooperatively connected with the threaded hole member 150 to fix the sprag member 210 below the support member 110.

Wherein the sprag element 210 is provided in the shape of a right triangular prism.

The second coupling member 220 includes two coupling lugs 221 and two coupling bolts 222. Wherein, the two connecting lugs 221 are disposed on two sides of the first end of the inclined strut element 210 or two sides of the second end of the inclined strut element 210; the two connecting bolts 222 are correspondingly disposed on the two connecting lugs 221 for connecting with the threaded hole elements 150 of the outer building surface 600 or the supporting unit 100, and the two connecting bolts 222 are used for matching with the connecting lugs 221 to fix the inclined strut element 210 on the lower portion of the lateral end of the outer building surface 600 or the supporting unit 100.

Specifically, the two engaging lugs 221 are tightly abutted against the outer building surface 600 or against the lower portion of the lateral end of the supporting member 110, and the connecting bolt 222 is used to cooperate with the engaging lugs 221 to fix the inclined strut member 210 to the outer building surface 600 or the lateral end of the supporting member 110.

Wherein, the engaging lug 221 is configured as a square plate or an arc plate.

Wherein the connecting bolt 222 is a bolt.

As shown in fig. 6, the waterproof unit 300 includes a second waterproof member 310, a first sealing member 320, and a plurality of mounting members 330. The second waterproof element 310 is of a U-shaped structure, one side of the open end of the second waterproof element 310 is connected with the transverse end of the support unit 100, and the top of the other side of the open end of the second waterproof element 310 is provided with an inclined plane for mounting the steel structure frame 700 and the glass 800; the first sealing member 320 is disposed on an outer sidewall of the closed end of the second waterproof member 310, and is in close contact with the outer building surface 600, so as to seal a gap between the waterproof unit 300 and the outer sidewall of the outer building surface 600; a plurality of mounting members 330 are opened at one side of the open end of the second waterproof member 310 in the length direction of the second waterproof member 310 for mounting the connection unit 400.

Specifically, one side of the open end of the second waterproof member 310 is fixed to the lateral end of the support member 110 by the connection unit 400.

Wherein the second waterproof member 310 is provided as a U-shaped plate.

Wherein the first sealing element 320 is a rubber pad.

Wherein the mounting elements 330 are mounting holes.

As shown in fig. 7, the connection unit 400 includes a screw member 410 and a nut member 420. Wherein a screw element 410 and a nut element 420. Wherein, the screw element 410 is inserted into the mounting element 330 of the waterproof unit 300 and is located in the second perforation element 140 of the supporting unit 100; the nut member 420 is disposed around the screw member 410 and is used for cooperating with the screw member 410 to mount the waterproof unit 300 on the supporting unit 100.

Wherein the screw element 410 is a bolt or a screw.

Wherein the nut element 420 is a nut or nut that mates with the screw element 410.

The sealing unit 500 includes a third sealing element 510, and the third sealing element 510 is disposed at the other side of the open end of the second waterproof element 310 of the waterproof unit 300, and is tightly abutted to the glass 800, so as to seal the gap between the glass 800 and the other side of the open end of the second waterproof element 310 and the glass 800, and prevent water accumulated on the glass 800 from entering the glass 800 room along the gap between the other side of the open end of the second waterproof element 310 and the glass 800.

The installation principle of the embodiment is as follows:

the worker shovels the wall decorative layer and the coating layer of the exterior building surface 600 to expose the wall structural layer;

the worker will install the vertical end of the supporting member 110 to the inside of the outer building surface 600 through the first connecting member 130;

the worker re-paints the wall decoration layer and the paint layer on the outer side of the vertical end of the support element 110 so that the support element 110 and the outer building surface 600 form a whole;

the worker sets the inclined strut member 210 on the outer building surface 600 through the coupling lug 221 and the coupling bolt 222, and then the worker couples with the corresponding screw hole member 150 through the other coupling bolt 222 to fix the second end of the inclined strut member 210 on the outer building surface 600 and make the inclined strut member 210 support the lateral end of the support member 110;

the worker inserts the screw member 410 into the installation member 330 and inserts the second penetration member 140 to be screw-coupled with the nut member 420, thereby installing the second waterproof member 310 at the lateral end of the support member 110;

finally, the worker mounts the steel structural frame 700 in the second waterproof member 310 and inserts one end of the glass 800 into the second waterproof member 310 and over the steel structural frame 700.

Example 2

This embodiment is a modified embodiment of embodiment 1, and is different from embodiment 1 only in that: the structure of the supporting unit 100 is different from that of the waterproof unit 300.

As shown in fig. 3, the supporting unit 100 further includes a first waterproof member 160, and the first waterproof member 160 is opened at a lateral end of the supporting member 110 along a length direction of the supporting member 110 and is fittingly connected to the first end of the waterproof unit 300 to seal a connection between the first end of the waterproof unit 300 and the supporting member 110.

Specifically, the first waterproof member 160 is fixedly connected to the bottom end of the second waterproof member 310.

Wherein the first waterproof member 160 is a water guard.

As shown in fig. 6, the waterproof unit 300 further includes a third waterproof member 340, the third waterproof member 340 is disposed at the bottom end of the second waterproof member 310, and is used for being connected with the first waterproof member 160 of the supporting unit 100 in a matching manner, and is used for sealing a joint between the first end of the waterproof unit 300 and the supporting member 110 in a matching manner with the first waterproof member 160.

Wherein, the third water-proofing element 340 is a water-retaining groove.

As shown in fig. 6, the waterproof unit 300 further includes a second sealing member 350, the second sealing member 350 being disposed on a sidewall of the third water prevention member 340 facing the exterior building surface 600 for sealing a gap between the third water prevention member 340 and the first waterproof member 160.

Wherein the second sealing element 350 is a sealing gasket, such as a rubber gasket.

Wherein the space between the second waterproof member 310 and the lateral ends of the support member 110 is sealed by the first waterproof member 160 and the second waterproof member 310, so that the first waterproof member 160 and the second waterproof member 310 can prevent rainwater from leaking to the inside of the glass 800 after the first sealing member 320 is aged and leaks water.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A connection structure of a glass room and an external building surface is characterized by comprising:

the supporting unit is of an L-shaped structure, the vertical end of the supporting unit is embedded in the outer building surface, and the transverse end of the supporting unit is arranged outside the outer building surface;

the inclined strut units are arranged on the outer side wall of the outer building surface along the length direction of the support units, and the top ends of the inclined strut units are fixedly connected with the transverse ends of the support units;

the waterproof unit is integrally of a U-shaped structure, the first end of the waterproof unit is connected with the top of the transverse end of the supporting unit in a matched mode, and the second end of the waterproof unit is used for installing a steel structure frame and glass;

the connecting units are arranged at the first ends of the waterproof units at intervals along the length direction of the waterproof units, are connected with the second ends of the supporting units and are used for fixing the waterproof units on the supporting units;

and the sealing unit is arranged at the second end of the waterproof unit, tightly abuts against the glass and is used for sealing a gap between the glass and the second end of the waterproof unit.

2. The connection structure according to claim 1, wherein the support unit comprises:

the vertical end of the supporting element is embedded in the outer building surface, and the transverse end of the supporting element is arranged outside the outer building surface;

the first perforation elements are arranged at the vertical ends of the supporting elements at intervals;

the first connecting elements penetrate through the corresponding first perforation elements and are connected with the outer building surface;

the second perforation elements are arranged at the transverse ends of the supporting elements at intervals and are connected with the corresponding connecting units in a matched manner;

and the threaded hole elements are arranged at the transverse ends of the supporting elements at intervals and correspond to and are matched and connected with the corresponding inclined strut units.

3. The connecting structure according to claim 2, wherein the supporting unit further comprises:

the first waterproof element is arranged at the transverse end of the supporting element along the length direction of the supporting element and is connected with the bottom end of the waterproof unit in a matched mode.

4. The connection structure according to claim 1, wherein the sprag unit includes:

the diagonal bracing element is arranged in a triangular prism shape, a first end of the diagonal bracing element is connected with the outer side wall of the outer building surface, and a second end of the diagonal bracing element is connected with the lower part of the transverse end of the supporting unit;

and the two second connecting elements are correspondingly arranged at the first end and the second end of the inclined strut element, one second connecting element is connected with the outer building surface, and the other second connecting element is connected with the transverse end of the supporting unit.

5. The connection structure according to claim 4, wherein the second connection member comprises:

the two connecting lugs are arranged on two sides of the first end of the inclined strut element or two sides of the second end of the inclined strut element;

and the two connecting bolts are correspondingly arranged on the two connecting lugs and are used for being connected with the outer building surface or the threaded hole element of the supporting unit.

6. The connection structure according to claim 1, wherein the waterproof unit includes:

the second waterproof element is of a U-shaped structure, one side of the open end of the second waterproof element is connected with the transverse end of the supporting unit, the top of the other side of the open end of the second waterproof element is provided with an inclined plane, and the second waterproof element is used for installing the steel structure frame and the glass;

the first sealing element is arranged on the outer side wall of the closed end of the second waterproof element, is tightly abutted against the outer building surface and is used for sealing a gap between the waterproof unit and the outer side wall of the outer building surface;

and the mounting elements are arranged on one side of the opening end of the second waterproof element along the length direction of the second waterproof element and used for mounting the connecting unit.

7. The connecting structure according to claim 6, wherein the waterproof unit further comprises:

and the third water prevention element is arranged at the bottom end of the second water prevention element and is used for being matched and connected with the first water prevention element of the supporting unit.

8. The connecting structure according to claim 7, wherein the waterproof unit further comprises:

and the second sealing element is arranged on the side wall of the third water-proofing element facing the outer building surface and used for sealing a gap between the third water-proofing element and the first water-proofing element.

9. The connection structure according to claim 1, wherein the connection unit comprises:

the screw element is arranged in the mounting element of the waterproof unit in a penetrating way and is positioned in the second perforation element of the supporting unit;

and the nut element is sleeved on the screw element and matched with the screw element to install the waterproof unit on the supporting unit.

10. The connection structure according to claim 1, wherein the sealing unit comprises:

and the third sealing element is arranged on the other side of the opening end of the first waterproof element of the waterproof unit and is tightly abutted with the glass.

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