CN216740289U - Cross-layer vertical sun-shading shutter system - Google Patents

Abstract

The utility model discloses a vertical sunshade tripe system of cross-layer strides across two-layer building and is located between the three-layer floor, include: the embedded part is embedded on the wall corresponding to the middle floor slab and/or the lower floor slab of the three floor slabs; the first keel penetrates through a wall body of the metal curtain wall and is perpendicular to the floor slab and is arranged on the embedded part; the second keel is vertically arranged on the first keel, spans two floors, is positioned between three floors, and is arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel; the blades span the two floors and are arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel between the three floors, and the blades are sleeved on the second keels. The utility model discloses can realize that the cross-layer sets up the vertical sunshade tripe system of cross-layer, structural stability is high, the security is good, can effectively shelter from the sunlight that shines to one side from the side direction, has realized reducing the purpose of building energy consumption.

Description

Cross-layer vertical sun-shading shutter system

Technical Field

The utility model relates to a building engineering technical field, in particular to vertical sunshade tripe system of cross-layer.

Background

In the building trade, for reducing the building energy consumption, a vertical sunshade tripe system has appeared in glass curtain wall and aluminum plate curtain coexistent commercial building, including setting up the blade that sets up between the aluminum plate curtain wall on the wall body that the floor of building corresponds, blade evenly distributed and perpendicular to glass curtain wall to the angle change that falls is gone up west according to sun carries out the side direction sunshade, reduces the sunshine radiation, improves indoor light and heat environmental quality, improves indoor comfort level. The aluminum plate curtain wall has the defects that the upper end and the lower end of each blade are connected to the aluminum plate curtain wall, so that the structural stress of the aluminum plate curtain wall is influenced, the bearing capacity of the aluminum plate curtain wall is increased, and potential safety hazards exist. In order to pursue the whole visual aesthetic effect of outer decorative surface, aluminum plate curtain wall often strides the layer and arranges, the length of blade this moment is the height of two-layer floor, thereby lead to blade and aluminum plate curtain wall's being connected unreliable, the structure atress is inhomogeneous, blade interlude overlength and do not have the connection, thereby influence the stability of blade, the whole weight of blade of striding the layer is heavier in addition, the bearing capacity of aluminum plate curtain wall has seriously been influenced, lead to blade and aluminum plate curtain wall's security relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a vertical sunshade tripe system of cross-layer is provided to the poor, the poor problem of security of structural stability who solves.

In order to solve the technical problem, the utility model provides a technical scheme is: a vertical sunshade tripe system strides across layer, strides across two-stories building and is located between three-layer floor, includes:

the embedded part is embedded on the wall corresponding to the middle floor slab and/or the lower floor slab of the three floor slabs;

the first keel penetrates through a wall body of the metal curtain wall and is perpendicular to the floor slab and is arranged on the embedded part;

the second keel is vertically arranged on the first keel, spans two floors, is positioned between three floors, and is arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel;

the blades span the two floors and are arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel between the three floors, and the blades are sleeved on the second keels.

Further, the utility model provides a vertical sunshade tripe system of cross-layer, the blade includes preceding blade and back blade, preceding blade and back blade junction place terminal surface all are provided with the end plate that is on a parallel with metal curtain, the end plate is connected with the connecting piece through the fastener, the connecting piece passes through the screw connection and is in on the second fossil fragments, the spiral-lock has the decoration buckle between the gap of preceding blade and back blade junction.

Further, the utility model provides a vertical sun-shading tripe system of layer strides, it is in through support piece spiral-lock to decorate the buckle between the gap of preceding blade and back blade junction, support piece sets up second fossil fragments perhaps on the connecting piece.

Further, the utility model provides a vertical sunshade tripe system of cross-layer, decorate the buckle with be provided with buckle structure on the support piece, it is in to decorate the buckle joint support piece is last.

Further, the utility model provides a vertical sunshade tripe system of cross-layer, the connecting piece is L type connecting piece, the end plate of preceding blade and back blade sets up through an L type connecting piece respectively on the second fossil fragments, and two the crisscross distribution of L type connecting piece is in on the second fossil fragments.

Further, the utility model provides a vertical sunshade tripe system strides layer, the screw will through the gland L type connecting piece is connected on the second fossil fragments, the gland covers two on the L type connecting piece.

Further, the utility model provides a vertical sunshade tripe system strides layer, the connecting piece is U type connecting piece.

Further, the utility model provides a vertical sun-shading tripe system strides layer, at least one side of blade perpendicular to metal curtain wall is the inclined plane.

Further, the utility model provides a vertical sun-shading tripe system of cross-layer still includes:

the adaptor is arranged on a curtain wall keel of an outer decorative plate positioned at an upper floor of the three floors and sleeved at the upper end of the second keel;

the bolt is connected to the adapter piece and the second keel;

further, the utility model provides a vertical sun-shading tripe system of cross-layer still includes:

the socket joint piece is arranged on a curtain wall keel of an outer decorative plate located at a lower floor slab of the three-layer floor slab, and is sleeved at the lower end of the second keel.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model provides a vertical sunshade tripe system of cross-layer makes first fossil fragments be located the wall body that middle level floor and/or lower floor's floor of three-layer floor correspond through burying underground on the wall body that middle level floor and/or lower floor's floor of three-layer floor correspond to on middle part and/or the fixed second fossil fragments that set up in lower part, can guarantee the stable connection of second fossil fragments, and then make the cover establish the blade on the second fossil fragments and keep stable the connection, thereby improved the stability and the reliability that the blade is connected. After the blades are connected, the stress of the blades is transmitted to the first keel through the second keel, then transmitted to the embedded part through the first keel, and then transmitted to the wall body through the embedded part, so that the stress stability of the blades is ensured, and the safety of the blades is improved. Because the blade is perpendicular to the outer side surfaces of the metal curtain wall and the glass curtain wall, the blade can effectively shield sunlight obliquely emitted from the side direction, and the purpose of reducing the energy consumption of the building is achieved.

Drawings

FIG. 1 is a perspective view of a cross-level vertical sun shade system in an installed state;

FIG. 2 is a schematic side view of a cross-level vertical sun shade system;

FIG. 3 is a schematic cross-sectional view of the node B or C in FIG. 2;

FIG. 4 is an enlarged structural view of the blade of FIG. 3 in connection with a second runner;

FIG. 5 is a schematic view of a blade configuration;

FIG. 6 is a schematic cross-sectional structure view of a metal curtain wall, a glass curtain wall and a cross-layer vertical sun-shading shutter system;

FIG. 7 is an enlarged view of the nodes at A and D of FIG. 6;

shown in the figure:

100. a floor slab;

200. a glass curtain wall;

300. the metal curtain wall comprises a metal curtain wall body, 310 embedded parts, 320 hot-dip galvanized adapter parts, 330 longitudinal keels, 340 transverse keels, 350 cross bolts, 360 corner connectors, 370 end parts, 380 metal panels;

400. an outer decorative plate 410, an outer decorative plate embedded part 420 and a curtain wall keel;

500. a cross-layer vertical sun-shading shutter system;

510. embedding parts;

520. a first keel;

530. a second keel;

540. the blade, 541, the rear blade, 542, the front blade, 543, the connecting piece, 544, the fastener, 545, the decorative buckle, 546, the supporting piece, 547, the end plate, 548, the screw, 549, and the gland;

550. an adapter;

560. a bolt;

570. a socket.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings: the advantages and features of the present invention will become more apparent from the following description. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.

Referring to fig. 1 to 7, an embodiment of the present invention provides a cross-floor vertical sun blind system 500, which spans two floors and is located between three floors 100, and may include:

the embedded part 510 is embedded in the wall corresponding to the middle floor 100 and/or the lower floor 100 of the three floors 100; in order to reduce the cost, fig. 3 shows the embedded part 510 being shared with the embedded part 310 of the metal curtain wall 300, in which case the embedded part 510 and the embedded part 310 are the same part.

The first keel 520 penetrates through the wall body of the metal curtain wall 300 and is perpendicular to the floor slab 100 and is arranged on the embedded part 510; wherein the first keel 520 may be a square steel tube or the like. In order to reduce the weight and improve the safety during use, the metal curtain wall 300 may be an aluminum plate or an aluminum alloy plate.

And the second keel 530 is vertically arranged on the first keel 520, and the second keel 530 spans two floors and is positioned between the three floors 100 and is arranged on the outer side surfaces of the glass curtain wall 200 and the metal curtain wall 300 at intervals in parallel. Wherein the glass curtain wall 200, the metal curtain wall 300 and the node connection structure thereof can adopt the technology known in the art.

The blades 540 are arranged on the outer side surfaces of the glass curtain wall 200 and the metal curtain wall 300 in parallel at intervals and between the three floor slabs 100 across the two floors, and the blades 540 are sleeved on the second keels 530.

Referring to fig. 4 and 5, the blade 540 includes a front blade 542 and a rear blade 541, end plates 547 parallel to the metal curtain wall 300 are disposed on end surfaces of joints of the front blade 542 and the rear blade 541, the end plates 547 are connected to connectors 543 through fasteners 544 such as bolts, rivets, pins, and the like, the connectors 543 are connected to the second keels 530 through screws 548, and decorative buckle plates 545 are fastened between gaps at the joints of the front blade 542 and the rear blade 541. The blade 540 may be a metal aluminum or aluminum alloy plate. The blades 540 are sleeved outside the second keel 530 and connected through the front and rear blades, so that the strength of the cross-layer blades 540 can be ensured.

Referring to fig. 4, in order to improve the reliable installation of the decorative buckle 545, in the cross-layer vertical sun blind system 500 according to an embodiment of the present invention, the decorative buckle 545 is fastened between the gap at the joint of the front blade 542 and the rear blade 541 by the supporting member 546, and the supporting member 546 is disposed on the second keel 530 or the connecting member 543. Wherein the support 546 may be "T" shaped. In order to ensure the reliable connection between the decorative buckle plate 545 and the support 546, the decorative buckle plate 545 and the support 546 are provided with a snap structure, and the decorative buckle plate 545 is snapped on the support 546.

Referring to fig. 4, in order to improve the reliability of the front blade 541 and the rear blade 542 connected to the second keel 530, in the embodiment of the present invention, the connecting piece 543 may be an L-shaped connecting piece 543 of the cross-layer vertical sun blind system 500, the end plates 547 of the front blade 542 and the rear blade 541 are respectively disposed on the second keel 530 through an L-shaped connecting piece 543, and the two L-shaped connecting pieces 543 are distributed on the second keel 530 in a staggered manner. The connection between the front blade 542 and the rear blade 541 and the second keel 530 are independent and not related to each other, so that the stress of the front blade 542 and the stress of the rear blade 541 cannot influence each other, thereby improving the reliability of the blade connection and improving the safety in use.

Referring to fig. 4, in order to avoid that the screw 548 is directly connected to the second keel 530 through the L-shaped connecting piece 543, which may cause loose connection of the L-shaped connecting piece 543, in the cross-layer vertical sunshade slat system 500 according to an embodiment of the present invention, the screw 548 connects the L-shaped connecting piece 543 to the second keel 530 through the gland 549, and the gland 549 covers two of the L-shaped connecting pieces 543. The L-shaped connector 543 can be press-coupled by the gland 549. The gap between the front and rear leaves is easily adjusted by the L-shaped connection 543 to leave a suitable clearance for the decorative gusset 545.

The embodiment of the utility model provides a vertical sunshade tripe system 500 of cross-layer, blade 540 and second fossil fragments 530 can be assembled at the processing factory after the scene of motion integral hoisting, have practiced thrift on-the-spot installation time, have improved the installation accuracy, have reduced on-the-spot fire that moves, have improved construction safety.

In order to realize that preceding blade 542 and back blade 541 all can be connected on second fossil fragments 530, the embodiment of the utility model provides a vertical sun-shading tripe system 500 strides layer, connecting piece 543 can be U type connecting piece 543. At this time, the front blade 542 and the rear blade 541 are interlocked with each other, and the gap between the front and rear blades is fixed.

Referring to fig. 4 and 5, in order to improve the oblique shading effect, in the cross-layer vertical shading louver system 500 according to the embodiment of the present invention, at least one side of the blade 540 perpendicular to the metal curtain wall 300 is an inclined plane.

Referring to fig. 6 to fig. 7, in order to improve the connection reliability, the cross-layer vertical sun blind system 500 according to an embodiment of the present invention may further include:

and an adaptor 550 disposed on the curtain wall keel 420 of the exterior decorative plate 400 at the upper floor 100 of the three-layered floor 100 and sleeved on the upper end of the second keel 530.

And a bolt 560 connected to the adaptor 550 and the second keel 530. The upper end of the second keel 530 is connected to the adaptor 550 arranged on the curtain wall keel 420 through the bolt 560, so that the reliable connection of the second keel 530 is further improved, and the use safety is improved.

Referring to fig. 6 to 7, in order to ensure the stability and safety of the structure, the cross-layer vertical sun-shading louver system 500 provided in the embodiment of the present invention may further include:

and the socket 570 is arranged on the curtain wall keel 420 of the outer decorative plate 400 positioned on the lower floor slab 100 of the three-layer floor slab 100 and sleeved at the lower end of the second keel 530. Wherein the socket 570 is not connected to the second keel 530, but only in a socket relationship, for the purpose of preventing the structure from being stretched upward or sinking to enable the second keel 530 to be able to telescope relative to the socket 570, thereby ensuring the structural stability of the second keel 530 and the blades 540 thereon. Simultaneously, also can be suitable for the temperature variation and cause expend with heat and contract with cold phenomenon and make second fossil fragments 530 can stretch out and draw back for cup joint 570, improve structural safety. Through the socket 570, interlayer displacement can be effectively eliminated.

The embodiment of the utility model provides a vertical sunshade tripe system 500 of cross-layer, through bury the built-in fitting 510 on the wall body that middle level floor 100 of three-layer floor 100 and/or lower floor 100 correspond underground make first fossil fragments 520 be located the middle level floor 100 of three-layer floor 100 and/or the wall body that lower floor 100 corresponds, with at middle part and/or the fixed second fossil fragments 530 that sets up in lower part, can guarantee the stable connection of second fossil fragments 530, and then make the cover establish the blade 540 that establishes on second fossil fragments 530 and keep the stable connection, thereby the stability and the reliability that blade 540 connects have been improved. After the blades 540 are connected, the stress of the blades 540 is transmitted to the first keel 520 through the second keel 530, then transmitted to the embedded part 510 through the first keel 520, and then transmitted to the wall through the embedded part 510, so that the stress stability of the blades 540 is ensured, and the safety of the blades 540 is improved. Because the blades 540 are perpendicular to the outer side surfaces of the metal curtain wall 300 and the glass curtain wall 200, the blades 540 can effectively shield sunlight obliquely transmitted from the side direction, improve indoor illuminance, reduce solar radiation of an outer window through sun shading, reduce air conditioning load and achieve the purpose of reducing building energy consumption. The embodiment of the utility model provides a realize that the cross-layer sets up vertical sunshade tripe system, be applicable to the purpose of realizing the sunshade under the lower situation of solar altitude angle.

The embodiment of the utility model provides a vertical sunshade tripe system 500 strides layer, first fossil fragments 520, second fossil fragments 530 all can be for square pipe, and it is independent of metal curtain wall 300, can improve the structural stability and the security of blade to and do not influence metal curtain wall 300's structural stability and security, avoid the mutual influence.

Referring to fig. 3, the embodiment of the present invention provides a cross-layer vertical sun-shading louver system 500, which utilizes the embedded part 510 of the metal curtain wall 300, and does not need to provide an independent bracket, thereby reducing the cost and having the effects of energy saving and environmental protection. The connection structure of the metal curtain wall 300 is well known in the art, and is not an object of the embodiment of the present invention. For example: the metal curtain wall 300 may include an embedded member 310 embedded on a wall of the floor slab 100, a hot-dip galvanized adapter 320 welded on the embedded member 310, a longitudinal keel 330 disposed between three layers of the floor slab 100, a transverse keel 340 disposed on the longitudinal keel 330, a through bolt 350 connected to the longitudinal keel 330 and the hot-dip galvanized adapter 320, a metal panel 380 connected to the transverse keel 340 through an angle code 360, and an end assembly 370 connected between an end of the metal panel 380 and the longitudinal keel 330, wherein the end assembly 370 includes a profile connector, a screw, a gland, etc., and may further include a filler disposed between adjacent metal panels 380, and the filler may be rubber.

Referring to fig. 1 to 2 and 6 to 7, in the cross-layer vertical sun blind system 500 according to the embodiment of the present invention, the outer decorative plate 400 may be a component of the metal curtain wall 300, and the cross section of the outer decorative plate 400 is U-shaped, and the outer end surface of the outer decorative plate 400 protrudes out of the metal curtain wall 300. The outer decorative plate 400 may be an aluminum plate or an aluminum alloy plate, which has advantages of high strength and light weight.

Referring to fig. 4, in order to improve the force stability of the outer decoration plate 400, in the cross-layer vertical sun blind system 500 provided by the embodiment of the present invention, the outer decoration plate 400 is disposed on the curtain wall keel 420 through an angle code, and the curtain wall keel 420 is disposed on the wall body through the outer decoration plate embedded part 410.

The present invention is not limited to the above specific embodiments, and obviously, the above described embodiments are a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention. Other levels of modification and variations of the present invention will occur to those skilled in the art. Thus, if such modifications and variations of the present invention fall within the scope of the claims, then it is intended that the present invention also include such modifications and variations.

Claims (10)

1. The utility model provides a stride a layer vertical sunshade tripe system which characterized in that strides two stories and is located between the three-layer floor, includes:

the embedded part is embedded in a wall corresponding to a middle floor slab and/or a lower floor slab of the three floor slabs;

the first keel penetrates through a wall body of the metal curtain wall and is perpendicular to the floor slab and is arranged on the embedded part;

the second keel is vertically arranged on the first keel, spans two floors, is positioned between three floors, and is arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel;

the blades span the two floors and are arranged on the outer side surfaces of the glass curtain wall and the metal curtain wall at intervals in parallel between the three floors, and the blades are sleeved on the second keels.

2. The cross-layer vertical sun-shading louver system according to claim 1, wherein the blades comprise a front blade and a rear blade, end plates parallel to the metal curtain wall are arranged on end faces where joints of the front blade and the rear blade are located, the end plates are connected with connecting pieces through fasteners, the connecting pieces are connected to the second keels through screws, and decorative buckling plates are buckled between gaps of the joints of the front blade and the rear blade.

3. The cross-level vertical sun blind system of claim 2, wherein the decorative gusset is fastened between the gap at the junction of the front blade and the rear blade by a support member provided on the second runner or the connector.

4. The cross-layer vertical sun blind system according to claim 3, wherein the decorative buckle plate and the support member are provided with a buckle structure, and the decorative buckle plate is clamped on the support member.

5. The cross-layer vertical sun blind system according to claim 2, wherein the connecting members are L-shaped connecting members, the end plates of the front blade and the rear blade are respectively arranged on the second keel through an L-shaped connecting member, and the two L-shaped connecting members are distributed on the second keel in a staggered manner.

6. The cross-level vertical sun blind system according to claim 5, wherein said screw connects said L-shaped connector to said second runner via a gland that overlies both of said L-shaped connectors.

7. The cross-level vertical sun shade shutter system of claim 2, wherein the connectors are U-shaped connectors.

8. The cross-storey vertical sun shade shutter system according to claim 1, wherein at least one side of the blade perpendicular to the metal curtain wall is beveled.

9. The cross-level vertical sun shade shutter system of claim 1, further comprising:

the adaptor is arranged on a curtain wall keel of an outer decorative plate positioned at an upper floor of the three floors and sleeved at the upper end of the second keel;

and the bolt is connected to the adaptor and the second keel.

10. The cross-level vertical sun shade shutter system of claim 1, further comprising:

the socket joint piece is arranged on a curtain wall keel of an outer decorative plate located at a lower floor slab of the three-layer floor slab, and is sleeved at the lower end of the second keel.

Images