CN211974386U - Curtain wall mounting system - Google Patents

Abstract

The utility model relates to a curtain wall mounting system, the curtain wall mounting system includes connecting piece, suspension mechanism, operation platform and guide part, and the connecting piece is connected with the built-in fitting, and suspension mechanism sets up in the top of wall body, and operation platform is connected with suspension mechanism, and the guide part extends to ground from the top of wall body, guide part one end with suspension mechanism is connected, the other end is connected with ground; wherein the operation platform moves along the guide part under the action of the suspension mechanism. Because the guide part is arranged along the trend of the wall body, the operating platform can adjust the angle to adapt to the shape of the wall body in the moving process, and therefore, the curtain wall mounting system can meet the requirement that the engineering main structure frame is an inclined cylinder, and is favorable for improving the construction quality.

Description

Curtain wall mounting system

Technical Field

The utility model relates to a construction field especially relates to curtain installing the system.

Background

The glass curtain wall is a building outer protective structure or decorative structure which has a certain displacement capacity relative to a main structure by a supporting structure system and does not bear the action of the main structure, and is a remarkable characteristic of modern high-rise building times.

Conventional curtain wall frame is the vertical member form, adopts the aluminium alloy to violently erect the frame as the curtain fossil fragments, and the installation is convenient also comparatively simple. However, when the engineering main structure frames are all inclined cylinders, the conventional curtain wall mounting method cannot meet the construction requirement.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a curtain wall mounting system capable of being used for curved surface construction, aiming at the problem that the conventional curtain wall mounting method cannot be applied to the main structural frame which is an inclined cylinder.

The utility model provides a curtain mounting system is applied to the curved surface wall body, the wall body is equipped with the built-in fitting, includes:

the connecting piece is connected with the embedded part;

the hanging mechanism is arranged at the top of the wall body;

the operating platform is connected with the suspension mechanism;

the guide part extends from the top of the wall body to the ground, one end of the guide part is connected with the suspension mechanism, and the other end of the guide part is connected with the ground;

wherein the operation platform moves along the guide part under the action of the suspension mechanism.

In one embodiment, a pulley is arranged on one side of the operating platform close to the wall, one end of the guide part is connected with the suspension mechanism, and the other end of the guide part is connected with the ground after being wound around the pulley.

In one embodiment, the number of the pulleys is two, and the two pulleys are both arranged on one side, close to the wall, of the operating platform.

In one embodiment, the guide part is a steel wire rope, one end of the steel wire rope is connected with the suspension mechanism, and the other end of the steel wire rope is fixed on the ground.

In one embodiment, the suspension mechanism includes a controller, a drive portion, and a lifting portion, the controller being coupled to the drive portion, the drive portion being coupled to the lifting portion, and the lifting portion being coupled to the operating platform.

In one embodiment, the lifting portion includes a first suspension rod, a second suspension rod, a third suspension rod, a first guide wheel and a lifting rope, the first suspension rod and the second suspension rod are disposed in parallel and vertically connected to the top of the wall body, the third suspension rod is connected to the first suspension rod and the second suspension rod, a second guide wheel is disposed at an end of the third suspension rod close to the second suspension rod, the lifting rope is wound around the first guide wheel, the first guide wheel is connected to the driving portion, and the lifting rope is wound around the first guide wheel, then wound around the second guide wheel and connected to the operation platform.

In one embodiment, the lifting portion further comprises a fixing support and a weight member, the fixing support is arranged at the top of the wall body, the first suspension rod is vertically arranged on the fixing support, the weight member is arranged at one end, away from the second guide wheel, of the fixing support, and the weight member is detachably connected with the fixing support.

In one embodiment, the lifting portion further comprises a diagonal brace, one end of the diagonal brace is connected with the first suspension rod, and the other end of the diagonal brace is connected with the fixed bracket.

Among the above-mentioned curtain mounting system, hoist the curtain to the position of treating the installation, then make operation platform remove along the guide part under the effect of hanging the mechanism, when reacing the position of treating the installation, be located operation platform on constructor alright with hang the curtain on the connecting piece to the realization is installed the curtain on the curved surface wall body. Because the guide part is arranged along the trend of the wall body, the operating platform can adjust the angle to adapt to the shape of the wall body in the moving process, and therefore, the curtain wall mounting system can meet the requirement that the engineering main structure frame is an inclined cylinder, and is favorable for improving the construction quality.

Drawings

FIG. 1 is a schematic structural view of a suspension mechanism of the curtain wall mounting system of one embodiment;

3 FIG. 32 3 is 3 a 3 cross 3- 3 sectional 3 view 3 A 3- 3 A 3 of 3 the 3 suspension 3 mechanism 3 shown 3 in 3 FIG. 3 1 3; 3

FIG. 3 is a cross-sectional view B-B of the suspension mechanism shown in FIG. 1;

FIG. 4 is a schematic view of a curtain wall hoist according to an embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The scheme provides a curtain wall mounting system, as shown in fig. 1-3, the curtain wall mounting system applied to a curved wall body of one embodiment, wherein the wall body is provided with an embedded part, the curtain wall mounting system comprises a connecting part, a suspension mechanism 10, an operating platform and a guide part, the connecting part is connected with the embedded part, the suspension mechanism 10 is arranged at the top of the wall body, the operating platform is connected with the suspension mechanism 10, the guide part extends from the top of the wall body to the ground, one end of the guide part is connected with the suspension mechanism 10, and the other end of the guide part is connected with the ground; wherein the operation platform is moved along the guide by the suspension means 10.

Among the above-mentioned curtain installing the system, hoist the curtain to the position of treating the installation, then make operation platform remove along the guide part under the effect of mechanism 10 that hangs, when reacing the position of treating the installation, be located operation platform on constructor alright with hang the curtain on the connecting piece to the realization is installed the curtain on the curved surface wall body. Because the guide part is arranged along the trend of the wall body, the operating platform can adjust the angle to adapt to the shape of the wall body in the moving process, and therefore, the curtain wall mounting system can meet the requirement that the engineering main structure frame is an inclined cylinder, and is favorable for improving the construction quality. In addition, the application construction method of the curtain wall installation system is simple in steps, convenient to operate and suitable for popularization and application.

When the curved wall is poured, the embedded part is arranged to be connected with the connecting part, wherein the connecting part is a keel of the curtain wall, and after the connecting part is connected with the embedded part, the curtain wall can be hung on the connecting part to realize the installation of the curtain wall. In this embodiment, the embedded parts may be steel plates, and the connecting parts are section steels, for example, T-section steels. The embedded parts are connected with the connecting parts in a welding manner. Adopt shaped steel to be main part curtain steel member fossil fragments, both improved the intensity of steel member itself and reduced the amount of deflection deformation of steel self again, guarantee the installation effect, only need after the installation to the relative serious position of individual position deflection rectify can. Considering that the slopes of the building bodies are different, the T-shaped steel members can be processed and assembled according to the actual construction requirements.

In the embodiment, the steel structure of the curtain wall keel is supposed to be formed by four transverse keels respectively at the upper part and the lower part, and is integrally produced and processed in a factory, and the welding mode is used for the vertical hollow plate between the upper part and the lower part. In order to ensure the accuracy of the vertical face, an assembling platform can be manufactured firstly, the T-shaped steel and the hollow steel plate are assembled on the manufacturing platform according to the radian requirement of the vertical face, spot welding positioning is carried out firstly, after the adjustment is correct, full welding fixing is carried out, the adjusting supporting plate is dismounted, the unit body is dismounted, and then the adjustment and assembly of the next unit body are carried out.

The measurement process flow is as follows: the method is familiar with understanding the drawing of the building structure and the curtain wall → dividing the whole project → determining a reference measuring layer → determining a reference measuring axis → determining a key point → paying off → measuring → recording original data → replacing a measuring elevation (or hierarchy) → repeating the above procedure → sorting the data → processing and reporting to a design part → confirming the availability of the measuring result. Each large floor is a straight-line vertical curtain wall, a curtain wall installation control line is led out through a main body axis, then the curtain wall installation control line is divided according to a curtain wall separation line, and finally steel wires are pulled according to three layers for positioning.

The suspension mechanism 10 is installed on the upper part of a building or structure, and the operation platform is moved by the suspension mechanism 10. As shown in fig. 1 to 3, in the present embodiment, the suspension mechanism 10 includes a controller, a driving portion, and a lifting portion 12, the controller is connected to the driving portion, the driving portion is connected to the lifting portion 12, and the lifting portion 12 is connected to the operation platform. The controller can control the opening and closing of the driving part, and when the driving part is started, the lifting part 12 can be driven to drive the operation platform to move along the guide part. When the controller controls the driving part to be closed, the lifting part 12 stops moving, and the operation platform can stay at the target position. In this embodiment, the driving part may be a motor.

Further, as shown in fig. 1, in the present embodiment, the lifting portion 12 includes a first boom 120, a second boom 122, a third boom 124, a first guide wheel 126, and a lifting rope 128, the first boom 120 and the second boom 122 are disposed in parallel and vertically connected to the top of the wall, the third boom 124 is connected to the first boom 120 and the second boom 122, a second guide wheel 127 is disposed at an end of the third boom 124 close to the second boom 122, the lifting rope 128 is wound around the first guide wheel 126, the first guide wheel 126 is connected to the driving portion, and the lifting rope 128 is wound around the first guide wheel 126, then wound around the second guide wheel 127, and connected to the operation platform. Specifically, when the controller controls the driving part to start, the driving part drives the first guide wheel 126 to rotate clockwise or counterclockwise, so as to wind or separate the lifting rope 128 around the first guide wheel 126, thereby shortening or extending the lifting rope 128, and further raising or lowering the operation platform. The lift cord 128 is wound around the first guide wheel 126, wound around the second guide wheel 127 at the end of the third boom 124, and then connected to the operation platform. By providing the second guide pulley 127 such that the lift cord 128 passes around the second guide pulley 127, the direction of the lift cord 128 can be changed and the force to pull the operating platform is saved. In this embodiment, the lift cords 128 are steel cords.

Further, in this embodiment, the lifting portion 12 further includes a fixing bracket 130 and a weight 132, the fixing bracket 130 is disposed on the top of the wall, the first suspension rod 120 is perpendicularly disposed on the fixing bracket 130, the weight 132 is disposed on an end of the fixing bracket 130 away from the second guide wheel 127, and the weight 132 is detachably connected to the fixing bracket 130. The fixed bracket 130 is used to provide support for the first boom 120 and the weight member 132, and the weight member 132 is used to improve the stability of the lifting portion 12. Wherein, the weight members 132 with different weights can be selected according to construction requirements. For example, a connecting rod may be vertically disposed on the fixing bracket 130, a hole may be formed in the center of the weight 132, and then the weight 132 may be inserted into the connecting rod, so as to detachably connect the weight 132 and the fixing bracket 130. The first, second and third booms 120, 122 and 124 are all steel structures, and the weight member 132 may be a concrete block or a steel block. The connection between the third boom 124 and the first boom 120 and the second boom 122 may be a welded connection.

Referring to fig. 1, in the present embodiment, the lifting portion 12 further includes a diagonal brace 134, and one end of the diagonal brace 134 is connected to the first suspension rod 120, and the other end is connected to the fixing bracket 130. The inclined strut 134 is welded to the first hanger bar 120 and the fixing bracket 130, thereby forming a triangular structure, enhancing the stability of the lifting part 12, and further improving the safety of construction.

The guide part is used for limiting the moving path of the operating platform and adjusting the moving angle of the operating platform. In this embodiment, a pulley is disposed on one side of the operating platform close to the wall, one end of the guiding portion is connected to the suspension mechanism 10, and the other end of the guiding portion is connected to the ground after being wound around the pulley. Furthermore, the number of the pulleys is two, and the two pulleys are arranged on one side, close to the wall body, of the operating platform. Wherein, one end of the steel wire rope is connected with the hanging mechanism 10, and the other end is fixed on the ground. The steel wire rope is arranged along the vertical direction of the surface of the wall body, so that the direction of the steel wire rope can be adjusted according to different inclination degrees of the wall body, and the curtain wall mounting system can be suitable for the wall bodies with different elevation inclination angles. In this embodiment, the operation platform is a basket. The position of the pulley on the basket is not particularly limited, and may be any position as long as the pulley is provided on the surface of the basket close to the wall.

It should be noted that the lifting portion 12 of the suspension mechanism 10 also includes two lifting ropes 128 respectively disposed on two opposite sides of the operating platform, and the guiding portion also includes two steel cables for limiting the moving angle of the operating platform, i.e., in this embodiment, the operating platform adopts a double-support-arm design, two support arms are normally connected to two opposite sides of the basket body, and the other two support arms are used as the traction guide rails of the basket, so that the lifting angle of the basket can be changed according to the adjustment of the guide rails. The connection mode of the steel wire rope and the hanging basket is a common connection mode in the field, and the details are not repeated here.

After the curtain wall mounting system is arranged, a hanging basket, a scaffold and a truck crane are adopted to mount the curtain wall, the truck crane is used for hoisting connecting pieces, personnel use the hanging basket or operate on the scaffold, a single-arm crane is arranged and mounted at the top of a floor to hoist the glass curtain wall, and field workers use the hanging basket to assist in hanging and mounting the steel structure and the glass curtain wall. And the truck crane plans to adopt 25-160 tons of truck cranes to finish the hoisting work of the on-site T-shaped steel frame according to different tonnage used at different positions.

In one embodiment, as shown in fig. 4, a single-armed crane is used to hoist the glass curtain wall 2. Wherein, be equipped with hoist and mount piece 20 on the curtain wall 2, hoist and mount piece 20 can be dismantled with curtain wall 2 and be connected, and the hoist and mount rope passes hoist and mount piece 20 to hang glass curtain wall 2. Wherein, hoist and mount piece 20 can be anchor clamps, can press from both sides and locate glass curtain wall 2.

The application and construction method of the curtain wall installation system is described below, and the application and construction method of the curtain wall installation system of an embodiment includes the following steps:

step one, connecting the connecting piece with the embedded part. The connecting piece is the fossil fragments of curtain, can form by the welding of T shaped steel, accomplishes the fixed of curtain fossil fragments promptly with connecting piece and built-in fitting welding completion back.

And step two, adjusting the position of the operating platform. The position of the operating platform is adjusted by the suspension mechanism 10, so that the operating platform is kept at a proper distance from the wall surface. Prior to this step, the curtain wall may be hoisted to the location to be installed and the guides set.

And step three, starting the suspension mechanism 10 to enable the operation platform to move along the guide part. The suspension mechanism 10 is activated to move the operation platform up or down along the guides. In this embodiment, the operation platform is a basket. The hanging basket comprises a working platform, wherein the working platform is suspended in the air and is used for bearing a field for carrying out high-altitude operation on operating personnel, tools, equipment and operating materials. The working platform is formed by connecting a front guardrail, a rear guardrail, a bottom frame and a lifter mounting frame through bolts, and the lifter and the safety lock are mounted on the lifter mounting frames at the two ends. The basic length of the platform is 1.5m/2.0m and 2.5m, and the platform can be spliced into a standard platform of 1.5 m-5 m and can be freely combined as required.

And step four, hanging the curtain wall on the connecting piece when the operating platform moves to the target position, and finishing the installation of the curtain wall. When the operation platform moves to the position of the curtain wall to be installed, constructors located in the operation platform can hang the curtain wall on the keel to complete installation of the curtain wall.

The curtain wall mounting system can meet the complex mounting environment on site, can be suitable for buildings with different inclination angles, and improves the construction safety.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. The utility model provides a curtain mounting system, is applied to the curved surface wall body, the wall body is equipped with the built-in fitting, its characterized in that includes:

the connecting piece is connected with the embedded part;

the hanging mechanism is arranged at the top of the wall body;

the operating platform is connected with the suspension mechanism;

the guide part extends from the top of the wall body to the ground, one end of the guide part is connected with the suspension mechanism, and the other end of the guide part is connected with the ground;

wherein the operation platform moves along the guide part under the action of the suspension mechanism.

2. The curtain wall mounting system according to claim 1, wherein a pulley is arranged on one side of the operating platform close to the wall, one end of the guide part is connected with the suspension mechanism, and the other end of the guide part is wound around the pulley and then connected with the ground.

3. The curtain wall mounting system of claim 2, wherein the number of the pulleys is two, and the two pulleys are arranged on one side of the operating platform close to the wall body.

4. The curtain wall mounting system of claim 2, wherein the guide portion is a wire rope, one end of the wire rope is connected to the suspension mechanism, and the other end of the wire rope is fixed to the ground.

5. The curtain wall mounting system of claim 1, wherein the suspension mechanism includes a controller, a drive portion, and a lift portion, the controller coupled to the drive portion, the drive portion coupled to the lift portion, the lift portion coupled to the operator platform.

6. The curtain wall mounting system of claim 5, wherein the lifting portion includes a first suspension rod, a second suspension rod, a third suspension rod, a first guide wheel and a lifting rope, the first suspension rod and the second suspension rod are disposed in parallel and vertically connected to the top of the wall body, the third suspension rod is connected to the first suspension rod and the second suspension rod, a second guide wheel is disposed at an end of the third suspension rod close to the second suspension rod, the lifting rope is wound around the first guide wheel, the first guide wheel is connected to the driving portion, and the lifting rope is wound around the first guide wheel, then wound around the second guide wheel and connected to the operating platform.

7. The curtain wall mounting system of claim 6, wherein the lifting portion further comprises a fixing bracket and a weight member, the fixing bracket is disposed on the top of the wall body, the first suspension rod is perpendicularly disposed on the fixing bracket, the weight member is disposed on an end of the fixing bracket away from the second guide wheel, and the weight member is detachably connected to the fixing bracket.

8. The curtain wall mounting system of claim 7, wherein the lifting portion further includes a brace connected at one end to the first hanger bar and at another end to the fixed bracket.

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