CN111561087A - Pneumatic curtain wall structure and laminated pneumatic curtain wall structure - Google Patents

Abstract

The invention provides a pneumatic curtain wall structure and a laminated pneumatic curtain wall structure, wherein the pneumatic curtain wall structure comprises: a transverse support; the pneumatic sheet connecting devices are arranged on the transverse support side by side, and each pneumatic sheet connecting device is provided with a limiting device which comprises a transverse limiting part for limiting the translation of the pneumatic sheet and a circumferential limiting part for limiting the swing of the pneumatic sheet; the number of the pneumatic blades is multiple, and the pneumatic blades are connected to the pneumatic blade connecting device through the limiting device. The invention also provides a layered type pneumatic curtain wall structure which comprises the pneumatic curtain wall structure, wherein the number of the tubular protective covers is at least one row and at least one column, each row and each column are provided with a plurality of tubular protective covers, and each tubular protective cover is horizontally arranged; each tubular protective cover is provided with a plurality of wind-driven pieces. The invention can solve the problems that the steel wire rope and the fastening piece for connecting the wind-driven piece are seriously damaged and have short service life when exposed to the outdoor environment of wind, rain and sunshine.

Description

Pneumatic curtain wall structure and laminated pneumatic curtain wall structure

Technical Field

The invention relates to the field of energy-saving buildings, in particular to a pneumatic curtain wall structure and a laminated pneumatic curtain wall structure.

Background

At present, the wind driven curtain wall adopts a steel wire rope to hang the wind driven piece, the wind driven piece is easy to loosen due to the reason of expansion caused by heat and contraction caused by cold and the like of the steel wire rope, the function and the appearance of the wind driven piece in a wind driven state are also influenced, and particularly, the wind driven piece is easy to damage under strong wind without a limit structure.

In summary, the following problems exist in the prior art: the fastener connected with the steel wire rope rotates due to the fact that the steel wire rope loosens, the pneumatic blades are loosened or move irregularly in an inconsistent state, the angles of the pneumatic blades are inconsistent, the pneumatic blades can not be kept consistent in a windless state, and the steel wire rope used for being connected with the pneumatic blades and the fastener connected with the steel wire rope are exposed in the outdoor environment where wind, rain and sunshine are blown, and are seriously damaged and short in service life.

Disclosure of Invention

The invention provides a pneumatic curtain wall structure and a laminated pneumatic curtain wall structure, and aims to solve the problems that the conventional pneumatic blades are loosened or in different states and unstable in swinging due to the fact that the conventional pneumatic blades are fixed by steel wires, and the problems that a steel wire rope and a fastening piece connected with the steel wire rope are seriously damaged and short in service life when exposed to outdoor environments such as wind, rain and sunshine.

Therefore, the invention provides a pneumatic curtain wall structure, which comprises:

the protective device comprises a tubular protective cover 1 and a fan, wherein the tubular protective cover is a tubular section, an installation groove is formed in the tubular section, an opening 10 for a wind-driven piece to swing is formed in the bottom of the tubular protective cover, and the opening is located below the installation groove;

the pneumatic sheet connecting device 4 is arranged in the tubular protective cover 1 and is surrounded by the tubular protective cover, a limiting device 6 is arranged on the pneumatic sheet connecting device, and the limiting device comprises a transverse limiting part for limiting the translation of the pneumatic sheet and a circumferential limiting part for limiting the swing of the pneumatic sheet;

the pneumatic pieces 5 are sheet-shaped, can be made of plastics, aluminum or aluminum alloy or steel sheets, are connected to the pneumatic piece connecting device through the limiting device 6, extend out of the tubular protective cover downwards from the opening 10, and are provided with a plurality of pneumatic pieces which are identical in size and structure and independent of one another; each tubular section bar and a plurality of wind-driven pieces on the tubular section bar are positioned in a plane, the axis of each tubular section bar is consistent with the length direction of each wind-driven piece, and the wind-driven piece connecting device is installed in the installation groove in a clamping mode. Quick installation can be realized through the mounting groove.

Further, the mounting groove includes: top mounting groove 11 with be located bottom mounting groove 7 of top mounting groove below, wind piece connecting device 4 includes: the top card platform 41 and the bottom supporting leg 42 of connecting the top card platform, top card platform and top mounting groove joint are supported tightly under the top mounting groove, bottom supporting leg and bottom mounting groove joint are supported on the bottom mounting groove.

Further, the top mounting groove 11 includes: the top clamping device comprises two side edges 110 and a top edge 111 connected between the two side edges, wherein the two side edges and the top edge are connected to form a middle-included type, the top surface of the top clamping table is tightly propped against the lower part of the top edge, and the side surface of the top clamping table is limited between the two side edges; the bottom mounting groove 7 includes: the bottom surface 70 of bottom mounting groove and connect the side 71 of the bottom mounting groove of the bottom surface of bottom mounting groove, the bottom surface of bottom mounting groove and the side of bottom mounting groove are connected and are formed the L type, and the bottom surface 420 of bottom supporting leg supports on the bottom surface of bottom mounting groove, and the side 421 of bottom supporting leg supports tightly on the side of bottom mounting groove.

Furthermore, in each pneumatic chip connecting device, the number of the top clamping platforms is 1, the number of the bottom supporting legs is 2, and the top clamping platforms 41 and the bottom supporting legs 42 form a triangular supporting structure.

Furthermore, the limiting device 6 is a hollow inverted triangular or fan-shaped hollow tube, the limiting device comprises two baffles 8 which limit the swing of the pneumatic blade and form an included angle, and a top connecting plate 9 connected to the top of the baffles, a triangular or fan-shaped hollow space is formed between the two baffles and the top connecting plate, and the circumferential limiting part is formed by the two baffles; the top clamping table is connected to the top connecting plate, and the outer side of each baffle is connected with a bottom supporting leg.

Furthermore, the wind-driven piece 5 is a rectangular sheet, the left side and the right side of the upper portion of the wind-driven piece are respectively provided with an open slot 12, the top of the open slot on each side is an outwardly protruding sheet clamping plate 120, each side of the wind-driven piece is respectively provided with a limiting device or a wind-driven piece connecting device, each wind-driven piece is connected to the tubular protective cover through two limiting devices or wind-driven piece connecting devices, in each limiting device, two baffles are intersected to form an intersection portion 425, on each side of the left side and the right side of the upper portion of the wind-driven piece, the intersection portion 425 extends into and is clamped in the open slot 12, and the sheet clamping plate extends into the limiting devices and is supported at the bottom of the inverted triangle or the fan shape.

Further, pneumatic curtain wall construction still includes:

the protective device comprises a plurality of vertical supports 2 which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of vertical support is the hollow tube of rectangle, is equipped with on the vertical support and installs mount pad 60 of tubulose protective cover, mount pad 60 includes: the protective cover comprises a bottom plate 610 attached to the side face of the vertical support 2, a sleeve 603 arranged on the bottom plate, and a mounting hole 601 arranged on the bottom plate and located around the sleeve 603, wherein the tubular protective cover is accommodated in the sleeve 603, and a bolt or a rivet is arranged in the mounting hole 601.

Further, pneumatic curtain wall construction still includes:

the protective device comprises a plurality of vertical supports 2 which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of the vertical support is a rectangular hollow tube, and a through hole penetrating through the tubular protective cover is formed in the vertical support.

The invention also provides a layered type pneumatic curtain wall structure which comprises the pneumatic curtain wall structure, wherein the number of the tubular protective covers is at least one row and at least one column, each row and each column are provided with one or more tubular protective covers, and each tubular protective cover is horizontally arranged; each tubular protective cover is provided with a plurality of wind-driven pieces,

the tubular protective covers in each row are mutually parallel to form a first plane, each tubular protective cover in each row and the plurality of wind-driven pieces on the tubular protective covers form a second plane, and the first plane is vertical to the second plane;

all the wind blades are arranged at intervals and independently, and all the wind blades form a three-dimensional matrix positioned on a plurality of planes.

Further, the range upon range of formula pneumatic curtain wall construction still includes: the protective device comprises a plurality of vertical supports 2 which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of the vertical support is a rectangular hollow tube, and a through hole penetrating through the tubular protective cover is formed in the vertical support; one or more rows of transverse brackets connecting each of the vertical brackets, the transverse brackets being perpendicular to the tubular protective covering, and the transverse brackets being located outside the perforations.

The technical scheme has the following beneficial effects: because the technical means of the limiting device is adopted, the wind-driven piece can not transversely move and can only do circumferential movement within a fixed angle, and the technical effects of firm, reliable, stable and durable structure are achieved. Furthermore, the pneumatic sheet connecting device is arranged in the tubular protective cover 1 and is surrounded by the tubular protective cover, so that the pneumatic sheet connecting device is prevented from being exposed to the outdoor environment of wind, rain and sunshine, serious damage is avoided, and the service life is prolonged.

Furthermore, the invention realizes that the pneumatic sheets form a three-dimensional matrix positioned on a plurality of planes, and a layered arrangement form of the pneumatic curtain wall is formed, thereby increasing the layering sense of the pneumatic curtain wall and leading the pneumatic curtain wall to be more beautiful.

Drawings

FIG. 1 is a schematic side-view perspective view of an integral and laminated pneumatic curtain wall structure according to the present invention;

FIG. 2 is a schematic perspective view of the overall and layered wind curtain wall structure according to the present invention;

FIG. 3 is a schematic perspective view of the connection between the wind-driving plate and the tubular protective cover according to the present invention;

FIG. 4 is a schematic front view of the connection between the wind-driving plate and the tubular protective cover;

FIG. 5 is a perspective view of the tubular protective cover of the present invention;

FIG. 6 is a front view of the tubular shield of the present invention;

FIG. 7 is a perspective view of the connection of the wind blade to the wind blade connection device of the present invention;

FIG. 8 is a schematic side view of the connection between the wind-driven plate and the limiting device of the present invention;

FIG. 9 is a schematic structural view of the connection between the wind-driven plate and the limiting device of the present invention;

FIG. 10 is a schematic perspective view of a wind-driven plate according to the present invention;

FIG. 11 is a schematic front view of the wind-driven plate of the present invention;

FIG. 12 is a perspective view of a wind blade attachment of the present invention;

FIG. 13 is a front view of the wind blade attachment of the present invention;

FIG. 14 is a side view perspective view of an alternative wind curtain wall construction in accordance with the present invention;

FIG. 15 is a side view schematic structural view of the wind curtain wall of FIG. 14 in its entirety and in a layered wind curtain wall configuration;

FIG. 16 is a cross-sectional view taken along line A-A of FIG. 15;

FIG. 17 is a schematic top view of the wind curtain wall of FIG. 14 in its entirety and in a layered wind curtain wall configuration;

fig. 18 is an enlarged schematic view of the structure at C in fig. 14.

The reference numbers illustrate:

2. a vertical support; 3. a transverse support; 4. a pneumatic blade connecting device; 5. a wind-driven piece; 6. a limiting device; 8. a baffle plate; 9. a top connection plate; 12. an open slot; 120. a sheet-shaped clamping plate;

1. a tubular protective cover; 10. an opening; 11. a top mounting groove; 41. a top clamping table; 7. a bottom mounting groove; 70. the bottom surface of the bottom mounting groove; 71. the side surface of the bottom mounting groove; 42. a bottom support leg; 110. a side edge; 111. a top edge; 420. the bottom surface of the bottom support leg; 421. the sides of the bottom support legs; 425. an intersection portion; 427. a support surface;

60. a mounting seat; 601. mounting holes; 603. a sleeve; 610. a chassis.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, the present invention will now be described with reference to the accompanying drawings.

The invention provides a pneumatic curtain wall structure which has the advantages of firm, reliable and stable structure, durability of the pneumatic curtain wall and the like.

The invention provides a pneumatic curtain wall structure, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, which comprises a tubular protective cover 1, wherein the tubular protective cover is a tubular section, such as an aluminum section or a plastic steel section or a stainless steel section, a mounting groove is arranged in the tubular section and is used for mounting or connecting a pneumatic sheet 5, an opening 10 for the pneumatic sheet to swing is arranged at the bottom of the tubular protective cover, and the opening is positioned below the mounting groove;

the pneumatic sheet connecting device 4 is fixedly arranged in the tubular protective cover 1 in a clamping or riveting manner and is surrounded by the tubular protective cover 1 as shown in fig. 3, 7 and 9, and is provided with a limiting device 6 which comprises a transverse limiting part for limiting the translation of the pneumatic sheet and a circumferential limiting part for limiting the swing of the pneumatic sheet;

the wind-driven piece 5 is connected to the wind-driven piece connecting device 4 through a limiting device 6, and extends out of the tubular protective cover 1 downwards from the opening 10 as shown in fig. 4, 7, 8, 9, 10 and 11, the wind-driven piece 5 swings below the tubular protective cover 1, each tubular section and the wind-driven pieces on the tubular section are located on the same plane, the axis of the tubular section is consistent with the length direction of each wind-driven piece, and the wind-driven piece connecting device is installed and clamped in the installation groove. Through the mounting groove, the pneumatic sheet connecting device 4 and the pneumatic sheet 5 can be quickly mounted on the tubular protective cover 1. Through the protection of tubulose safety cover, make pnematic piece connecting device avoid directly exposing in the environment that outdoor wind blows to the rain and drenches the sunshine, avoided impaired probability, can keep better operating condition, prolonged life.

Further, as shown in fig. 5 and 6, the mounting groove includes: a top mounting groove 11 and a bottom mounting groove 7 positioned below the top mounting groove, as shown in fig. 4, 7, 8, 12 and 13, the wind blade coupling device 4 includes: the top card platform 41 and the bottom supporting leg 42 of connecting the top card platform, top card platform and top mounting groove joint are supported tightly under the top mounting groove, bottom supporting leg and bottom mounting groove joint are supported on the bottom mounting groove. Therefore, the pneumatic sheet connecting device 4 is clamped up and down, and the connection is stable. The pneumatic sheet connecting device 4 can be made of stainless steel or aluminum alloy, so that the pneumatic sheet connecting device has elasticity, is convenient for fastening assembly, and is convenient for realizing axial positioning of the pneumatic sheet connecting device 4 along the tubular protective cover 1 through the elasticity of the material. In addition, in order to increase the axial positioning, screws, rivets and pins for axially positioning the wind blade connection 4 can be provided on the inner wall of the tubular protective cover 1 after the wind blade connection 4 has been installed.

Further, as shown in fig. 5, the top mounting groove 11 includes: the top mounting groove 11 includes: two side edges 110 and a top edge 111 connected between the two side edges, the two side edges and the top edge being connected to form a "type", i.e. a medium-sized type. The top surface of the top clamping table is tightly propped against the lower side of the top edge, and the side surface of the top clamping table 41 is limited between the two side edges 110, namely the top mounting groove 11 realizes the limitation of the top clamping table in 3 directions; the bottom mounting groove 7 includes: the bottom surface 70 of bottom mounting groove is connected with the side 71 of the bottom mounting groove of the bottom surface of bottom mounting groove, and the bottom surface 70 of bottom mounting groove and the side 71 of bottom mounting groove are connected and are formed the L type, and the bottom surface 420 of bottom supporting leg supports on the bottom surface 70 of bottom mounting groove, the side 421 of bottom supporting leg supports tightly on the side 71 of bottom mounting groove, and bottom mounting groove 7 has realized two directions spacing to the bottom supporting leg. Therefore, the stability of fixing the pneumatic piece connecting device 4 is guaranteed to the maximum extent under the condition that the swing of the pneumatic piece is not influenced.

Further, as shown in fig. 4, 12 and 13, in each of the wind-driven plate connection devices 4, the number of the top clamping bases 41 is 1, the number of the bottom support legs 42 is 2, and the top clamping bases 41 and the bottom support legs 42 form a triangular support structure, which is stable in support.

Further, 2 bottom supporting legs 42 are symmetrically arranged on two sides of the top clamping platform 41, and the top clamping platform 41 and the bottom supporting legs 42 form a triangular supporting structure which is an isosceles triangle, so that the stress is symmetrical. Furthermore, the top clamping table 41 and the bottom supporting leg 42 form a triangular supporting structure isosceles acute triangle, two equal opposite angles of the isosceles acute triangle can be 55 degrees to 65 degrees, preferably 60 degrees, so that the stress is reasonable, no obvious weak link occurs, and the whole service life of the pneumatic piece connecting device 4 is prolonged.

Further, as shown in fig. 7, 12 and 13, the limiting device 6 is a hollow inverted triangular or fan-shaped hollow tube, the limiting device includes two baffles 8 forming an included angle for limiting the swing of the pneumatic blade, and a top connecting plate 9 connected to the top of the baffles, a triangular or fan-shaped hollow space is formed between the two baffles and the top connecting plate, and the circumferential limiting part is formed by the two baffles 8; the top clamping table 41 is connected to the top connecting plate 9, and the outer side of each baffle 8 is connected with a bottom supporting leg 42. The limiting device 6 is a hollow inverted triangular or fan-shaped hollow tube, and the two baffles 8 can limit the horizontal swing of the wind-driven piece.

Further, stop device 6 and 4 formula structures as an organic whole of wind piece connecting device, for example for plastic steel section bar or aluminum alloy ex-trusions be two baffle 8 promptly, top connecting plate 9 and top ka tai 41 and two bottom supporting legs 42 formula structures as an organic whole, processing preparation is convenient, and the installation accuracy is high, and is effectual with the matching of mounting groove, and intensity is high moreover, and is firmly durable, and it is convenient to change.

Further, as shown in fig. 9, 10 and 11, the wind-driven blade 5 is a rectangular sheet, the left and right sides of the upper portion of the wind-driven blade are respectively provided with an open slot 12, the top of the open slot on each side is an outward-protruding sheet clamping plate 120, each side of the wind-driven blade is respectively provided with a limiting device 6 or a wind-driven blade connecting device 4, and each wind-driven blade 5 is connected to the tubular protective cover 1 through two limiting devices 6 or wind-driven blade connecting devices 4. In each limiting device 6, the two baffles are intersected to form an intersection part 425, the intersection part 425 extends into and is clamped in the open slot 12 on each of the left side and the right side of the upper part of the pneumatic sheet, the open slot 12 limits the intersection part 425 transversely, namely along the length direction of the pneumatic sheet, the sheet-shaped clamping plate 120 extends into the limiting device 6 and is supported at the bottom of the inverted triangle or the sector, and a triangular or sector hollow space is formed between the two baffles and the top connecting plate to limit the sheet-shaped clamping plate 120.

Therefore, the pneumatic sheet can not move transversely and can only move circumferentially within a fixed angle, the pneumatic sheet can only swing circumferentially within a certain angle, the angles of the pneumatic sheets are consistent when the pneumatic sheets move, the whole body is attractive, the technical effects of firm, reliable and stable structure and durability are achieved, and the structure is compact. The pneumatic sheet connecting device integrates connection, rotation, transverse limiting and circumferential limiting, and is compact in structure, firm in connection, flexible in swing and stable in limiting.

Further, as shown in fig. 12 and 13, the intersecting part 425 is a supporting platform located at the bottom corner of the triangle or the fan shape, the supporting platform has a supporting surface 427, and the sheet-shaped cardboard 120 is supported on the supporting platform, so that the sheet-shaped cardboard 120 can be stably supported. The width of the supporting surface 427 is equal to the width of the wind-driven piece 5, or the width larger than the wind-driven piece 5 is within 1mm, the two baffles 8 and the supporting surface 427 form a V-shaped limit space or a fan-shaped limit space, the wind-driven piece swings flexibly, and the return effect is good.

Further, as shown in fig. 1 and 2, the pneumatic curtain wall structure further includes:

the device comprises a plurality of vertical supports 2 which are arranged in parallel, wherein each vertical support 2 is arranged vertically, the tops of a plurality of rows of vertical supports 2 are parallel and level, and the connecting lines of the top edges of the plurality of rows of vertical supports 2 form a straight line; the pneumatic curtain wall structure is tidy on the whole, and at least one row of tubular protective covers 1 or a plurality of rows of tubular protective covers 1 which are arranged in parallel from top to bottom are arranged on each vertical support 2; the cross section of the vertical support 2 is a rectangular hollow tube, the vertical support 2 is made of aluminum profiles or plastic steel profiles, for example, and a through hole penetrating through the tubular protective cover 1 is formed in the vertical support 2, so that the tubular protective cover 1 is convenient to mount.

Further, as shown in fig. 14, 15, 16, 17 and 18, the present invention provides another wind-driven curtain wall structure, which further includes:

the protective device comprises a plurality of vertical supports 2 which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers 1 or a plurality of rows of tubular protective covers 1 which are arranged in parallel from top to bottom; the cross section of the vertical support 2 is a rectangular hollow tube, a mounting seat 60 for mounting the tubular protective cover is arranged on the vertical support, and the mounting seat 60 comprises: the protective cover comprises a bottom plate 610 attached to the side face of the vertical support 2, a sleeve 603 arranged on the bottom plate, and a mounting hole 601 arranged on the bottom plate and located around the sleeve 603, wherein the tubular protective cover is accommodated in the sleeve 603, and a bolt or a rivet is arranged in the mounting hole 601. This structure facilitates the installation and the securement of the tubular protective cover 1.

As shown in fig. 18, the bottom surface of the bottom plate 610 is a plane, and is flush with and can be attached to the side surface of the rectangular vertical support 2, the bottom plate 610 is in a long strip shape, the length direction of the bottom plate is consistent with the length direction of the vertical support 2, the number of the mounting holes 601 can be 2, and the mounting holes are symmetrically arranged above and below the sleeve 603, so that the tubular protective cover 1 can be stably fixed on the elongated vertical support 2. An interference fit may be provided between the sleeve 603 and the tubular protective cover 1 to achieve fastening.

The invention also provides a layered type pneumatic curtain wall structure, which comprises the pneumatic curtain wall structure, wherein the number of the tubular protective covers 1 is at least one row and at least one column, for example, as shown in figures 1 and 2, the tubular protective covers 1 are arranged in multiple rows and multiple columns, each row and each column are provided with one or more tubular protective covers 1, and each tubular protective cover 1 is horizontally arranged; each tubular protective cover is provided with a plurality of wind-driven pieces 5,

the tubular protective covers 1 in each row are parallel to each other to form a first plane, such as a horizontal plane, each tubular protective cover 1 in each column and the plurality of wind-moving plates thereon form a second plane, such as a vertical plane, and the first plane is perpendicular to the second plane;

the wind blades 5 are spaced apart from each other and arranged independently, and all the wind blades 5 form a three-dimensional matrix, for example, a cubic three-dimensional matrix, which is located on a plurality of planes. Therefore, the pneumatic curtain wall structure with the layering sense and the stereoscopic impression is formed, namely, the layered pneumatic curtain wall structure is more attractive and has the stereoscopic impression. Further, taking the wind-moving blades as squares as an example, the tubular protective covers 1 may be arranged in a three-dimensional matrix with the unit as a horizontal pitch in units of the pitch of two rows of tubular protective covers 1 adjacent in the vertical direction, and the beauty of the interval of the wind-moving blades and the maximum swing width may be realized.

Further, as shown in fig. 1 and 2, the layered wind curtain wall structure further includes: one or more rows of transverse brackets 3 connecting each of said vertical brackets, said transverse brackets 3 being perpendicular to the tubular protective cover 1 and to the vertical brackets 2, and said transverse brackets 3 being located outside said perforations so that the support of the transverse brackets 3 does not interfere with the fixing between the tubular protective cover 1 and the vertical brackets 2. The vertical support 2 is a rectangular pipe or a rectangular section bar, and the perforation of the tubular protective cover 1 penetrates through the side surface of the vertical support 2, so that the tubular protective cover 1 is fixed more firmly.

The transverse support 3 supports the vertical support 2, and the transverse support 3 can be fixed on the outer wall of a building and can be an aluminum profile or a plastic steel profile, so that the installation and punching are convenient, and the installation is light. As shown in fig. 1 and 2, a row of transverse brackets 3 is connected to the top of each vertical bracket 2, and a row of transverse brackets 3 is connected to the bottom of each vertical bracket 2, so that each vertical bracket 2 is stressed evenly and supported stably.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. In order that the components of the present invention may be combined without conflict, it is intended that all equivalent changes and modifications made by those skilled in the art without departing from the spirit and principles of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a pneumatic curtain wall construction which characterized in that, pneumatic curtain wall construction includes:

the protective device comprises a tubular protective cover (1) and a fan, wherein the tubular protective cover is a tubular section, an installation groove is formed in the tubular section, an opening (10) for a wind-driven piece to swing is formed in the bottom of the tubular protective cover, and the opening is located below the installation groove;

the pneumatic sheet connecting device (4) is arranged in the tubular protective cover (1) and is surrounded by the tubular protective cover, a limiting device (6) is arranged on the pneumatic sheet connecting device, and the limiting device comprises a transverse limiting part for limiting the translation of the pneumatic sheet and a circumferential limiting part for limiting the swing of the pneumatic sheet;

pneumatic piece (5) are connected on pneumatic piece connecting device through stop device (6), and follow opening (10) stretches out the tubulose safety cover downwards, be equipped with a plurality of pneumatic pieces on the tubulose section bar, every tubulose section bar all is located a plane with a plurality of pneumatic pieces on it, and the axis of tubulose section bar is unanimous with the length direction of each pneumatic piece, pneumatic piece connecting device installation and joint are in the mounting groove.

2. The wind-driven curtain wall structure of claim 1, wherein the mounting slot comprises: top mounting groove (11) and being located bottom mounting groove (7) of top mounting groove below, wind piece connecting device (4) include: top ka tai (41) and connection bottom supporting leg (42) of top ka tai, top ka tai and top mounting groove joint and support tightly under the top mounting groove, bottom supporting leg and bottom mounting groove joint and support are in on the bottom mounting groove.

3. The wind-driven curtain wall structure as claimed in claim 2,

the top mounting groove (11) includes: the top clamping device comprises two side edges (110) and a top edge (111) connected between the two side edges, wherein the two side edges and the top edge are connected to form a middle-included type, the top surface of the top clamping table is tightly propped against the lower part of the top edge, and the side surface of the top clamping table is limited between the two side edges; the bottom mounting groove (7) comprises: the bottom surface (70) of bottom mounting groove and connect side (71) of the bottom mounting groove of the bottom surface of bottom mounting groove, the bottom surface of bottom mounting groove and the side of bottom mounting groove are connected and are formed the L type, and bottom surface (420) of bottom supporting leg supports on the bottom surface of bottom mounting groove, and side (421) of bottom supporting leg support tightly on the side of bottom mounting groove.

4. The wind curtain wall structure as claimed in claim 3, wherein in each wind blade connecting device, the number of the top clamping platforms is 1, the number of the bottom supporting legs is 2, and the top clamping platforms (41) and the bottom supporting legs (42) form a triangular supporting structure.

5. The wind-driven curtain wall structure as claimed in claim 3, wherein the limiting device (6) is a hollow inverted triangular or fan-shaped hollow tube, the limiting device comprises two baffles (8) forming an included angle for limiting the swinging of the wind-driven blade, and a top connecting plate (9) connected to the top of the baffles, the two baffles and the top connecting plate form the triangular or fan-shaped hollow space therebetween, and the circumferential limiting part is formed by the two baffles; the top clamping table is connected to the top connecting plate, and the outer side of each baffle is connected with a bottom supporting leg.

6. The wind driven curtain wall structure as claimed in claim 5, wherein the wind driven blade (5) is rectangular sheet-shaped, the left and right sides of the upper part of the wind driven blade are respectively provided with an open slot (12), the top of the open slot on each side is provided with an outwardly protruding sheet clamping plate (120), each side of the wind driven blade is respectively provided with a limiting device or a wind driven blade connecting device, each wind driven blade is connected to the tubular protective cover through two limiting devices or wind driven blade connecting devices, in each limiting device, two baffles are intersected to form an intersection part (425), the intersection part (425) extends into and is clamped in the open slot (12) on each of the left and right sides of the upper part of the wind driven blade, and the sheet clamping plate extends into the limiting device and is supported at the bottom of the inverted triangle or the fan shape.

7. The wind-driven curtain wall structure of claim 6, further comprising:

the protective device comprises a plurality of vertical supports (2) which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of vertical support is the hollow tube of rectangle, is equipped with on the vertical support and installs mount pad (60) of tubulose protective cover, mount pad (60) include: chassis (610) with the side laminating of vertical support (2), setting are in sleeve (603) on the chassis and setting are in on the chassis and be located mounting hole (601) around sleeve (603), the tubulose safety cover is held in sleeve (603), be equipped with bolt or rivet in mounting hole (601).

8. The wind-driven curtain wall structure of claim 1, further comprising:

the protective device comprises a plurality of vertical supports (2) which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of the vertical support is a rectangular hollow tube, and a through hole penetrating through the tubular protective cover is formed in the vertical support.

9. A layered air curtain wall structure, comprising an air curtain wall structure as claimed in any one of claims 1 to 8, wherein the number of tubular protective covers is at least one row and at least one column, each row and column being provided with one or more tubular protective covers, each tubular protective cover being arranged horizontally; each tubular protective cover is provided with a plurality of wind-driven pieces,

the tubular protective covers in each row are mutually parallel to form a first plane, each tubular protective cover in each row and the plurality of wind-driven pieces on the tubular protective covers form a second plane, and the first plane is vertical to the second plane;

all the wind blades are arranged at intervals and independently, and all the wind blades form a three-dimensional matrix positioned on a plurality of planes.

10. The tiered wind curtain wall structure of claim 9 further comprising:

the protective device comprises a plurality of vertical supports (2) which are arranged in parallel, wherein each vertical support is provided with at least one row of tubular protective covers or a plurality of rows of tubular protective covers which are arranged in parallel from top to bottom; the cross section of the vertical support is a rectangular hollow tube, and a through hole penetrating through the tubular protective cover is formed in the vertical support;

one or more rows of transverse brackets connecting each of the vertical brackets, the transverse brackets being perpendicular to the tubular protective covering, and the transverse brackets being located outside the perforations.

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