CN219931349U - Curtain wall window frame fastener and point support curtain wall thereof - Google Patents

Abstract

The utility model discloses a curtain wall window frame fastener and a point-supported curtain wall (including a dragline curtain wall and a pipe curtain wall); curtain wall window frame fasteners include curtain wall window frame fastener-bodies and curtain wall window frame fastener-bases; the curtain wall window frame fastener-main body and the curtain wall window frame fastener-base are fixedly connected through a curtain wall window frame fastener-second screw; the point support curtain wall comprises a plurality of curtain wall glasses; the curtain wall glass clamps are connected with the curtain wall glass; a plurality of curtain wall glass are enclosed to form a window hole; a curtain wall window frame is arranged in the window hole; the curtain wall window frames are multiple; two adjacent curtain wall window frames are connected with the base body through the curtain wall window frame fasteners; the curtain wall window frame fastener is a curtain wall window frame fastener as previously described. Two adjacent curtain wall window frames can be connected and fixed with the basal body through curtain wall window frame fasteners; various point support curtain walls can be constructed according to actual conditions.

Description

Curtain wall window frame fastener and point support curtain wall thereof

Technical Field

The utility model relates to a fastener and a curtain wall thereof, in particular to a curtain wall window frame fastener and a point-supported curtain wall thereof.

Background

The curtain wall is an outer wall enclosure of a building, and is a light wall body with a decoration effect which is commonly used for modern large-scale and high-rise buildings. The building outer protective structure or the decorative structure is composed of a panel and a supporting structure system, can have certain displacement capacity or deformation capacity relative to the main structure, and does not bear the action of the main structure.

As shown in fig. 1, the curtain wall of the prior art comprises curtain wall glass 1 and curtain wall glass clamps 3;

the curtain wall glass clamps 3 are used for fixing the curtain wall glass 1 on the wall surface of the outer wall, and the whole wall surface is completely covered.

The curtain wall greatly influences indoor ventilation and brings great hidden danger to fire safety.

An effective method for solving the technical problems is to install an opening window on the curtain wall.

Since the curtain wall glass clamp 3 is a four curtain wall glass clamp;

the four curtain wall glass clamps comprise curtain wall glass clamps, a wall outer plate and a curtain wall glass clamp, a wall inner plate;

the four curtain wall glass clamps can clamp right angles at which the four curtain wall glasses 1 are gathered together.

Since the thickness of the curtain wall window frame is much greater than that of the curtain wall glass 1,

therefore, the four curtain wall glass clamps cannot clamp the curtain wall glass 1 and the curtain wall window frame together,

Meanwhile, the four curtain wall glass clamps can also influence the opening and use of the curtain wall window opening sash.

If the curtain wall window frame is contracted to avoid the four curtain wall glass clamps,

then there will be a large gap between the curtain wall window frame and the curtain wall glass 1.

Sealing is difficult because of the large gap.

Even if sealed, it is difficult to look into the inside.

In addition, two adjacent curtain wall window frames also need to be connected and fixed, and curtain wall opening windows are arranged in any point-supported curtain wall system and corresponding curtain wall window frame fasteners are not seen in the prior art.

Disclosure of Invention

The first technical problem to be solved by the technical scheme is to provide a curtain wall window frame fastener which can connect and fix two adjacent curtain wall window frames arranged in a point-supported curtain wall system together.

In order to solve the first technical problem, the technical proposal provides a curtain wall window frame fastener,

the curtain wall window frame fastener comprises a curtain wall window frame fastener body and a curtain wall window frame fastener base;

the curtain wall window frame fastener_main body and the curtain wall window frame fastener_base are fixedly connected through curtain wall window frame fastener_second screws.

Various modifications as the present technical means are as follows.

The curtain wall window frame fastener_main body comprises a curtain wall window frame fastener_main body_connecting strip, a curtain wall window frame fastener_main body_connecting disc and a curtain wall window frame fastener_main body_connecting column;

The curtain wall window frame fastener_main body_connecting disc and the curtain wall window frame fastener_main body_connecting column form an integral piece;

one end of the curtain wall window frame fastener_main body_connecting strip is vertically and fixedly connected with the end face of the curtain wall window frame fastener_main body_connecting disc;

the curtain wall window frame fastener_main body_connecting strip is fixedly connected with the curtain wall window frame fastener_main body_connecting disc through welding;

the curtain wall window frame fastener_main body_connecting strip, the curtain wall window frame fastener_main body_connecting disc and the curtain wall window frame fastener_main body_connecting column are coaxial.

The curtain wall window frame fastener_main body_connecting strip is shaped as a strip-shaped plate;

the curtain wall window frame fastener_main body_connecting strip is provided with at least one curtain wall window frame fastener_main body_fixing hole.

One curtain wall window frame fastener_main body_fixing hole is formed;

or,

two curtain wall window frame fastening pieces_main body_fixing holes are formed;

the two curtain wall window frame fastener_main body_fixing holes are distributed along the length direction of the curtain wall window frame fastener_main body_connecting strip.

The middle part of the end face of the curtain wall window frame fastener_main body_connecting column is provided with a curtain wall window frame fastener_main body_threaded hole;

At least one curtain wall window frame fastener_main body_fixing hole is formed in the side face of the curtain wall window frame fastener_main body_connecting column.

The wall window frame fastener_base comprises a curtain wall window frame fastener_base precursor and a curtain wall window frame fastener_base rear body;

the curtain wall window frame fastener_base precursor and the curtain wall window frame fastener_base rear body are fixedly connected through the curtain wall window frame fastener_second screw.

The curtain wall window frame fastener_base precursor comprises a curtain wall window frame fastener_base and a precursor_seat board 4_2_1 curtain wall window frame fastener_base precursor_threaded rod;

the curtain wall window frame fastener_base precursor_seat plate and the curtain wall window frame fastener_base precursor_threaded rod form an integral piece;

the shape of the curtain wall window frame fastener_base front body_seat plate is a round corner concave arc edge square;

the rear plate surface of the curtain wall window frame fastener_base front body_seat plate is provided with a curtain wall window frame fastener_base front body_rope groove;

four curtain wall window frame fastener_base precursor_thread fixing holes are distributed on the rear plate surface of the curtain wall window frame fastener_base precursor_seat plate;

the shape of the rear body of the curtain wall window frame fastener_base is a round corner concave arc edge square;

The front plate surface of the curtain wall window frame fastener_base back body is provided with a curtain wall window frame fastener_base back body_cable slot;

four curtain wall window frame fastener-base back body-fixing holes are distributed on the surface of the curtain wall window frame fastener-base back body;

four curtain wall window frame fastener_base back body_fixed holes are countersunk fixed holes.

Compared with the prior art, the curtain wall window frame fastener has the following beneficial effects.

1. According to the technical scheme, the curtain wall window frame fastener_main body and the curtain wall window frame fastener_base are fixedly connected through the curtain wall window frame fastener_second screw, so that the curtain wall window frame fastener can fixedly connect two adjacent curtain wall window frames together through the curtain wall window frame fastener_main body, and meanwhile, the curtain wall window frame fastener_base is fixedly connected with the base body.

2. The curtain wall window frame fastener_main body comprises a curtain wall window frame fastener_main body_connecting strip, a curtain wall window frame fastener_main body_connecting disc and a curtain wall window frame fastener_main body_connecting column; the curtain wall window frame fastener_main body_connecting disc and the curtain wall window frame fastener_main body_connecting column form an integral piece; one end of the curtain wall window frame fastener_main body_connecting strip is vertically and fixedly connected with the end face of the curtain wall window frame fastener_main body_connecting disc; the curtain wall window frame fastener_main body_connecting strip is fixedly connected with the curtain wall window frame fastener_main body_connecting disc through welding; the curtain wall window frame fastener_main body_connecting strip and the curtain wall window frame fastener_main body_connecting disc and the curtain wall window frame fastener_main body_connecting column are coaxial, so that the production and the manufacture of the curtain wall window frame fastener_main body are facilitated, and the strength and the rigidity of the curtain wall window frame fastener_main body are ensured.

3. The technical proposal adopts the shape of the curtain wall window frame fastener_main body_connecting strip to be a strip-shaped plate; the curtain wall window frame fastener_main body_connecting strip is provided with at least one curtain wall window frame fastener_main body_fixing hole, so that two adjacent curtain wall window frames can be fixedly connected together by means of curtain wall window frame fastener_bolts.

4. According to the technical scheme, one curtain wall window frame fastener_main body_fixing hole is adopted; or two curtain wall window frame fastener_main body_fixing holes are arranged; the two curtain wall window frame fastening pieces_main body_fixing holes are distributed along the length direction of the curtain wall window frame fastening pieces_main body_connecting strips, so that various curtain wall window frame fastening pieces can be manufactured according to actual conditions.

5. According to the technical scheme, the curtain wall window frame fastener_main body_threaded hole is formed in the middle of the end face of the curtain wall window frame fastener_main body_connecting column; the side face of the curtain wall window frame fastener_main body_connecting column is provided with at least one curtain wall window frame fastener_main body_fixing hole, so that the curtain wall window frame fastener_main body and the curtain wall window frame fastener_base are convenient to adjust and fixedly connect.

6. The technical scheme is that the wall window frame fastener_base comprises a curtain wall window frame fastener_base precursor and a curtain wall window frame fastener_base rear body; the curtain wall window frame fastener_base precursor and the curtain wall window frame fastener_base rear body are fixedly connected through the curtain wall window frame fastener_second screw, so that the curtain wall window frame fastener_base is beneficial to being fixed on a basal body.

7. The technical proposal adopts the curtain wall window frame fastener_base precursor to comprise a curtain wall window frame fastener_base and a precursor_seat board 4_2_1 curtain wall window frame fastener_base precursor_threaded rod; the curtain wall window frame fastener_base precursor_seat plate and the curtain wall window frame fastener_base precursor_threaded rod form a technical means of an integral piece, so that the strength and the rigidity of the curtain wall window frame fastener_base precursor are beneficial to ensuring.

8. The technical proposal adopts the shape of the curtain wall window frame fastener_base front body_seat board to be a round corner concave arc edge square; the rear plate surface of the curtain wall window frame fastener_base front body_seat plate is provided with a curtain wall window frame fastener_base front body_rope groove; four curtain wall window frame fastener_base front body_thread fixing holes are distributed on the rear plate surface of the curtain wall window frame fastener_base front body_seat plate; the shape of the curtain wall window frame fastener_base rear body is a round corner concave arc edge square; the front plate surface of the curtain wall window frame fastener_base back body is provided with a curtain wall window frame fastener_base back body_rope groove; the panel of the back body of the curtain wall window frame fastener_base is distributed with the technical means of four curtain wall window frame fastener_base back body_fixing holes, so that the curtain wall window frame fastener_base is favorably fixed on the base body by means of the curtain wall window frame fastener_first screw.

9. According to the technical scheme, the four curtain wall window frame fastener_base back body_fixing holes are adopted as the countersunk head fixing holes, so that the nail caps of the curtain wall window frame fastener_first screws are facilitated to sink into the plate surfaces of the curtain wall window frame fastener_base back body.

The second technical problem to be solved by the technical scheme is to provide a point support curtain wall, wherein two adjacent curtain wall window frames in the point support curtain wall can be connected and fixed together.

In order to solve the second technical problem, the technical proposal provides a point support curtain wall,

the point support curtain wall is a dragline curtain wall or a pipe curtain wall;

comprises a plurality of curtain wall glass;

the curtain wall glass clamps are connected with the curtain wall glass;

a plurality of curtain wall glass are enclosed to form a window hole;

a curtain wall window frame is arranged in the window hole;

the curtain wall window frames are multiple;

two adjacent curtain wall window frames are connected with the base body through the curtain wall window frame fasteners;

the matrix is a guy cable or a vertical pipe;

the curtain wall window frame fastener is a curtain wall window frame fastener as previously described.

Two side frame edges of the curtain wall window frame are respectively provided with a curtain wall window frame_fixing hole;

two curtain wall window frame fixing holes or four curtain wall window frame fixing holes are formed in each side frame;

The two curtain wall window frame_fixing holes are distributed along the height direction of the side frame edge;

four curtain wall window frame_fixed holes are distributed in a rectangular mode.

Compared with the prior art, the point support curtain wall has the following beneficial effects.

1. According to the technical scheme, a plurality of curtain wall glass is adopted to enclose a window hole; a curtain wall window frame is arranged in the window hole; the curtain wall window frames are multiple; two adjacent curtain wall window frames are connected with the base body through curtain wall window frame fasteners; curtain wall window frame fasteners are the technical means of curtain wall window frame fasteners as described above, so that two adjacent curtain wall window frames in the point support curtain wall can be connected and fixed together through the curtain wall window frame fasteners and the base body.

2. According to the technical scheme, as the curtain wall window frame is provided with the curtain wall window frame_fixing holes on the two side frame edges of the curtain wall window frame respectively; two curtain wall window frame fixing holes or four curtain wall window frame fixing holes are formed in each side frame; the two curtain wall window frame_fixing holes are distributed along the height direction of the side frame edges; the four curtain wall window frames and the fixing holes are rectangular, so that various point support curtain walls can be constructed according to actual conditions.

Drawings

The curtain wall window frame fastener and the point support curtain wall of the utility model are further described in detail below with reference to the accompanying drawings and the detailed description.

Fig. 1 is a schematic view of a prior art curtain wall.

Fig. 2 is a schematic view of the structure of the point curtain wall (cable curtain wall) in the present embodiment.

FIG. 3 is a schematic view of the sectional structure of line A-A in FIG. 2 (dragline curtain wall).

FIG. 4 is a schematic view of the cross-sectional view taken along line B-B in FIG. 2 (dragline curtain wall).

Fig. 5 is a schematic view showing the front view of the entire curtain wall glass jig (cable curtain wall) according to the present embodiment.

Fig. 6 is a schematic diagram of the left-hand structure of the entire curtain wall glass jig (cable curtain wall) according to the present embodiment.

Fig. 7 is a schematic top view of the entire curtain wall glass jig (cable curtain wall) according to the present embodiment.

Fig. 8 is a schematic diagram of the front view of the four-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 9 is a schematic view showing a rear view of a four-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 10 is a schematic view of the structure of the four-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 11 is a schematic plan view of a four-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 12 is a schematic view showing a front view of a four-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 13 is a schematic view showing a rear view of a four-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 14 is a schematic view showing a left-hand structure of a four-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 15 is a schematic plan view of a four-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 16 is a schematic view showing a front view of a three-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 17 is a schematic view of the rear view structure of the three curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 18 is a schematic view of the structure of the three-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 19 is a schematic plan view of a three-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 20 is a schematic view showing a front view of a three-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 21 is a schematic view showing a rear view of a three-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 22 is a schematic view showing a left-hand structure of a three-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 23 is a schematic plan view of a three-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 24 is a schematic view showing a front view of a transverse double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 25 is a schematic view showing a rear view of a transverse double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 26 is a schematic view of the left-hand structure of the transverse double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 27 is a schematic view showing a top view structure of a transverse double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 28 is a schematic view showing a front view of a glass clip-wall inner panel of a transverse double curtain wall (a cable curtain wall) in the present embodiment.

Fig. 29 is a schematic view showing a rear view of a glass clip-wall inner panel of a transverse double curtain wall (a cable curtain wall) in the present embodiment.

Fig. 30 is a schematic view of the left-hand structure of the transverse double-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 31 is a schematic view showing a top view structure of a transverse double-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 32 is a schematic diagram of a front view of a vertical double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 33 is a schematic view of the rear view structure of the vertical double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 34 is a schematic view of the left-hand structure of the vertical double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 35 is a schematic view of a top view structure of a vertical double-curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 36 is a schematic view showing a front view of a vertical double-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 37 is a schematic view of the rear view structure of the vertical double curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 38 is a schematic view of the left-hand structure of the vertical double-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 39 is a schematic diagram showing a top view structure of a vertical double-curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 40 is a schematic view showing a front view of a double-wall glass jig-wall outer panel (cable curtain wall) for a counter-top corner in the present embodiment.

Fig. 41 is a schematic view showing a rear view of a double-wall glass jig-wall outer panel for a counter-top corner in this embodiment (cable curtain wall).

Fig. 42 is a schematic view showing a left-hand structure of the double-wall glass jig-wall outer panel (cable curtain wall) for the opposite vertex angle in the present embodiment.

Fig. 43 is a schematic view showing a top view structure of a double-wall glass jig-wall outer panel (cable curtain wall) for a counter angle in the present embodiment.

Fig. 44 is a schematic view showing a front view of a double-wall glass jig-wall inner panel for a counter-top corner in this embodiment (cable curtain wall).

Fig. 45 is a schematic view showing a rear view of a double-wall glass jig-wall inner panel for a counter-top corner in this embodiment (cable curtain wall).

Fig. 46 is a schematic view showing a left-hand structure of the double-wall glass jig-wall inner panel for the opposite-roof angle in the present embodiment (cable curtain wall).

Fig. 47 is a schematic view showing a top view structure of a double-wall glass jig-wall inner panel for a counter angle in the present embodiment (cable curtain wall).

Fig. 48 is a schematic diagram showing a front view of a single curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 49 is a schematic view showing a rear view of a single curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 50 is a schematic view showing a left-hand structure of a single curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 51 is a schematic plan view of a single curtain wall glass jig-wall outer panel (cable curtain wall) in the present embodiment.

Fig. 52 is a schematic diagram showing a front view of a single curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 53 is a schematic view showing a rear view of a single curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 54 is a schematic left-view structural view of a single curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 55 is a schematic plan view of a single curtain wall glass jig-wall inner panel (cable curtain wall) in the present embodiment.

Fig. 56 is a schematic view showing a front view of each curtain wall glass jig-adaptor (cable curtain wall) in the present embodiment.

Fig. 57 is a schematic view of the structure of each curtain wall glass jig-adaptor-standby master (cable curtain wall) in this embodiment.

Fig. 58 is a schematic diagram showing a front view of each of the curtain wall glass jig-base precursors (cable curtain wall) in the present embodiment.

Fig. 59 is a schematic view showing a rear view of each of the curtain wall glass jig-base precursors (cable curtain wall) in the present embodiment.

Fig. 60 is a schematic left-hand view of the structure of each curtain wall glass jig-base precursor (cable curtain wall) in the present embodiment.

Fig. 61 is a schematic top view of each curtain wall glass jig-base precursor (cable curtain wall) in the present embodiment.

Fig. 62 is a schematic diagram showing a front view of the rear body of each curtain wall glass jig-base (cable curtain wall) in the present embodiment.

Fig. 63 is a schematic view showing a rear view of the rear body of each curtain wall glass jig-base (cable curtain wall) in the present embodiment.

Fig. 64 is a schematic left-view structural diagram of each curtain wall glass jig-base rear body (cable curtain wall) in the present embodiment.

Fig. 65 is a schematic top view of each curtain wall glass jig-base rear body (cable curtain wall) in the present embodiment.

Fig. 66 is a schematic view of the front view structure of a curtain wall window frame fastener (dragline curtain wall) in the present embodiment.

Fig. 67 is a schematic left-view structural view of a curtain wall window frame fastener (cable curtain wall) in the present embodiment.

Fig. 68 is a schematic top view of a curtain wall window frame fastener (cable curtain wall) in the present embodiment.

Fig. 69 is a schematic front view of the curtain wall window frame fastener-body (cable curtain wall) in the present embodiment.

Fig. 70 is a schematic view of a left-hand construction of a curtain wall window frame fastener-body (dragline curtain wall) in this embodiment.

Fig. 71 is a right-side view of the curtain wall window frame fastener-body (dragline curtain wall) in the present embodiment.

Fig. 72 is a schematic plan view of the curtain wall window frame fastener-body (cable curtain wall) in the present embodiment.

Fig. 73 is a schematic view showing a front view of a fastener-base precursor of a curtain wall window frame in the present embodiment (a cable curtain wall).

Fig. 74 is a schematic view showing a rear view structure of a curtain wall window frame fastener-base precursor (dragline curtain wall) in the present embodiment.

Fig. 75 is a schematic view of the left-hand construction of the curtain wall window frame fastener-base precursor (dragline curtain wall) in this embodiment.

Fig. 76 is a schematic top view of a curtain wall window frame fastener-base precursor (dragline curtain wall) in this embodiment.

Fig. 77 is a schematic view showing a front view of a fastener-base rear body of a curtain wall window frame (a cable curtain wall) in the present embodiment.

Fig. 78 is a schematic view showing a rear view of a fastener-base rear body of a curtain wall window frame in this embodiment (a cable curtain wall).

Fig. 79 is a schematic left-view structural view of a curtain wall window frame fastener-base rear body (dragline curtain wall) in the present embodiment.

Fig. 80 is a schematic top view of a curtain wall window frame fastener-base rear body (cable curtain wall) in the present embodiment.

Fig. 81 is a schematic view of the structure of the point curtain wall at the curtain wall glass jig (tube curtain wall) in the present embodiment.

Fig. 82 is a schematic view of the structure of the point curtain wall at the fastening of the curtain wall window frame (tube curtain wall) in this embodiment.

Fig. 83 is a schematic view of the entire structure of each curtain wall glass jig (tube curtain wall) in the present embodiment.

Fig. 84 is a schematic structural view of a curtain wall window frame fastener (tube curtain wall) in the present embodiment.

Reference numerals are explained as follows.

1 to curtain wall glass;

2-curtain wall window frames;

2-1 to curtain wall window frames-fixing holes;

3-curtain wall glass clamps;

3-1 to curtain wall glass clamp-wall outer plate;

3-1-1 to curtain wall glass clamp-outer plate-screw thread fixed hole;

3-1-2-curtain wall glass clamp-outer plate-sphere;

3-1-3-curtain wall glass clamp-outer plate-inclined plane;

3-2 to curtain wall glass clamps-wall inner plates;

3-2-1 to curtain wall glass clamp-wall inner plate-fixing hole;

3-2-curtain wall glass clamp-wall inner plate-supporting reinforcing rib;

3-2-3-curtain wall glass clamp-wall inner plate-threaded rod;

3-3 to curtain wall glass clamp-adapter;

3-3-1 to curtain wall glass clamp-adapter-thread sleeve;

3-3-2-curtain wall glass clamp-adapter-standby master;

3-3-3-curtain wall glass clamp-adapter-screwing hole;

3-4 to curtain wall glass clamp-base precursor;

3-4-1 to curtain wall glass clamp-base precursor-seat board;

3-4-2-curtain wall glass clamp-base precursor-threaded rod;

3-4-3 to curtain wall glass clamp-base precursor-rope groove;

3-4-4 to curtain wall glass clamp-base precursor-thread fixing holes;

3-5 to curtain wall glass clamp-base back body;

3-5-1 to curtain wall glass clamp-base back body-rope groove;

3-5-2-curtain wall glass clamp-base back body-fixing hole;

3-6 to curtain wall glass clamp-first screw;

3-7 to curtain wall glass clamp-second screw;

3-8 to curtain wall glass clamps-gaskets;

3-9 to curtain wall glass clamp-spherical hinge;

3-1-A to a curtain wall glass clamp-a wall outer plate-a single right angle avoidance area;

3-2-A-a curtain wall glass clamp-wall inner plate-single right angle avoiding area;

3-1-B to a curtain wall glass clamp-a wall outer plate-a transverse double right angle avoidance area;

3-2-B-a curtain wall glass clamp-a wall inner plate-a transverse double right angle avoidance area;

3-1-C-curtain wall glass clamp-wall outer plate-vertical double right angle avoiding area;

3-2-C-curtain wall glass clamp-wall inner plate-vertical double right angle avoiding area;

3-1-D, namely a curtain wall glass clamp-wall outer plate-opposite vertex angle double right angle avoiding area;

3-2-D-a curtain wall glass clamp-a wall inner plate-a opposite vertex angle double right angle avoidance area;

3-1-E-a curtain wall glass clamp-a wall outer plate-a three-right angle avoidance area;

3-2-E-curtain wall glass clamp-wall inner plate-three right angle avoidance areas;

30-four curtain wall glass clamps;

3A to three curtain wall glass clamps;

3B-a transverse double curtain wall glass clamp;

3C-vertical double curtain wall glass clamp;

3D-opposite angle double curtain wall glass clamp;

3E-single curtain wall glass clamp;

4-curtain wall window frame fasteners;

4-1 to curtain wall window frame fastener-body;

4-1-1 to curtain wall window frame fastener-main body-connecting strip;

4-1-2 to curtain wall window frame fastener-main body-connecting disc;

4-1-3 to curtain wall window frame fastener-main body-connecting column;

4-1-4 to curtain wall window frame fastener-main body-first fixing hole;

4-1-5 to curtain wall window frame fastener-main body-threaded hole;

4-1-6 to curtain wall window frame fastener-main body-second fixing hole;

4-2 to curtain wall window frame fastener-base precursor;

4-2-1 to curtain wall window frame fastener-base precursor-seat board;

4-2-curtain wall window frame fastener-base precursor-threaded rod;

4-2-3 to curtain wall window frame fastener-base precursor-rope groove;

4-2-4 to curtain wall window frame fastener-base precursor-thread fixing hole;

4-3 to curtain wall window frame fastener-base rear body;

4-3-1 to curtain wall window frame fastener-base back body-rope groove;

4-3-2-curtain wall window frame fastener-base back body-fixing hole;

4-4 to curtain wall window frame fasteners-first screws;

4-5 to curtain wall window frame fasteners-second screws;

4-6 to curtain wall window frame fastener-bolt;

5-base body;

l1 to a transverse symmetry line;

l2 to a longitudinal symmetry line.

Detailed Description

The first technical problem to be solved by this embodiment is to provide a curtain wall window frame fastener which can connect and fix two adjacent curtain wall window frames together.

As shown in figures 2, 4 and 66-80,

in order to solve the first technical problem, the present embodiment provides a curtain wall window frame fastener,

the curtain wall window frame fastener 4 includes a curtain wall window frame fastener-body 4-1 and a curtain wall window frame fastener-base;

the curtain wall window frame fastener-main body 4-1 and the curtain wall window frame fastener-base are fixedly connected through the curtain wall window frame fastener-second screw 4-5.

In the embodiment, the curtain wall window frame fastener-main body 4-1 and the curtain wall window frame fastener-base are fixedly connected through the curtain wall window frame fastener-second screw 4-5, so that the curtain wall window frame fastener can fixedly connect two adjacent curtain wall window frames 2 together through the curtain wall window frame fastener-main body 4-1, and meanwhile, the curtain wall window frame fastener-base is fixedly connected with the base body 5.

As shown in figures 69 to 72 of the drawings,

the curtain wall window frame fastener-main body 4-1 comprises a curtain wall window frame fastener-main body-connecting strip 4-1-1, a curtain wall window frame fastener-main body-connecting disc 4-1-2 and a curtain wall window frame fastener-main body-connecting column 4-1-3;

the curtain wall window frame fastener-main body-connecting disc 4-1-2 and the curtain wall window frame fastener-main body-connecting column 4-1-3 form an integral piece;

one end of a curtain wall window frame fastener-main body-connecting strip 4-1-1 is vertically and fixedly connected with the end face of the curtain wall window frame fastener-main body-connecting disc 4-1-2;

the curtain wall window frame fastener-main body-connecting strip 4-1-1 is fixedly connected with the curtain wall window frame fastener-main body-connecting disc 4-1-2 through welding;

the curtain wall window frame fastener-main body-connecting strip 4-1-1, the curtain wall window frame fastener-main body-connecting disc 4-1-2 and the curtain wall window frame fastener-main body-connecting column 4-1-3 are coaxial.

In the embodiment, the curtain wall window frame fastener-main body 4-1 comprises a curtain wall window frame fastener-main body-connecting strip 4-1, a curtain wall window frame fastener-main body-connecting disc 4-1-2 and a curtain wall window frame fastener-main body-connecting column 4-1-3; the curtain wall window frame fastener-main body-connecting disc 4-1-2 and the curtain wall window frame fastener-main body-connecting column 4-1-3 form an integral piece; one end of a curtain wall window frame fastener-main body-connecting strip 4-1-1 is vertically and fixedly connected with the end face of the curtain wall window frame fastener-main body-connecting disc 4-1-2; the curtain wall window frame fastener-main body-connecting strip 4-1-1 is fixedly connected with the curtain wall window frame fastener-main body-connecting disc 4-1-2 through welding; the curtain wall window frame fastener-main body-connecting strip 4-1-1, the curtain wall window frame fastener-main body-connecting disc 4-1-2 and the curtain wall window frame fastener-main body-connecting column 4-1-3 are coaxial, so that the curtain wall window frame fastener-main body 4-1 is beneficial to the production and the manufacture of the curtain wall window frame fastener-main body 4-1 and the strength and the rigidity of the curtain wall window frame fastener-main body 4-1 are beneficial to the assurance.

The shape of the curtain wall window frame fastener-main body-connecting strip 4-1-1 is a strip-shaped plate;

at least one curtain wall window frame fastener-main body-first fixing hole 4-1-4 is formed in the curtain wall window frame fastener-main body-connecting strip 4-1-1.

In the embodiment, the curtain wall window frame fastener-main body-connecting strip 4-1-1 is in the shape of a strip plate; the curtain wall window frame fastener-main body-connecting strip 4-1-1 is provided with at least one curtain wall window frame fastener-main body-first fixing hole 4-1-4, so that two adjacent curtain wall window frames 2 can be fixedly connected together by means of the curtain wall window frame fastener-bolt 4-6.

One curtain wall window frame fastener-main body-first fixing hole 4-1-4;

or,

the number of the curtain wall window frame fastener-main body-first fixing holes 4-1-4 is two;

the two curtain wall window frame fastener-body-first fixing holes 4-1-4 are distributed along the length direction of the curtain wall window frame fastener-body-connecting strip 4-1-1.

In the embodiment, one curtain wall window frame fastener is adopted, namely a main body and one first fixing hole 4-1-4 are formed; alternatively, the curtain wall window frame fastener-main body-first fixing holes 4-1-4 are two; the two curtain wall window frame fasteners-main bodies-first fixing holes 4-1-4 are distributed along the length direction of the curtain wall window frame fasteners-main bodies-connecting strips 4-1-1, so that various curtain wall window frame fasteners can be manufactured according to actual conditions.

The middle part of the end face of the curtain wall window frame fastener-main body-connecting column 4-1-3 is provided with a curtain wall window frame fastener-main body-threaded hole 4-1-5;

At least one curtain wall window frame fastener-main body-second fixing hole 4-1-6 is arranged on the side face of the curtain wall window frame fastener-main body-connecting column 4-1-3.

In the embodiment, the curtain wall window frame fastener-main body-threaded hole 4-1-5 is formed in the middle of the end face of the curtain wall window frame fastener-main body-connecting column 4-1-3; the side surface of the curtain wall window frame fastener-main body-connecting column 4-1-3 is provided with at least one curtain wall window frame fastener-main body-second fixing hole 4-1-6, so that the curtain wall window frame fastener-main body 4-1 and the curtain wall window frame fastener-base are in favor of adjusting and fixing connection.

The wall window frame fastener-base comprises a curtain wall window frame fastener-base precursor 4-2 and a curtain wall window frame fastener-base rear body 4-3;

the curtain wall window frame fastener-base front body 4-2 and the curtain wall window frame fastener-base rear body 4-3 are fixedly connected through the curtain wall window frame fastener-second screw 4-5.

The wall window frame fastener-base comprises a curtain wall window frame fastener-base front body 4-2 and a curtain wall window frame fastener-base rear body 4-3; the curtain wall window frame fastener-base front body 4-2 and the curtain wall window frame fastener-base rear body 4-3 are fixedly connected through the curtain wall window frame fastener-second screw 4-5, so that the curtain wall window frame fastener-base is favorably fixed on the base body 5.

As shown in figures 73 to 80 of the drawings,

curtain wall window frame fastener-base precursor 4-2 includes curtain wall window frame fastener-base and precursor-seat pan 4-2-1 curtain wall window frame fastener-base precursor-threaded rod 4-2-2;

the curtain wall window frame fastener-base precursor-seat board 4-2-1 and the curtain wall window frame fastener-base precursor-threaded rod 4-2-2 form an integral piece;

the shape of the curtain wall window frame fastener-base precursor-seat board 4-2-1 is a round corner concave arc edge square;

the rear panel of the curtain wall window frame fastener-base precursor-seat board 4-2-1 is provided with a curtain wall window frame fastener-base precursor-cable slot 4-2-3;

four curtain wall window frame fastener-base precursor-thread fixing holes 4-2-4 are distributed on the rear plate surface of the curtain wall window frame fastener-base precursor-seat plate 4-2-1;

the shape of the curtain wall window frame fastener-base rear body 4-3 is a round corner concave arc edge square;

the front plate surface of the curtain wall window frame fastener-base back body 4-3 is provided with a curtain wall window frame fastener-base back body-cable slot 4-3-1;

four curtain wall window frame fastener-base back body-fixing holes 4-3-2 are distributed on the surface of the curtain wall window frame fastener-base back body 4-3;

the four curtain wall window frame fasteners, the base back body and the fixing holes 4-3-2 are countersunk fixing holes.

In the embodiment, the curtain wall window frame fastener-base precursor 4-2 comprises a curtain wall window frame fastener-base and a precursor-seat plate 4-2-1 curtain wall window frame fastener-base precursor-threaded rod 4-2-2; the curtain wall window frame fastener-base precursor-seat board 4-2-1 and curtain wall window frame fastener-base precursor-threaded rod 4-2-2 form a technical means of an integral piece, so that the strength and rigidity of the curtain wall window frame fastener-base precursor 4-2 are favorable to be ensured.

In the embodiment, the shape of the curtain wall window frame fastener-base precursor-seat board 4-2-1 is a round corner concave arc edge square; the rear panel of the curtain wall window frame fastener-base precursor-seat board 4-2-1 is provided with a curtain wall window frame fastener-base precursor-cable slot 4-2-3; four curtain wall window frame fastener-base precursor-thread fixing holes 4-2-4 are distributed on the rear plate surface of the curtain wall window frame fastener-base precursor-seat plate 4-2-1; the shape of the curtain wall window frame fastener-base rear body 4-3 is a round corner concave arc edge square; the front plate surface of the curtain wall window frame fastener-base back body 4-3 is provided with a curtain wall window frame fastener-base back body-cable slot 4-3-1; the panel of the curtain wall window frame fastener-base back body 4-3 is distributed with four curtain wall window frame fastener-base back body-fixing holes 4-3-2, so that the curtain wall window frame fastener-base is favorably fixed on the base body 5 by means of the curtain wall window frame fastener-first screw 4-4.

In the embodiment, the four curtain wall window frame fastening pieces-base back body-fixing holes 4-3-2 are adopted as the technical means of countersunk head fixing holes, so that the nail caps of the curtain wall window frame fastening pieces-first screws 4-4 are beneficial to sinking into the plate surfaces of the curtain wall window frame fastening pieces-base back body 4-3.

The curtain wall window frame fastener is a inhaul cable curtain wall window frame fastener;

of course, as shown in fig. 84, the curtain wall window frame fastener may be a tube curtain wall window frame fastener.

A second technical problem to be solved by the present embodiment is to provide a point-supported curtain wall, in which two adjacent curtain wall window frames can be connected and fixed together.

As shown in figures 2, 4, 66-80, 82 and 84,

in order to solve the second technical problem, the present embodiment provides a point-supported curtain wall,

the point-supported curtain wall is a dragline curtain wall (see fig. 4) or a pipe curtain wall (see fig. 82);

comprising a plurality of curtain wall glasses 1;

the curtain wall glass clamps 3 are connected with the curtain wall glass 1;

a plurality of curtain wall glass 1 are enclosed to form a window hole;

a curtain wall window frame 2 is arranged in the window hole;

the curtain wall window frames 2 are multiple;

two adjacent curtain wall window frames 2 are connected with a base body 5 through curtain wall window frame fasteners 4;

the base 5 is a cable (see fig. 4);

the inhaul cable is fixedly connected with the inhaul cable curtain wall window frame fastener through a screw;

of course, it can also be a riser (see FIG. 82)

The vertical pipe is fixedly connected with a window frame fastener of the pipe curtain wall through welding;

the curtain wall window frame fastener 4 is a curtain wall window frame fastener as previously described.

In the embodiment, a plurality of curtain wall glass 1 is adopted to enclose a window hole; a curtain wall window frame 2 is arranged in the window hole; the curtain wall window frames 2 are multiple; two adjacent curtain wall window frames 2 are connected with a base body 5 through curtain wall window frame fasteners 4; the curtain wall window frame fastener 4 is a technical means of the curtain wall window frame fastener as described above, so that two adjacent curtain wall window frames in the point support curtain wall can be connected and fixed together with the base body 5 through the curtain wall window frame fastener 4.

As shown in figure 4 of the drawings,

two side frame edges of the curtain wall window frame 2 are respectively provided with curtain wall window frame-fixing holes 2-1;

two curtain wall window frames-fixing holes 2-1 or four curtain wall window frames-fixing holes 2-1 are formed in each side frame;

the two curtain wall window frames-fixing holes 2-1 are distributed along the height direction of the side frame edges;

the four curtain wall window frames-fixing holes 2-1 are distributed in a rectangular shape.

In the embodiment, as the curtain wall window frame 2 is adopted, two side frame edges of the curtain wall window frame 2 are respectively provided with curtain wall window frame-fixing holes 2-1; two curtain wall window frames-fixing holes 2-1 or four curtain wall window frames-fixing holes 2-1 are formed in each side frame; the two curtain wall window frames-fixing holes 2-1 are distributed along the height direction of the side frame edges; the four curtain wall window frames and the fixing holes 2-1 are rectangular, so that various point support curtain walls can be constructed according to actual conditions.

The third technical problem that this embodiment to solve is to provide a curtain glass anchor clamps, and the glass curtain that installs with this curtain glass anchor clamps can reduce the clearance between curtain glass and the curtain window frame greatly, is favorable to sealing between curtain glass and the curtain window frame, greatly increased the wholeness effect between curtain glass and the curtain window frame.

As shown in figures 2 to 3 and figures 5 to 65,

in order to solve the third technical problem, the present embodiment provides a curtain wall glass fixture,

comprising four curtain wall glass clamps 30;

the device also comprises at least one of a three-curtain wall glass clamp 3A, a transverse double-curtain wall glass clamp 3B, a vertical double-curtain wall glass clamp 3C, a double-curtain wall glass clamp 3D with opposite vertex angles and a single-curtain wall glass clamp 3E;

the curtain wall glass clamp-wall outer plate 3-1 of the three curtain wall glass clamps 3A is provided with a curtain wall glass clamp-wall outer plate-single right angle avoidance zone 3-1-A;

the curtain wall glass clamp-wall inner plate 3-2 of the three curtain wall glass clamps 3A is provided with a curtain wall glass clamp-wall inner plate-single right angle avoidance zone 3-2-A;

the positions of the curtain wall glass clamp, the wall outer plate and the single right angle avoidance area 3-1-A correspond to the positions of the curtain wall glass clamp, the wall inner plate and the single right angle avoidance area 3-2-A;

The curtain wall glass clamp-wall outer plate 3-1 of the transverse double curtain wall glass clamp 3B is provided with a curtain wall glass clamp-wall outer plate-transverse double right angle avoidance zone 3-1-B;

the curtain wall glass clamp-wall inner plate 3-2 of the transverse double curtain wall glass clamp 3B is provided with a curtain wall glass clamp-wall inner plate-transverse double right angle avoidance zone 3-2-B;

the positions of the curtain wall glass clamp, the wall outer plate and the transverse double right angle avoidance areas 3-1-B correspond to the positions of the curtain wall glass clamp, the wall inner plate and the transverse double right angle avoidance areas 3-2-B;

the curtain wall glass clamp-wall outer plate 3-1 of the vertical double curtain wall glass clamp 3C is provided with a curtain wall glass clamp-wall outer plate-vertical double right angle avoidance zone 3-1-C;

the curtain wall glass clamp-wall inner plate 3-2 of the vertical double curtain wall glass clamp 3C is provided with a curtain wall glass clamp-wall inner plate-vertical double right angle avoidance zone 3-2-C;

the positions of the curtain wall glass clamp, the wall outer plate and the vertical double right angle avoidance areas 3-1-C correspond to the positions of the curtain wall glass clamp, the wall inner plate and the vertical double right angle avoidance areas 3-2-C;

the curtain wall glass clamp-wall outer plate 3-1 of the opposite vertex angle double curtain wall glass clamp 3D is provided with a curtain wall glass clamp-wall outer plate-opposite vertex angle double right angle avoidance zone 3-1-D;

the curtain wall glass clamp-wall inner plate 3-2 of the opposite vertex angle double curtain wall glass clamp 3D is provided with a curtain wall glass clamp-wall inner plate-opposite vertex angle double right angle avoidance zone 3-2-D;

The positions of the curtain wall glass clamp, the wall outer plate and the opposite vertex angle double right angle avoidance areas 3-1-D correspond to the positions of the curtain wall glass clamp, the wall inner plate and the opposite vertex angle double right angle avoidance areas 3-2-D;

the curtain wall glass clamp-wall outer plate 3-1 of the single curtain wall glass clamp 3E is provided with a curtain wall glass clamp-wall outer plate-three right angle avoidance zone 3-1-E;

the curtain wall glass clamp-wall inner plate 3-2 of the single curtain wall glass clamp 3E is provided with a curtain wall glass clamp-wall inner plate-three right angle avoidance zone 3-2-E;

the positions of the curtain wall glass clamp, the wall outer plate and the three right angle avoidance areas 3-1-E correspond to the positions of the curtain wall glass clamp, the wall inner plate and the three right angle avoidance areas 3-2-E.

In this embodiment, the four curtain wall glass clamps 30, the three curtain wall glass clamps 3A, the transverse double curtain wall glass clamps 3B, the vertical double curtain wall glass clamps 3C, the opposite-vertex angle double curtain wall glass clamps 3D and the single curtain wall glass clamps 3E are adopted, so that the glass curtain wall installed by the curtain wall glass clamps can greatly reduce the gap between the curtain wall glass and the curtain wall window frame, is favorable for sealing between the curtain wall glass and the curtain wall window frame, and greatly increases the integral effect between the curtain wall glass and the curtain wall window frame.

The following is a detailed description of various modifications of the present embodiment.

As shown in figures 8 to 15 of the drawings,

the shape of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30 is a symmetrical plate symmetrical about a transverse symmetry line L1 and symmetrical about a longitudinal symmetry line L2;

the shape of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30 is rectangular, square, oval, round or drum;

the front plate surface of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30 consists of a curtain wall glass clamp-wall outer plate-spherical surface 3-1-2 and two curtain wall glass clamps-wall outer plates-spherical surfaces 3-1-2;

the left and right sides of the rear plate surface of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30 are respectively provided with curtain wall glass clamp-wall outer plate-thread fixing holes 3-1-1 on a transverse symmetry line L1.

The front plate surface of the curtain wall glass clamp-wall inner plate 3-2 of the four curtain wall glass clamps 30 is positioned in the area of the transverse symmetrical line L1 and the longitudinal symmetrical line L2 and extends forwards to form the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the transverse curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2 is symmetrical about a transverse symmetry line L1;

the vertical curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2 is symmetrical about a vertical symmetry line L2;

the shape of the curtain wall glass clamp, the wall inner plate and the supporting reinforcing ribs 3-2-2 is in a cross shape;

The end parts of the curtain wall glass clamp, the wall inner plate and the supporting reinforcing ribs 3-2-2 are retracted into the edges of the front plate surfaces of the curtain wall glass clamp, the wall inner plate 3-2;

the left and right sides of the rear plate surface of the curtain wall glass clamp-wall inner plate 3-2 of the four curtain wall glass clamps 30 are respectively provided with curtain wall glass clamp-wall inner plate-fixing holes 3-2-1 on a transverse symmetry line L1;

the curtain wall glass clamp, the wall inner plate and the fixing hole 3-2-1 are countersunk fixing holes;

the center of the rear plate surface of the curtain wall glass clamp-wall inner plate 3-2 of the four curtain wall glass clamps 30 is provided with a curtain wall glass clamp-wall inner plate-threaded rod 3-2-3.

In the present embodiment, the shape of the curtain wall glass jig-outer panel 3-1 using the four curtain wall glass jigs 30 is a symmetrical plate symmetrical about the transverse symmetry line L1 and symmetrical about the longitudinal symmetry line L2, so that the tightening force on the four curtain wall glasses can be made uniform.

In the present embodiment, since the technical means of rectangular, square, oval, round or drum shape is adopted as the shape of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30, various curtain wall glass clamps can be manufactured according to different user demands;

in this embodiment, the left and right sides of the rear plate surface of the curtain wall glass clamp-wall outer plate 3-1 of the four curtain wall glass clamps 30 are respectively provided with the technical means of arranging the curtain wall glass clamp-wall outer plate-thread fixing holes 3-1-1 on the transverse symmetry line L1, so that the rotation of the curtain wall glass clamp-wall outer plate 3-1 can be prevented, and the clamping fastness can be improved.

In the embodiment, the front plate surface of the curtain wall glass clamp-wall inner plate 3-2 adopting the four curtain wall glass clamps 30 is positioned in the area of the transverse symmetrical line L1 and the longitudinal symmetrical line L2 and extends forwards to form the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2; the transverse curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2 is symmetrical about a transverse symmetry line L1; the vertical curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2 is symmetrical about a vertical symmetry line L2; the shape of the curtain wall glass clamp, the wall inner plate and the supporting reinforcing ribs 3-2-2 is in a cross shape; the end parts of the curtain wall glass clamp, the wall inner plate and the supporting reinforcing ribs 3-2-2 are retracted into the edges of the front plate surface of the curtain wall glass clamp, the wall inner plate 3-2, so that the curtain wall glass 1 is supported, the curtain wall glass 1 is prevented from moving transversely, and avoidance spaces can be provided for two ends of the sealing rubber strips.

In the embodiment, as the left side and the right side of the rear plate surface of the curtain wall glass clamp-wall inner plate 3-2 of the four curtain wall glass clamps 30 are positioned on the transverse symmetry line L1, curtain wall glass clamps-wall inner plate-fixing holes 3-2-1 are respectively formed; the curtain wall glass clamp-wall inner plate-fixing hole 3-2-1 is a countersunk fixing hole technical means, so that the curtain wall glass 1 is firmly fixed, and the nuts of the curtain wall glass clamp-second screw 3-7 can be sunk behind the curtain wall glass clamp-wall inner plate-fixing hole 3-2-1.

In this embodiment, the technical means of arranging the curtain wall glass clamp-wall inner plate-threaded rod 3-2-3 at the center of the rear plate surface of the curtain wall glass clamp-wall inner plate 3-2 of the four curtain wall glass clamps 30 is adopted, so that connection with the curtain wall glass clamp-base is facilitated.

As shown in figures 16 to 23 of the drawings,

the shape of the curtain wall glass clamp, the wall outer plate and the single right angle avoidance area 3-1-A is a concave right angle notch;

the transverse edge size of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1;

the vertical edge size of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1;

the shape of the curtain wall glass clamp, the wall inner plate and the single right angle avoidance area 3-2-A is a concave right angle notch;

the transverse edge size of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2;

the vertical edge size of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2;

the transverse edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

The vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is close to or positioned on the vertical rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the distance between the transverse edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance zone 3-2-A and the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the transverse edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance zone 3-1-A and the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

the distance between the vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance zone 3-2-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance zone 3-1-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1;

the difference between the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance zone 3-1-A to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance zone 3-2-A to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm;

the difference between the distance from the vertical edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A to the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A to the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm.

In the embodiment, the shape of the curtain wall glass clamp, the wall outer plate and the single right angle avoidance area 3-1-A is a concave right angle notch; the transverse edge size of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1; the vertical edge size of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1; the shape of the curtain wall glass clamp, the wall inner plate and the single right angle avoidance area 3-2-A is a concave right angle notch; the transverse edge size of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2; the vertical edge size of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2; the transverse edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2; the vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance zone 3-2-A is close to or positioned on the vertical rib side face of the curtain wall glass clamp-wall inner plate-support reinforcing rib 3-2-2, so that the strength of the curtain wall glass clamp-wall inner plate-support reinforcing rib 3-2-2 of the three curtain wall glass clamps 3A can be ensured.

In the embodiment, the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1; the distance between the vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1, so that the frame angle of the curtain wall window frame 2 is favorable for being sequentially inserted into the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A and the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A.

In the embodiment, as the difference between the distance from the transverse edge of the curtain wall glass clamp-outer wall plate-single right angle avoidance area 3-1-A to the transverse symmetry line L1 of the curtain wall glass clamp-outer wall plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-inner wall plate-single right angle avoidance area 3-2-A to the transverse symmetry line L1 of the curtain wall glass clamp-inner wall plate 3-2 is 2mm; the difference between the vertical edge of the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the difference between the vertical edge of the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm, so that the method is beneficial to sequentially inserting the frame angle of the curtain wall window frame 2 into the curtain wall glass clamp-wall inner plate-single right angle avoidance area 3-2-A and the curtain wall glass clamp-wall outer plate-single right angle avoidance area 3-1-A, and is beneficial to reducing the gap between the curtain wall window frame 2 and the curtain wall glass 1 as much as possible.

As shown in figures 24 to 31 of the drawings,

the shape of the curtain wall glass clamp, the wall outer plate and the transverse double right angle avoidance area 3-1-B is a transverse edge flat angle notch;

the transverse edge size of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance area 3-1-B is close to the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1;

the transverse edge of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance zone 3-1-B is close to a transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

the shape of the curtain wall glass clamp, the wall inner plate and the transverse double right angle avoidance area 3-2-B is a flat angle notch;

the transverse edge size of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B is close to the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2;

the transverse edge of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the distance between the transverse edge of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B and the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the transverse edge of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance area 3-1-B and the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

The difference between the distance from the lateral edge of the curtain wall glass clamp-wall outer plate-lateral double right angle avoidance region 3-1-B to the lateral symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the lateral edge of the curtain wall glass clamp-wall inner plate-lateral double right angle avoidance region 3-2-B to the lateral symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm.

In the embodiment, the shape of the curtain wall glass clamp-the outer plate-the transverse double right angle avoidance area 3-1-B is a transverse edge flat angle notch; the transverse edge size of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance area 3-1-B is close to the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1; the transverse edge of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance zone 3-1-B is close to a transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1; the shape of the curtain wall glass clamp, the wall inner plate and the transverse double right angle avoidance area 3-2-B is a flat angle notch; the transverse edge size of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B is close to the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2; the transverse edges of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance areas 3-2-B are close to or positioned on the transverse rib side surfaces of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2, so that the strength of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2 of the transverse double curtain wall glass clamp 3B can be ensured.

In the embodiment, the technical means that the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance area 3-1-B to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 is adopted, so that the transverse edge of the curtain wall window frame 2 is sequentially inserted into the curtain wall glass clamp-wall inner plate-transverse double right angle avoidance area 3-2-B and the curtain wall glass clamp-wall outer plate-transverse double right angle avoidance area 3-1-B.

In the embodiment, the technical means that the difference between the distance from the transverse edge of the curtain wall glass clamp-outer plate-transverse double right angle avoidance area 3-1-B to the transverse symmetry line L1 of the curtain wall glass clamp-outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-inner plate-transverse double right angle avoidance area 3-2-B to the transverse symmetry line L1 of the curtain wall glass clamp-inner plate 3-2 is 2mm is adopted, so that the transverse edge of the curtain wall window frame 2 is sequentially inserted into the curtain wall glass clamp-inner plate-transverse double right angle avoidance area 3-2-B and the curtain wall glass clamp-outer plate-transverse double right angle avoidance area 3-1-B, and the gap between the curtain wall window frame 2 and the curtain wall glass 1 is reduced as much as possible.

As shown in figures 32 to 39 of the drawings,

the shape of the curtain wall glass clamp, the wall outer plate and the vertical double right angle avoidance area 3-1-C is a vertical edge flat angle notch;

the vertical edge size of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C is close to the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1;

the vertical edge of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance zone 3-1-C is close to a transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

the shape of the curtain wall glass clamp, the wall inner plate and the vertical double right angle avoidance area 3-2-C is a flat angle notch;

the vertical edge size of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C is equal to the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2;

the vertical edge of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C is close to or positioned on the vertical rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the distance between the vertical edge of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1;

The difference between the distance from the vertical edge of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C to the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C to the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm.

In the embodiment, the shape of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C is a vertical edge flat angle notch; the vertical edge size of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C is close to the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1; the vertical edge of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance zone 3-1-C is close to a transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1; the shape of the curtain wall glass clamp, the wall inner plate and the vertical double right angle avoidance area 3-2-C is a flat angle notch; the vertical edge size of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C is equal to the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2; the vertical edges of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance areas 3-2-C are close to or positioned on the vertical rib side surfaces of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2, so that the strength of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2 of the vertical double curtain wall glass clamp 3C can be ensured.

In the embodiment, the vertical edge of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C is smaller than the vertical distance between the vertical edge of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-1-C and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 by adopting the technical means that the distance between the vertical edge of the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-2-C and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate-vertical double right angle avoidance area 3-2-C is beneficial to sequentially inserting the vertical edge of the curtain wall window frame 2 into the curtain wall glass clamp-wall inner plate-vertical double right angle avoidance area 3-1-C.

In the embodiment, the technical means that the difference between the distance from the vertical edge of the curtain wall glass clamp-outer plate-vertical double right angle avoidance area 3-1-C to the vertical symmetry line L2 of the curtain wall glass clamp-outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-inner plate-vertical double right angle avoidance area 3-2-C to the vertical symmetry line L2 of the curtain wall glass clamp-inner plate 3-2 is 2mm is adopted, so that the vertical edge of the curtain wall window frame 2 is sequentially inserted into the curtain wall glass clamp-inner plate-vertical double right angle avoidance area 3-2-C and the curtain wall glass clamp-outer plate-vertical double right angle avoidance area 3-1-C, and the gap between the curtain wall window frame 2 and the curtain wall glass 1 is reduced as much as possible.

As shown in figures 40 to 47 of the drawings,

the curtain wall glass clamp, the wall outer plate and the opposite vertex angle double right angle avoidance area 3-1-D are provided with two concave right angle notches;

the two concave right-angle notches form opposite angles;

the two transverse edge sizes of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D are respectively smaller than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1;

the two vertical edge sizes of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D are respectively smaller than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1;

the shape of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D is provided with two concave right angle notches;

the two concave right-angle notches form opposite angles;

the size of each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2;

the size of each vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2;

each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

Each vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is close to or positioned on the vertical rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the distance between each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance zone 3-2-D and the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the transverse edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance zone 3-1-D and the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

the distance between each vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance zone 3-2-D and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance zone 3-1-D and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1;

the difference between the distance from each transverse edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance zone 3-1-D to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance zone 3-2-D to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm;

The difference between the distance from each vertical edge of the curtain wall glass clamp-wall outer plate-opposite corner double right angle avoidance zone 3-1-D to the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-wall inner plate-opposite corner double right angle avoidance zone 3-2-D to the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm.

In the embodiment, as the curtain wall glass clamp, the outer plate of the wall and the double right angle avoidance areas 3-1-D of the opposite vertex angle are adopted, two concave right angle notches are formed; the two concave right-angle notches form opposite angles; the two transverse edge sizes of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D are respectively smaller than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1; the two vertical edge sizes of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D are respectively smaller than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1; the shape of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D is provided with two concave right angle notches; the two concave right-angle notches form opposite angles; the size of each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is smaller than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2; the size of each vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is smaller than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2; each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2; the vertical edges of the double right angle avoidance areas 3-2-D of the curtain wall glass clamp-wall inner plate-opposite angle are close to or positioned on the vertical rib side surfaces of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2, so that the strength of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2 of the double curtain wall glass clamp 3D of opposite angle can be ensured.

In the embodiment, as the distance between each transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D and the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the transverse edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D and the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1; the distance between each vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance zone 3-2-D and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance zone 3-1-D and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1, so that the frame angles of the two curtain wall window frames 2 are respectively and sequentially inserted into the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance zone 3-2-D and the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance zone 3-1-D.

In the embodiment, as the difference between the distance from each transverse edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm; the difference between the distance from each vertical edge of the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D to the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D to the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm, so that the method is not only beneficial for sequentially inserting the frame angles of two curtain wall window frames 2 into the curtain wall glass clamp-wall inner plate-opposite angle double right angle avoidance area 3-2-D and the curtain wall glass clamp-wall outer plate-opposite angle double right angle avoidance area 3-1-D respectively, but also beneficial for reducing the gap between the curtain wall window frame 2 and the curtain wall glass 1 as much as possible.

As shown in figures 48 to 55 of the drawings,

the shape of the curtain wall glass clamp, the wall outer plate and the three right angle avoidance areas 3-1-E is a convex right angle notch;

the transverse edge size of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E is larger than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1;

the vertical edge size of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E is larger than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1;

the shape of the curtain wall glass clamp, the wall inner plate and the three right angle avoidance areas 3-2-E is a convex right angle notch;

the transverse edge size of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is larger than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2;

the vertical edge size of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is larger than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2;

the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the vertical edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is close to or positioned on the vertical rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2;

the distance between the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the transverse edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1 and the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1;

The distance between the vertical edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1;

the difference between the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm;

the difference between the distance from the vertical edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E to the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the vertical edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E to the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm.

In the embodiment, the shape of the curtain wall glass clamp, the wall outer plate and the three right angle avoidance areas 3-1-E is a convex right angle notch; the transverse edge size of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E is larger than half of the maximum transverse size of the curtain wall glass clamp-wall outer plate 3-1; the vertical edge size of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E is larger than half of the maximum vertical size of the curtain wall glass clamp-wall outer plate 3-1; the shape of the curtain wall glass clamp, the wall inner plate and the three right angle avoidance areas 3-2-E is a convex right angle notch; the transverse edge size of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is larger than half of the maximum transverse size of the curtain wall glass clamp-wall inner plate 3-2; the vertical edge size of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is larger than half of the maximum vertical size of the curtain wall glass clamp-wall inner plate 3-2; the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E is close to or positioned on the transverse rib side surface of the curtain wall glass clamp-wall inner plate-supporting reinforcing rib 3-2-2; the vertical edges of the curtain wall glass clamp-wall inner plate-three right angle avoidance areas 3-2-E are close to or positioned on the vertical rib side surfaces of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2, so that the strength of the curtain wall glass clamp-wall inner plate-supporting reinforcing ribs 3-2-2 of the single curtain wall glass clamp 3E can be ensured.

In the embodiment, the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1 to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1; the distance between the vertical edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is smaller than the distance between the vertical edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1, so that the frame angles of three curtain wall window frames 2 are respectively and sequentially inserted into the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E.

In the embodiment, as the difference between the distance from the transverse edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E to the transverse symmetry line L1 of the curtain wall glass clamp-wall outer plate 3-1 and the distance from the transverse edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E to the transverse symmetry line L1 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm; the difference between the vertical edge of the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall outer plate 3-1 and the difference between the vertical edge of the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the vertical symmetry line L2 of the curtain wall glass clamp-wall inner plate 3-2 is 2mm, so that the method is beneficial to sequentially inserting the frame angles of the three curtain wall window frames 2 into the curtain wall glass clamp-wall inner plate-three right angle avoidance area 3-2-E and the curtain wall glass clamp-wall outer plate-three right angle avoidance area 3-1-E, and is beneficial to reducing the gap between the curtain wall window frame 2 and the curtain wall glass 1 as much as possible.

As shown in figures 5 to 7 of the drawings,

the curtain wall glass clamp-outer plate 3-1 and the curtain wall glass clamp-inner plate 3-2 are provided with curtain wall glass clamps-second screws 3-7, curtain wall glass clamps-gaskets 3-8 and curtain wall glass clamps-spherical hinges 3-9 to form curtain wall glass clamp-clamping heads;

the curtain wall glass clamp-clamping head is connected with the curtain wall glass clamp-base through the curtain wall glass clamp-adapter 3-3;

the curtain wall glass clamp-base comprises a curtain wall glass clamp-base precursor 3-4 and a curtain wall glass clamp-base rear body 3-5;

the curtain wall glass clamp-base precursor 3-4 and the curtain wall glass clamp-base rear body 3-5 are fixedly connected through the curtain wall glass clamp-first screw 3-6;

the curtain wall glass clamp-base precursor 3-4 comprises a curtain wall glass clamp-base precursor-seat board 3-4-1 and a curtain wall glass clamp-base precursor-threaded rod 3-4-2;

the curtain wall glass clamp-base precursor-seat board 3-4-1 and the curtain wall glass clamp-base precursor-threaded rod 3-4-2 form an integral piece;

the curtain wall glass clamp-base precursor-threaded rod 3-4-2 is perpendicular to the middle part of the front plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1;

the shape of the curtain wall glass clamp-base precursor-seat board 3-4-1 is a round corner concave arc edge square;

the rear plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1 is provided with a curtain wall glass clamp-base precursor-rope groove 3-4-3;

Four curtain wall glass clamp-base precursor-thread fixing holes 3-4-4 are distributed on the rear plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1;

the shape of the curtain wall glass clamp-base back body 3-5 is a circular-angle concave arc-edge square plate body;

the front plate surface of the curtain wall glass clamp-base back body 3-5 is provided with a curtain wall glass clamp-base back body-cable groove 3-5-1;

four curtain wall glass clamp-base back body-fixing holes 3-5-2 are distributed on the surface of the curtain wall glass clamp-base back body 3-5;

the four curtain wall glass clamps, the base back body and the fixing holes 3-5-2 are countersunk fixing holes;

the curtain wall glass clamp-adapter 3-3 comprises a curtain wall glass clamp-adapter-thread sleeve 3-3-1;

two ends of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 are respectively provided with a curtain wall glass clamp-adapter-backup 3-3-2;

a plurality of curtain wall glass clamp-adapter-screwing holes 3-3-3 are distributed on the side surface of the curtain wall glass clamp-adapter-standby nut 3-3-2 along the circumferential direction;

one end of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 is connected with the curtain wall glass clamp-inner wall plate-threaded rod 3-2-3 through a curtain wall glass clamp-adapter-backup 3-3-2;

the other end of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 is connected with the curtain wall glass clamp-base precursor-threaded rod 3-4-2 through another curtain wall glass clamp-adapter-backup 3-3-2.

In this embodiment, the curtain wall glass clamp-chuck is formed by the curtain wall glass clamp-outer plate 3-1, the curtain wall glass clamp-inner plate 3-2, the curtain wall glass clamp-second screw 3-7, the curtain wall glass clamp-gasket 3-8 and the curtain wall glass clamp-spherical hinge 3-9, so that the edges and corners of the curtain wall glass 1 are prevented from being damaged.

In this embodiment, the curtain wall glass 1 can be connected to the base 5 by connecting the curtain wall glass clamp-clip to the curtain wall glass clamp-base via the curtain wall glass clamp-adaptor 3-3.

In the embodiment, the curtain wall glass clamp-base comprises a curtain wall glass clamp-base precursor 3-4 and a curtain wall glass clamp-base rear body 3-5; the curtain wall glass clamp-base precursor 3-4 and the curtain wall glass clamp-base rear body 3-5 are fixedly connected through the curtain wall glass clamp-first screw 3-6; the curtain wall glass clamp-base precursor 3-4 comprises a curtain wall glass clamp-base precursor-seat board 3-4-1 and a curtain wall glass clamp-base precursor-threaded rod 3-4-2; the curtain wall glass clamp-base precursor-seat board 3-4-1 and the curtain wall glass clamp-base precursor-threaded rod 3-4-2 form an integral piece; the curtain wall glass clamp-base precursor-threaded rod 3-4-2 is perpendicular to the middle part of the front plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1; the shape of the curtain wall glass clamp-base precursor-seat board 3-4-1 is a round corner concave arc edge square; the rear plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1 is provided with a curtain wall glass clamp-base precursor-rope groove 3-4-3; four curtain wall glass clamp-base precursor-thread fixing holes 3-4-4 are distributed on the rear plate surface of the curtain wall glass clamp-base precursor-seat plate 3-4-1; the shape of the curtain wall glass clamp-base back body 3-5 is a circular-angle concave arc-edge square plate body; the front plate surface of the curtain wall glass clamp-base back body 3-5 is provided with a curtain wall glass clamp-base back body-cable groove 3-5-1; the panel surface of the curtain wall glass clamp-base back body 3-5 is distributed with four curtain wall glass clamp-base back body-fixing holes 3-5-2, which is beneficial to the fixed connection with the base body 5.

In the embodiment, the four curtain wall glass clamp-base back body-fixing holes 3-5-2 are adopted as the technical means of countersunk head fixing holes, so that the nail caps of the curtain wall glass clamp-first screws 3-6 can be sunk into the back plate surfaces of the curtain wall glass clamp-base back body 3-5.

In the embodiment, the curtain wall glass clamp-adapter 3-3 comprises a curtain wall glass clamp-adapter-thread sleeve 3-3-1; two ends of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 are respectively provided with a curtain wall glass clamp-adapter-backup 3-3-2; a plurality of curtain wall glass clamp-adapter-screwing holes 3-3-3 are distributed on the side surface of the curtain wall glass clamp-adapter-standby nut 3-3-2 along the circumferential direction; one end of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 is connected with the curtain wall glass clamp-inner wall plate-threaded rod 3-2-3 through a curtain wall glass clamp-adapter-backup 3-3-2; the other end of the curtain wall glass clamp-adapter-thread sleeve 3-3-1 is connected with the curtain wall glass clamp-base precursor-threaded rod 3-4-2 through the other curtain wall glass clamp-adapter-backup 3-3-2, so that the curtain wall glass 1 is beneficial to adjusting and installing.

The fourth technical problem to be solved by this embodiment is to provide a point-supported curtain wall, which can greatly reduce the gap between curtain wall glass and curtain wall window frame, is favorable for sealing between curtain wall glass and curtain wall window frame, and greatly increases the integrity effect between curtain wall glass and curtain wall window frame.

As shown in figures 2, 4 and 5 to 65,

in order to solve the fourth technical problem, the present embodiment provides a point support curtain wall,

comprises curtain wall glass 1 and a curtain wall glass clamp 3;

the curtain wall glass 1 is connected with the base body 5 through the curtain wall glass clamp 3;

the curtain wall glass 1 has a plurality of;

a plurality of curtain wall glass 1 are enclosed to form a window hole;

curtain wall glass clamps 3 include four curtain wall glass clamps 30, three curtain wall glass clamps 3A, a transverse double curtain wall glass clamp 3B, a vertical double curtain wall glass clamp 3C, a opposite vertex angle double curtain wall glass clamp 3D and a single curtain wall glass clamp 3E as before;

the corners at both ends of the edge of the curtain wall glass 1 constituting the window opening are connected with the base body 5 through one of a three curtain wall glass clamp 3A, a transverse double curtain wall glass clamp 3B, a vertical double curtain wall glass clamp 3C, a opposite-vertex angle double curtain wall glass clamp 3D and a single curtain wall glass clamp 3E.

In the embodiment, the curtain wall glass 1 is connected with the base body 5 through the curtain wall glass clamp 3; the curtain wall glass 1 has a plurality of; a plurality of curtain wall glass 1 are enclosed to form a window hole; curtain wall glass clamps 3 include four curtain wall glass clamps 30, three curtain wall glass clamps 3A, a transverse double curtain wall glass clamp 3B, a vertical double curtain wall glass clamp 3C, a opposite vertex angle double curtain wall glass clamp 3D and a single curtain wall glass clamp 3E as before; the corners at two ends of the edge of the curtain wall glass 1 forming the window opening are connected with the base body 5 through one of the three curtain wall glass clamps 3A, the transverse double curtain wall glass clamps 3B, the vertical double curtain wall glass clamps 3C, the opposite-vertex angle double curtain wall glass clamps 3D and the single curtain wall glass clamps 3E, so that the point support curtain wall can greatly reduce the gap between the curtain wall glass and the curtain wall window frame, is favorable for sealing between the curtain wall glass and the curtain wall window frame, and greatly increases the integral effect between the curtain wall glass and the curtain wall window frame.

Claims (9)

1. A fastener for a window frame of a curtain wall,

the method is characterized in that:

comprises a curtain wall window frame fastener-main body (4-1) and a curtain wall window frame fastener-base;

the curtain wall window frame fastener-main body (4-1) and the curtain wall window frame fastener-base are fixedly connected through the curtain wall window frame fastener-second screw (4-5).

2. The curtain wall window frame fastener of claim 1,

the method is characterized in that:

the curtain wall window frame fastener-main body (4-1) comprises a curtain wall window frame fastener-main body-connecting strip (4-1-1), a curtain wall window frame fastener-main body-connecting disc (4-1-2) and a curtain wall window frame fastener-main body-connecting column (4-1-3);

the curtain wall window frame fastener-main body-connecting disc (4-1-2) and the curtain wall window frame fastener-main body-connecting column (4-1-3) form an integral piece;

one end of the curtain wall window frame fastener-main body-connecting strip (4-1-1) is vertically and fixedly connected with the end face of the curtain wall window frame fastener-main body-connecting disc (4-1-2);

the curtain wall window frame fastener-main body-connecting strip (4-1-1) is fixedly connected with the curtain wall window frame fastener-main body-connecting disc (4-1-2) through welding;

the curtain wall window frame fastener-main body-connecting strip (4-1-1) and the curtain wall window frame fastener-main body-connecting disc (4-1-2) are coaxial with the curtain wall window frame fastener-main body-connecting column (4-1-3).

3. The curtain wall window frame fastener of claim 2,

the method is characterized in that:

the curtain wall window frame fastener-main body-connecting strip (4-1-1) is in the shape of a strip-shaped plate;

at least one curtain wall window frame fastener-main body-first fixing hole (4-1-4) is formed in the curtain wall window frame fastener-main body-connecting strip (4-1-1).

4. The curtain wall window frame fastener of claim 3,

the method is characterized in that:

one curtain wall window frame fastener-main body-first fixing hole (4-1-4) is formed;

or,

the number of the curtain wall window frame fastener-main body-first fixing holes (4-1-4) is two;

two curtain wall window frame fastening pieces-main bodies-first fixing holes (4-1-4) are distributed along the length direction of the curtain wall window frame fastening pieces-main bodies-connecting strips (4-1-1).

5. The curtain wall window frame fastener of claim 4,

the method is characterized in that:

the middle part of the end face of the curtain wall window frame fastener-main body-connecting column (4-1-3) is provided with a curtain wall window frame fastener-main body-threaded hole (4-1-5);

at least one curtain wall window frame fastener-main body-second fixing hole (4-1-6) is formed in the side face of the curtain wall window frame fastener-main body-connecting column (4-1-3).

6. The curtain wall window frame fastener of claim 5,

The method is characterized in that:

the wall window frame fastener-base comprises a curtain wall window frame fastener-base precursor (4-2) and a curtain wall window frame fastener-base rear body (4-3);

the curtain wall window frame fastener-base front body (4-2) and the curtain wall window frame fastener-base rear body (4-3) are fixedly connected through the curtain wall window frame fastener-second screw (4-5).

7. The curtain wall window frame fastener of claim 6,

the method is characterized in that:

the curtain wall window frame fastener-base precursor (4-2) comprises a curtain wall window frame fastener-base and a precursor-seat plate 4-2-1 curtain wall window frame fastener-base precursor-threaded rod (4-2-2);

the curtain wall window frame fastener-base precursor-seat board (4-2-1) and the curtain wall window frame fastener-base precursor-threaded rod (4-2-2) form an integral piece;

the shape of the curtain wall window frame fastener-base precursor-seat board (4-2-1) is a round corner concave arc edge square;

the rear plate surface of the curtain wall window frame fastener-base precursor-seat plate (4-2-1) is provided with a curtain wall window frame fastener-base precursor-rope groove (4-2-3);

four curtain wall window frame fastener-base precursor-thread fixing holes (4-2-4) are distributed on the rear plate surface of the curtain wall window frame fastener-base precursor-seat plate (4-2-1);

the shape of the curtain wall window frame fastener-base back body (4-3) is a round corner concave arc edge square;

The front plate surface of the curtain wall window frame fastener-base back body (4-3) is provided with a curtain wall window frame fastener-base back body-cable slot (4-3-1);

four curtain wall window frame fastener-base back body-fixing holes (4-3-2) are distributed on the surface of the curtain wall window frame fastener-base back body (4-3);

four curtain wall window frame fastener-base back body-fixed orifices (4-3-2) are countersunk head fixed orifices.

8. A point-supported curtain wall, which comprises a curtain wall body,

the point support curtain wall is a dragline curtain wall or a pipe curtain wall;

comprises a plurality of curtain wall glass (1);

the curtain wall glass (1) is connected through a curtain wall glass clamp (3);

the method is characterized in that:

a plurality of curtain wall glass (1) are surrounded to form a window hole;

a curtain wall window frame (2) is arranged in the window hole;

the curtain wall window frames (2) are multiple;

two adjacent curtain wall window frames (2) are connected with a base body (5) through curtain wall window frame fasteners (4);

the base body (5) is a guy cable or a vertical pipe;

the curtain wall window frame fastener (4) is a curtain wall window frame fastener as described above;

the curtain wall window frame fastener is a inhaul cable curtain wall window frame fastener or a pipe curtain wall window frame fastener.

9. The point curtain wall according to claim 8,

the method is characterized in that:

two side frame edges of the curtain wall window frame (2) are respectively provided with curtain wall window frame-fixing holes (2-1);

Two curtain wall window frame-fixing holes (2-1) or four curtain wall window frame-fixing holes (2-1) are formed in each side frame edge;

the two curtain wall window frame-fixing holes (2-1) are distributed along the height direction of the side frame edge;

the four curtain wall window frame-fixing holes (2-1) are distributed in a rectangular shape.