CN211597304U - Novel heat-insulating double-layer energy-saving safety glass curtain wall - Google Patents

Abstract

The utility model discloses a novel heat-insulated double-deck energy-conserving safe glass curtain wall relates to the building technology field, the utility model discloses a double glazing, wherein double glazing passes through horizontal fixing device and vertical fixing device fixed connection, wherein double glazing includes preceding glass and back glass, preceding glass passes through glass frame combination with the back glass and supports, wherein the cavity part between preceding glass and the back glass is provided with inert gas, and the material of preceding glass and back glass is the double-deck cavity toughened glass of LOW-E. The utility model discloses a set up the equipment that horizontal fixing device and vertical fixing device realized various occasions and form, through dash into the argon gas between preceding glass and back glass, realize double glazing's thermal-insulated and energy-conservation, through erecting the roof beam clamp plate, realize erecting the balance of roof beam, through erecting roof beam buckle and crossbeam buckle and realizing double glazing's convenient installation, the utility model discloses convenient to use, the installation is convenient, can realize thermal-insulated, energy-conservation, and application scope is wider.

Description

Novel heat-insulating double-layer energy-saving safety glass curtain wall

Technical Field

The utility model relates to a glass curtain wall technical field, and more specifically relate to especially relate to a novel disconnected hot double-deck energy-conserving safe glass curtain wall.

Background

The double-layer glass curtain wall is also called as a thermal channel curtain wall, an air circulation curtain wall, a breathing curtain wall, an ecological curtain wall, a green curtain wall or an active curtain wall and the like, and consists of two layers of glass curtain walls and a thermal channel between the two layers of glass curtain walls, wherein air ports are arranged at the upper end and the lower end of the channel, and the height of the channel can be one or more than one layer height. In the 90 s of the 20 th century, double-layer glass curtain walls have been widely applied in a plurality of countries in Europe, and have great effects on improving the heat preservation, heat insulation and sound insulation functions of the glass curtain walls. At present, energy conservation and environmental protection become two major topics in the world, the awareness of the society on building energy conservation is gradually enhanced, and the building envelope structure is particularly important as a main part of building energy conservation.

Along with the development of heat energy technology, more and more users have made a question of the inconvenient problem of double glazing curtain wall's installation, because the difference of various occasions, the double-deck energy-conservation nature of the heat-insulating to double glazing curtain wall requires more and more, consequently, needs a neotype heat-insulating double-deck energy-conserving safe glass curtain wall to satisfy user's demand.

Disclosure of Invention

Not enough to the above-mentioned technique, the utility model provides a novel disconnected hot double-deck energy-conserving safe glass curtain wall can realize thermal-insulated, energy-conservation effectively, simple to operate, and the security performance is good.

The technical scheme of the utility model as follows: the utility model provides a novel heat-insulating double-deck energy-conserving safe glass curtain wall, includes double glazing, wherein double glazing passes through horizontal fixing device and vertical fixing device fixed connection, wherein double glazing includes preceding glass and back glass, preceding glass passes through the glass frame combination with the back glass and supports, wherein the cavity part between preceding glass and the back glass is provided with inert gas, and preceding glass is the double-deck cavity toughened glass of LOW-E with the material of back glass.

Preferably, the glass frame is a heat-insulating composite metal sash.

Preferably, the periphery of the glass frame is fixed by adhesive through a sealant.

Preferably, the distance between the front glass and the rear glass is 450mm to 600 mm.

Preferably, the transverse fixing device comprises a beam buckle plate, a beam pressing plate and a beam cushion pad, wherein the beam pressing plate is arranged on the beam through the beam cushion pad, and the beam buckle plate is arranged on the beam.

Preferably, vertical fixing device is provided with perpendicular roof beam, perpendicular roof beam buckle, clamp plate, wherein the clamp plate passes through lead screw, guide nut, nut sliding tray, to wearing screw rod, anticorrosive backing plate and perpendicular roof beam blotter setting and is in it is inside to erect the roof beam, it is provided with perpendicular roof beam buckle on the roof beam surface to erect.

Preferably, the beam bumper is a cushion rubber.

Preferably, the inert gas is argon.

Adopt above-mentioned scheme, the utility model discloses beneficial effect is:

the utility model discloses a set up the equipment that horizontal fixing device and vertical fixing device realized various occasions and form, through dash into the argon gas between preceding glass and back glass, realize double glazing's thermal-insulated and energy-conserving, the utility model discloses a erect the roof beam clamp plate, realize erecting the balance of roof beam, through erecting roof beam buckle and crossbeam buckle and realizing double glazing's convenient installation, the utility model discloses convenient to use, the installation is convenient, can realize thermal-insulated, energy-conservation, and application scope is wider.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the novel adiabatic double-layer energy-saving safety glass curtain wall;

FIG. 2 is a schematic plan view of the novel adiabatic double-layer energy-saving safety glass curtain wall of the present invention;

FIG. 3 is a schematic view of the installation structure of the transverse fixing device and the longitudinal fixing device in the novel adiabatic double-layer energy-saving safety glass curtain wall of the present invention;

FIG. 4 is a schematic structural view of a cross beam pressing plate in the novel heat-insulated double-layer energy-saving safety glass curtain wall of the present invention;

FIG. 5 is a schematic view of the internal structure of the double-layer glass in the novel adiabatic double-layer energy-saving safety glass curtain wall;

the attached drawings are as follows: 1-vertical beam buckle; 2-beam buckle plate; 3-double glazing; 4-vertical beam pressing plate; 5-vertical beam; 6-a lead screw; 7-a guide nut; 8-corrosion-resistant base plate; 9-opposite-penetrating screw; 10-a cross beam; 11-vertical beam cushioning; 12-beam pressing plate 13-nut sliding groove; 14-beam cushion; 15-front glass; 16-a glass frame; 17-rear glass; 18-transverse fixation means; 19-longitudinal fixation means.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1 to 5: the utility model provides a novel heat-insulating double-deck energy-conserving safety glass curtain wall, includes double glazing 3, wherein double glazing 3 is through horizontal fixing device 18 and vertical fixing device 19 fixed connection, wherein double glazing 3 includes preceding glass 15 and back glass 17, preceding glass 15 and back glass 17 support through glass frame 16 combination, wherein the cavity part between preceding glass 15 and the back glass 17 is provided with inert gas, and preceding glass 15 and the material of back glass 17 are the double-deck cavity toughened glass of LOW-E. In more specific embodiments, other energy-saving materials such as heat reflective coated glass, hollow glass, heat insulating profiles, and the like can be used. The novel energy-saving safety glass can block most of heat energy and ultraviolet rays in sunlight, can transmit more than 80% of visible light, reflects little visible light and has better heat-breaking performance.

Further, the glass frame 16 is a heat-insulated composite metal sash. The frame of the whole glass curtain wall is made of aviation aluminum profiles.

Further, the periphery of the glass frame 16 is fixed by sealing glue, so that the glass frame 16 can be completely installed.

Further, the distance between the front glass 15 and the rear glass 17 is 450mm to 600 mm.

Further, the transverse fixing device 18 comprises a beam buckle 2, a beam 10, a beam pressing plate 12 and a beam cushion 14, wherein the beam pressing plate 12 is arranged on the beam 10 through the beam cushion 14, and the beam buckle 2 is arranged on the beam 10. In this way, the double glazing 3 has a better mounting performance.

Further, vertical fixing device 19 is provided with perpendicular roof beam 5, perpendicular roof beam buckle 1, clamp plate 4, wherein clamp plate 4 passes through lead screw 6, guide nut 7, nut sliding tray 13, to wearing screw 9, anticorrosive backing plate 8 and perpendicular roof beam blotter 11 and sets up inside perpendicular roof beam 5, be provided with perpendicular roof beam buckle 1 on the perpendicular roof beam 5 surface.

Further, the beam cushion 14 is made of cushion rubber, so that the double-layer glass 3 can be protected and is safe to use.

Further, the inert gas is argon.

Example 2

The utility model discloses at the during operation, the user can adopt to wearing screw rod 9 and anticorrosive backing plate 8, will erect 5 crossbeams 10 of roof beam and fix, will be preceding 15 glass frame frames of glass board 16 and back glass board 17 and assemble into a whole with special mould the utility model discloses in, with preceding cavity part between 15 and the back glass board 17 injection inert gas. Then the fixed double-layer glass 3 is sequentially placed in the installed framework. The guide screw 6 is pressed in from the nut sliding groove 13 of one end of the beam 10 and the vertical beam 5 in sequence, and then the vertical beam buffer cushion 11 and the beam buffer cushion 14 are arranged at the root of the screw according to the hole position of the guide screw 6. And then the vertical beam pressing plate 4 and the cross beam pressing plate 12 are well installed at the positions corresponding to the guide screw rods 6, and the guide nuts 7 are assembled on the guide screw rods 6 after the installation is finished. The double glazing 3 can be firmly fixed within the frame by screwing the guide nut 7 with a wrench using the vertical beam pressing plate 4 and the horizontal beam pressing plate 12. And finally, buckling the vertical beam buckle plate 1 and the beam buckle plate 2 to form a whole, and completing the installation in the whole process. The utility model discloses a whole glass curtain wall's frame can both guarantee the steadiness for the aviation aluminium alloy, has alleviateed holistic quality again, and the installation of being convenient for can build the completion with the frame earlier, carries out the equipment of glass wall again. In the reassembling process, the parallelism of the whole glass wall can be controlled by adjusting the tightness of the guide nut 7, and the glass wall has good adjustable shape. The utility model discloses a set up the equipment that horizontal fixing device and vertical fixing device realized various occasions and form, through dash into the argon gas between preceding glass and back glass, realize double glazing's thermal-insulated and energy-conserving, the utility model discloses a erect roof beam clamp plate 4, realize erecting the balance of roof beam 5, through erecting roof beam buckle 1 and crossbeam buckle 2 and realizing double glazing 3's convenient installation, the utility model discloses convenient to use, the installation is convenient, can realize thermal-insulated, energy-conservation, and application scope is wider.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a novel heat-insulating double-layer energy-saving safety glass curtain wall, includes double glazing (3), its characterized in that: the double-layer glass (3) is fixedly connected with a longitudinal fixing device (19) through a transverse fixing device (18), wherein the double-layer glass (3) comprises front glass (15) and rear glass (17), the front glass (15) and the rear glass (17) are supported through a glass frame (16) in a combined mode, inert gas is arranged in a cavity portion between the front glass (15) and the rear glass (17), and the front glass (15) and the rear glass (17) are made of LOW-E double-layer hollow tempered glass.

2. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 1, is characterized in that: the glass frame (16) is a heat-insulating composite metal sash.

3. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 2, is characterized in that: the periphery of the glass frame (16) is fixed by sealing glue.

4. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 1, is characterized in that: the distance between the front glass (15) and the rear glass (17) is 450 mm-600 mm.

5. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 1, is characterized in that: horizontal fixing device (18) are including crossbeam buckle (2), crossbeam (10), crossbeam clamp plate (12) and crossbeam blotter (14), wherein crossbeam clamp plate (12) are in through crossbeam blotter (14) setting on crossbeam (10), crossbeam buckle (2) set up on crossbeam (10).

6. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 1, is characterized in that: vertical fixing device (19) are provided with and erect roof beam (5), erect roof beam buckle (1), clamp plate (4), wherein clamp plate (4) are in through lead screw (6), guide nut (7), nut sliding tray (13), to wearing screw rod (9), anticorrosive backing plate (8) and erect roof beam blotter (11) setting erect inside roof beam (5), it erects roof beam buckle (1) to be provided with on roof beam (5) surface.

7. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 5, is characterized in that: the beam buffer cushion (14) is made of buffer rubber.

8. The novel heat-insulating double-layer energy-saving safety glass curtain wall as claimed in claim 1, is characterized in that: the inert gas is argon.

Images