CN113356426A - Large-size sunshade line node structure for unit curtain wall and construction method - Google Patents

Abstract

The invention relates to the technical field of other parts or components for building decoration, and discloses a large-size sunshade line node structure for a unit curtain wall, which comprises vertical sunshade lines of the same size, wherein the vertical sunshade lines are anchored in pairs at the left side and the right side of the same unit plate; two vertical sunshade lines in pairs are connected into a whole by virtue of a transverse sunshade line, and a sunshade unit formed by the two vertical sunshade lines is fixedly connected with a unit plate block where the two vertical sunshade lines are located. Bending moment of the sunshade unit on the unit plate due to side wind load is converted into tension, so that damage to the unit plate due to rotation of the sunshade unit is avoided; and all sunshade lines are all installed on the unit plate, can accompany the unit plate and carry out assembled installation, and the most assembling work of sunshade unit itself can be accomplished in the prefabricated field, and the on-the-spot only needs to carry out simple assembly, has shortened whole construction period to a great extent.

Description

Large-size sunshade line node structure for unit curtain wall and construction method

Technical Field

The invention relates to the technical field of other parts or components for building decoration, in particular to a large-size sunshade line node structure for a unit curtain wall and a using method thereof.

Background

Curtain walls are commonly used in modern buildings, and the special outer wall enclosure can greatly improve the appearance of the buildings. However, the curtain wall is easy to cause serious reflected light pollution, and the thin plate adopted in the curtain wall can reach very high temperature under the sun exposure, so that the aging of the curtain wall is accelerated, and the energy consumption of the air conditioner is improved to a certain extent.

Adopt the curtain moulding to carry out the sunshade to the curtain, be a fine solution curtain various adverse effects's that bring scheme, need not increase new component, only need change the size of choosing outward of moulding. That is, the sunshade effect can be achieved only by extending the molding outwards a little more (which may be vertical, horizontal, or both, and is usually vertical).

Compared with the traditional frame type curtain wall, the unit curtain wall is formed by assembling and constructing one unit plate, and does not need to be assembled part by part like the frame type curtain wall, so that the construction efficiency is high, and the construction period can be greatly shortened.

For the existing unit curtain wall, the installation nodes of the vertical decorative lines are divided into two types, one type is to install the decorative lines on the upright posts of the unit plates, and the other type is to install the decorative lines on the main structure of the building. The side wind load borne by the unit plate belongs to torsion for the upright post of the unit plate, the upright post is made of aluminum section, the torsional strength is poor, and the side wind load has great influence on the upright post; the latter is more stable but not easy to assemble, which can significantly prolong the construction period.

For the vertical decorative line for shading sun, because the overhanging size of the vertical decorative line is obviously larger than that of the common decorative line, the lateral wind load is also obviously larger, if the vertical decorative line is arranged on the upright post of the unit plate, two problems are caused, one is that the whole unit plate is driven to rotate, so that the curtain wall fluctuates; the second is the column where the torsional damage is located. At present, the overhanging size of the decorative line is reduced (but the sun shading effect is obviously weakened), or the decorative line is installed on the main structure of the building (but the construction period is prolonged).

Disclosure of Invention

The invention provides a large-size sunshade line node structure for a unit curtain wall and a using method thereof.

The technical problem to be solved is that: when the unit curtain wall is provided with the vertical decorative lines for shading, the outward projecting size is limited by the side wind load, so that the shading effect is influenced; the construction period can be prolonged when the building main body structure is arranged on the building main body structure.

In order to solve the technical problems, the invention adopts the following technical scheme: a large-size sunshade line node structure for a unit curtain wall comprises vertical sunshade lines of the same size, wherein the vertical sunshade lines are anchored in pairs on the left side and the right side of the same unit plate;

and rigid transmission parts fixedly connected with the two vertical sunshade lines are arranged between the two paired vertical sunshade lines, and the two vertical sunshade lines and the rigid transmission parts are combined into an integral component which is recorded as a sunshade unit.

Further, a unit plate with a vertical sunshade line is marked as an A unit plate, a unit plate without the vertical sunshade line is marked as a B unit plate, and the A unit plate and the B unit plate are arranged in a staggered manner in the horizontal direction; all vertical sunshade lines of the same vertical row are connected into a whole through the inserting core.

Furthermore, the unit columns on the left side and the right side of the unit plate A are both male columns.

Furthermore, the vertical sunshade lines are anchored on the unit upright columns on the left side and the right side of the unit plate A through vertical adapters, the vertical adapters are plate-shaped and are inserted in the seams between the unit plate A and the unit plate B, and the plate surface is perpendicular to the curtain wall, clings to the unit upright columns of the unit plate A and is fixedly connected with the unit upright columns; the vertical adaptor extends outwards to form a joint between the unit plate A and the unit plate B and then is fixedly connected with the vertical sunshade strip.

Furthermore, a heat insulation rubber mat is filled between the vertical adaptor and the connected unit upright post, and is detachably connected with the unit upright post through a countersunk head screw; the back of the vertical sunshade line is provided with a groove which extends vertically and has a T-shaped cross section, and a buckle cover is plugged at the opening of the groove; the one end that vertical adaptor stretched out the seam of A unit plate and B unit plate pierces through stretch into behind the buckle closure in the recess, and be located the recess the part buckle for with recess assorted T font connector, vertical moulding passes through the screw and can dismantle with T font connector and be connected.

Further, the rigid transmission part is fixedly connected with the adjacent A unit plate block, the A unit plate block is provided with at least three unit beams, and the rigid transmission part is anchored on the unit beams outside the top and the bottom of the A unit plate block.

Further, the rigid transmission part is a transverse sunshade strip, the transverse sunshade strip is detachably connected with the vertical sunshade strips on the two sides through screws respectively, and is fixedly connected with the adjacent A unit plate through a transverse adaptor.

Furthermore, the transverse adaptor comprises two plates which are perpendicular to each other and connected into a whole, one plate is inserted into the transverse sunshade strip and is detachably connected with the transverse sunshade strip through a screw, and the other plate is attached to the unit beam of the unit plate A and is detachably connected with the unit beam through a screw.

Furthermore, jumbo size moulding node structure still includes the horizontal occupy-place lines that is used for filling the vacancy between two adjacent pairs of vertical moulding, horizontal occupy-place lines be with the moulding of horizontal moulding with the specification, with horizontal moulding one-to-one and equal altitude setting, and pass through horizontal adaptor fixed connection with the unit crossbeam of adjacent B unit plate.

A construction method for a large-size sunshade line of a unit curtain wall is characterized in that the installation of the sunshade line is completed by adopting the large-size sunshade line node structure for the unit curtain wall; and comprises the following steps:

the method comprises the following steps: combining the vertical sunshade lines and the rigid transmission part into a sunshade unit in a prefabricated place;

step two: and transporting the sun-shading unit to a construction site for installation.

Compared with the prior art, the large-size sunshade line node structure for the unit curtain wall and the use method thereof have the following beneficial effects:

according to the invention, two vertical sunshade lines with the same size are arranged on the left side and the right side of the same unit plate, and the two vertical sunshade lines are connected by a rigid transmission part to form a rectangular frame, so that the unit plate cannot be driven to rotate by the torque force of the vertical sunshade lines on the unit plate due to cross wind;

according to the invention, the two vertical sunshade lines and the rigid transmission part are combined into a rigid whole (sunshade unit) to offset torsion generated by side wind pressure, so that bending moment generated by side wind load is converted into tension force to the unit upright post, and the unit upright post is prevented from being twisted and damaged due to the fact that the side wind load acts on the unit upright post as torsion;

in the invention, the rigid transmission part is also fixed on the unit cross beam of the unit plate where the vertical sunshade strip is positioned, and part of the crosswind load of the sunshade strip is applied to the unit cross beam, and the part of the crosswind load is pressure to the unit cross beam, so that the influence on the unit cross beam is small (the compression strength of the aluminum profile is large), and the unit upright post is prevented from being damaged (the torsion strength of the aluminum profile is small) because the crosswind load is applied to the unit upright post as torsion;

according to the invention, the two vertical sunshade lines are connected into a whole by virtue of the transverse sunshade line, so that a sunshade unit is formed, the sunshade unit is arranged on the unit plate and can be assembled along with the unit plate, most of the assembly work of the sunshade unit can be completed in a prefabricated field, and only simple assembly is needed on the site, so that the site construction period is shortened to a great extent, and the installation precision is ensured.

Drawings

FIG. 1 is a top view of a large dimension sunshade strip node construction for a unitized curtain wall of the present invention;

FIG. 2 is a left side view of a large size sunshade strip node construction for a unitized curtain wall of the present invention;

FIG. 3 is a schematic structural view of a vertical adaptor;

FIG. 4 is a schematic view of a cross adapter with screws;

the unit comprises an 11-A unit plate, a 12-B unit plate, 21-vertical sunshade lines, 22-horizontal sunshade lines, 23-horizontal occupying lines, 31-vertical adapters, 311-T-shaped connectors, 32-horizontal adapters and 33-ferrules.

Detailed Description

As shown in fig. 1-2, a large-size sunshade line node structure for a unit curtain wall comprises vertical sunshade lines 21 of the same size anchored pairwise on the left and right sides of the same unit plate;

rigid transmission parts fixedly connected with the two vertical sunshade lines 21 are arranged between the two vertical sunshade lines 21 in pairs respectively, and the two vertical sunshade lines 21 and the rigid transmission parts are combined into an integral component which is recorded as a sunshade unit.

The rigid transmission part is also fixedly connected with the unit plate where the two vertical sunshade lines 21 are located, and the connection between the rigid transmission part and the unit plate is not necessary, so that the stress is small in practical construction, but a part of force can be shared;

the rigid transmission part, the unit plate and the two vertical sunshade lines 21 form a rectangular frame, and force analysis is carried out, so that the torsion of the two vertical sunshade lines 21 to the unit upright post in the structure can not drive the whole unit plate to rotate but only can enable the unit plate to translate;

meanwhile, a large part of the side wind load of the sunshade lines is applied to the unit plate, and the two vertical sunshade lines 21 and the rigid transmission part are combined into a rigid whole to counteract torsion generated by side wind pressure, so that bending moment generated by the side wind load is converted into tension on the unit upright post, and the unit upright post is prevented from being twisted and damaged due to the fact that the side wind load is applied to the unit upright post as torsion.

The curtain wall units with the vertical sunshade lines 21 are marked as A curtain wall units, the curtain wall units without the vertical sunshade lines 21 are marked as B curtain wall units, and the A curtain wall units and the B curtain wall units are arranged in a staggered mode in the horizontal direction; that is, the curtain wall unit A and the curtain wall unit B are arranged in the sequence of ABAB … on the same horizontal line, so that the vertical sunshade lines 21 are distributed at the vertical joint positions of all the unit plate blocks.

Each vertical sunshade line 21 of same vertical column links as an organic whole through lock pin 33, not only makes vertical sunshade line 21 seem like a whole like this, and the crosswind load that it received also can distribute to whole curtain in addition, and it is more even to distribute, can be fine resist local strong crosswind between the building.

In this embodiment, the unit columns on the left and right sides of the curtain wall unit a are both male columns. The reason why the sunshade strip is mounted on the male pillar is that a gap into which the vertical adaptor 31 can be inserted exists in the position of the male pillar in the embodiment, and the male pillar is stressed much stronger than the female pillar, so that the double male material design is considered.

The vertical sunshade strips 21 are anchored on the unit upright columns on the left side and the right side of the curtain wall unit A through vertical adapters 31, as shown in FIG. 3, the vertical adapters 31 are plate-shaped and are inserted into the joint seams between the curtain wall unit A and the curtain wall unit B, and the plate surface is perpendicular to the curtain wall, clings to the unit upright columns of the curtain wall unit A and is fixedly connected with the unit upright columns; the vertical adaptor 31 extends outwards to form a joint between the curtain wall unit A and the curtain wall unit B and then is fixedly connected with the vertical sunshade strip 21.

This connection structure is very simple, does not affect the assembly of the entire unit panel, allows the vertical sunshade strip 21 to be installed on the unit panel in a prefabrication plant, and is installed one by one along with the installation of the unit panel when installing the curtain wall on site. And the fixing effect on the vertical sunshade line 21 is also reliable enough due to the cooperation with the rigid transmission part.

A heat insulation rubber mat is filled between the vertical adaptor 31 and the connected unit upright post, and is detachably connected with the unit upright post through a countersunk head screw; the back of the vertical sunshade line 21 is provided with a vertically extending groove with a T-shaped cross section, and a buckle cover is plugged at the opening of the groove; one end of the vertical adapter piece 31 extending out of a joint of the curtain wall unit A and the curtain wall unit B penetrates through the buckle cover and then extends into the groove, the part located in the groove is bent into a T-shaped connector 311 matched with the groove, and the vertical sunshade strip 21 is detachably connected with the T-shaped connector 311 through screws.

The connecting structure ensures that two ends of the vertical connecting piece cannot be loosened, and simultaneously ensures that the whole structure is attractive after installation and internal components cannot be exposed.

The rigid transmission part is fixedly connected with the adjacent curtain wall unit A, the curtain wall unit A is provided with at least three unit cross beams, and the rigid transmission part is anchored on the unit cross beams outside the top and the bottom of the curtain wall unit A.

The rigid transmission piece is arranged on the unit cross beam outside the edge for two reasons, one is to avoid influencing the assembly of the whole unit plate, and the other is to apply the cross beam in the middle with smaller stress, so that the lateral wind load is applied to the unit cross beam without influencing the stress of the unit cross beam.

In this embodiment, the rigid transmission member is a horizontal sunshade strip 22, and the horizontal sunshade strip 22 is detachably connected to the vertical sunshade strips 21 on both sides through screws, and is fixedly connected to the adjacent curtain wall unit a through a horizontal adaptor 32.

As shown in fig. 4, the transverse adaptor 32 includes two plates perpendicular to each other and connected together, one plate is inserted into the transverse sunshade strip 22 and detachably connected to the transverse sunshade strip 22 by screws, and the other plate is disposed against and detachably connected to the unit beam of the a-curtain wall unit by screws.

The large-size sunshade line node structure further comprises transverse position occupying lines 23 used for filling the vacant positions between the two adjacent pairs of vertical sunshade lines 21, wherein the transverse position occupying lines 23 are decoration lines with the same specification as the transverse sunshade lines 22, are in one-to-one correspondence with the transverse sunshade lines 22 and are arranged at the same height as the transverse sunshade lines 22, and are fixedly connected with unit cross beams of the adjacent B curtain wall units through transverse connectors 32.

The transverse placeholder lines 23 are here intended to connect the discontinuous transverse sunshade lines 22 as one continuous whole.

A construction method for a large-size sunshade line of a unit curtain wall is characterized in that the installation of the sunshade line is completed by adopting the large-size sunshade line node structure for the unit curtain wall; and comprises the following steps:

the method comprises the following steps: combining the vertical sunshade line 21 and the rigid transmission part into a sunshade unit in a prefabricated place;

step two: and transporting the sun-shading unit to a construction site for installation.

Compared with the traditional assembling and installing mode, the installing mode is simpler and more convenient, most assembling work of the sunshade unit can be completed in a prefabricated field, only simple assembling is needed on the field, the whole construction period is shortened to a great extent, and the installing precision is ensured. The sunshade unit can be installed on site, and can also be installed on the unit plate in advance, thereby further shortening the construction period.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a jumbo size sunshade line node construction for unit curtain wall which characterized in that: comprises vertical sunshade lines (21) which are anchored in pairs at the left side and the right side of the same unit plate and have the same size;

rigid transmission parts which are respectively fixedly connected with the two vertical sunshade lines (21) are arranged between the two vertical sunshade lines (21) in pairs, and the two vertical sunshade lines (21) and the rigid transmission parts are combined into an integral component which is recorded as a sunshade unit.

2. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 1, wherein: the unit plate with the vertical sunshade strips (21) is marked as an A unit plate (11), the unit plate without the vertical sunshade strips (21) is marked as a B unit plate (12), and the A unit plate (11) and the B unit plate (12) are arranged in a staggered mode in the horizontal direction; all the vertical sunshade lines (21) in the same vertical column are connected into a whole through the inserting core (33).

3. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 2, wherein: the unit upright columns on the left side and the right side of the unit plate block A (11) are male upright columns.

4. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 2, wherein: the vertical sunshade strips (21) are anchored on unit columns on the left side and the right side of the A unit plate (11) through vertical adapters (31), the vertical adapters (31) are plate-shaped and are inserted into a joint of the A unit plate (11) and the B unit plate (12), and the plate surface is perpendicular to a curtain wall, clings to the unit columns of the A unit plate (11) and is fixedly connected with the unit columns; the vertical adaptor (31) extends outwards to form a joint between the unit plate A (11) and the unit plate B (12) and then is fixedly connected with the vertical sunshade strip (21).

5. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 4, wherein: the vertical adaptor (31) is filled with a heat insulation rubber mat between the connected unit upright columns and is detachably connected with the unit upright columns through countersunk screws; the back of the vertical sunshade line (21) is provided with a vertically extending groove with a T-shaped cross section, and a buckle cover is plugged at the opening of the groove; vertical adaptor (31) stretch out the one end of the seam of A unit plate (11) and B unit plate (12) and pierce through stretch into behind the buckle closure in the recess, and be located the recess the part buckle be with recess assorted T font connector (311), vertical moulding (21) can be dismantled with T font connector (311) through the screw and be connected.

6. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 1, wherein: the rigid transmission part is fixedly connected with the adjacent A unit plate block (11), the A unit plate block (11) is provided with at least three unit beams, and the rigid transmission part is anchored on the unit beams outside the top and the bottom of the A unit plate block (11).

7. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 6, wherein: the rigid transmission part is a transverse sunshade strip (22), the transverse sunshade strip (22) is detachably connected with the vertical sunshade strips (21) on the two sides through screws respectively, and is fixedly connected with the adjacent A unit plate block (11) through a transverse adaptor (32).

8. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 7, wherein: the transverse adaptor (32) comprises two plates which are perpendicular to each other and connected into a whole in parallel, one plate is inserted into the transverse sunshade strip (22) and detachably connected with the transverse sunshade strip (22) through screws, and the other plate is attached to the unit beam of the A unit plate (11) and detachably connected with the unit beam through screws.

9. A large-size sunshade line node construction for a unitized curtain wall as claimed in claim 8, wherein: the large-size sunshade line node structure further comprises transverse position occupying lines (23) used for filling vacant positions between two adjacent pairs of vertical sunshade lines (21), wherein the transverse position occupying lines (23) are decorative lines with the same specification as the transverse sunshade lines (22), correspond to the transverse sunshade lines (22) one by one and are arranged at the same height, and are fixedly connected with unit beams of adjacent B unit plates (12) through transverse connectors (32).

10. A construction method for a large-size sunshade line of a unit curtain wall is characterized by comprising the following steps: the installation of the sunshade strip is completed by adopting a large-size sunshade strip node construction for a unit curtain wall as claimed in any one of claims 1 to 9; and comprises the following steps:

the method comprises the following steps: combining a vertical sunshade line (21) and a rigid transmission part into a sunshade unit in a prefabricated place;

step two: and transporting the sun-shading unit to a construction site for installation.

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